vertical technologies

IEEE ISGT Europe 2013 - Program

Last updated 07-10-2013 08:23:25

Sunday Monday Tuesday Wednesday Thursday

Electricity Markets for renewable based energy systems

Meeting Center S10

Sunday October 6Tutorial 1Power system security assessment

Tutorial 2Real Time Digital Simulation for Smart Grids

Tutorial 313:00 - 17:00

Meeting Center S03 Meeting Center S12

Panel 1Co-Simulation and Interdependency of Critical Infrastructures

Oticon salen

Panel 2Customer Behavior and Acceptance

Glassalen

Paper 1Active distribution network operation and management 1

Meeting Center, meeting room 1

Paper 2System integration of distributed energy resources 1

Meeting Center S01

Paper 3Integration of electric vehicles and storage 1

Meeting Center S02

17:00 - 19:00

19:00 - 21:00 Welcome reception at Copenhagen City Hall

Coffee break

Sportssal

15:30 - 17:00

13:30 - 15:00

08:00 - 09:00

09:00 - 10:00

10:30 - 12:00

Lunch - Parallel visit to PowerLabDK12:00 - 13:30

10:00 - 10:30 Coffee break

15:00 - 15:30

System integration of distributed energy resources 2

Sportssal

Poster A7Diagnostics and reliability of components and integrated systems

Sportssal

Poster A3Grid modeling, analysis and simulation including real-time and co-simulation 1

RegistrationMonday October 7

Break - Transfer to Copenhagen City Center

Poster A2DI side event


Poster A1Active distribution network operation and management 1

Poster A4Control strategies and architectures for aggregation and smart services 1

Sportssal

Poster A5

Sportssal

Poster A6Wide area power systems security and stability 1

Sportssal

Sportssal

Poster A9

Proven solutions to smart grid challenges

ICT including information models, cyber-security and system architecture

Sportssal

Poster A8Islanded systems and microgrids

Smart cities and cross energy-domain solutions including home automation

Sportssal

Poster A10Experiences from field tests and large-scale demonstrations

Sportssal

Meeting Center, meeting room 1Lunch event: Women in Power

Opening and Plenary 1 (part A)Directions of the Future Smart Grid: Developement, Trends and Prospects

Sportssal

Plenary 1 (part B)Directions of the Future Smart Grid: Developement, Trends and Prospects

Sportssal

Islanded systems and microgrids

Meeting Center S02

Asset Management in Smart Grids

Oticon salen

Panel 8Smart Energy Systems, Storage and Flexiblity

Glassalen

Paper 10ICT including information models, cyber-security and system architecture


Paper 11Diagnostics and reliability of components and integrated systems

Meeting Center S01

Wide area power systems security and stability 1


Paper 8Components smart grid readiness

Meeting Center S01

Paper 9Regulatory aspects, market designs and business models

Meeting Center S02

Panel 7 Paper 12

Glassalen

Paper 4Customer aspects, user behavior and flexible demand 1


Paper 5Control strategies and architectures for aggregation and smart services 1

Meeting Center S01

Paper 6Grid modeling, analysis and simulation including real-time and co-simulation 1

Meeting Center S02

Sportssal

Panel 3Wide Area Monitoring, Protection and Control

Oticon salen

Panel 4Cyber Security

17:30 - 18:00

18:00 - 22:30

18:00 Welcome drinks

15:30 - 16:00 Coffee break16:00 - 17:30

Poster B1 Poster B2 Poster B3 Poster B4 Poster B5Active distribution network operation and management 2

Poster B7Control strategies and architectures for aggregation and smart services 2

Sportssal

Poster sessionsstart at 12:30

Panel 5Real Time Simulation and Analysis Approaches

Oticon salen

Panel 6Power Quality in Smart Grids - A customer's perspective

Glassalen

Paper 7

10:30 - 12:00

08:30 - 10:00


14:00 - 15:30

Sportssal Sportssal

Sportssal Sportssal Sportssal

Regulatory aspects, market designs and business models

Grid modeling, analysis and simulation including real-time and co-simulation 2


Lunch - Parallel visit to PowerLabDK12:00 - 14:00

Plenary 2

Tuesday October 8

Conference dinner at Wallmans, The Circus Building

Poster B6 Poster B8 Poster B9


Integration of electric vehicles and storages

Customer aspects, user behavior and flexible demand

Components smart grid readiness and asset management

Sportssal Sportssal Sportssal

18:30 Dinner and show

Break - Bus transfer to conference dinner

Innovative Electricity Markets for Smart Grid

Paper 17Integration of electric vehicles and storages 2

Meeting Center S01

Paper 18Customer aspects, user behavior and flexible demand 2

Meeting Center S02

Panel 13Metering and Making Use of Massive Grid Data

Oticon salen

Panel 14Smart Transmission Systems

Glassalen

Paper 19Control strategies and architectures for aggregation and smart services 2


Paper 20Grid modeling, analysis and simulation including real-time and co-simulation 2

Meeting Center S01

Paper 21Wide area power systems security and stability 2

Meeting Center S02

Panel 11Active Distribution Network Operation and Management

Oticon salen

Panel 12Smart Grid Live - Challenges of bringing research to real life

Glassalen

Paper 16System integration of distributed energy resources 2


Panel 9System Services and Electric Transportation

Oticon salen

Panel 10Smart Grid Demonstration - The value of large demo projects

Glassalen

Paper 13Smart cities and cross energy-domain solutions including home automation


Paper 14Experiences from field tests and large-scale demonstrations

Meeting Center S01

Paper 15Active Distribution Network Operation and Management 2

Meeting Center S02

Plenary 3Smart Grid Business Cases - The Pathway to Business and Large-Scale Implementation

Sportssal

17:00 - 17:15 Conference closing


15:30 - 17:00

11:00 - 12:30

12:30 - 13:30 LunchParallel visit to PowerLabDK

13:30 - 15:00

Wednesday October 909:00 - 10:30


Technical tour 1 Technical tour 2 Technical tour 3Smart Grid DSO control room and energy solutions in Copenhagen

Bornholm – The Danish Smart Grid island with 50% renewable energy

Boat trip to Middelgrunden offshore wind farm (40 MW)

Thursday October 10

Opening and Plenary 1 (part A)

Conference openingJacob ØstergaardProfessor, Conference Chair, Head of Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

About the speaker

The energy system is in process of a fundamental transformation towards a reliable, sustainable and efficient energy system with reduced CO2-emission and increasing share of renewable energy. Smart Grid technology is a key element in a successful transformation. A vast majority of the Danish Parliament has agreed on an ambitious energy strategy. The agreement leads to 12 pct. reduction of gross energy consumption in 2020 compared with 2006, 35 pct. renewable energy in 2020 and approximately 50 pct. wind in the Danish electricity consumption in 2020. In 2020 the CO2 emissions will be reduced with 34 pct. This point towards the long-term goal of a Danish energy system 100% based on renewable energy in 2050. To facilitate the policy in spring 2013 a national Smart Grid strategy has been launched. The role of smart grid and the elements of the strategy will be discussed.

About the speakerSince 2011 Lidegaard has been appointed Minister for Climate, Energy and Building. From 2008-2011 he held a position as Co-founder and Chairman of the environmental think tank Concito. His political carreer includes Member of the Danish parlament (Social Liberals) in the periods 2001-2005 and 2005-2007. He has served as party’s spokesperson for energy, transport and food policy and climate, environment, social and transport policies, respectively. In the periode 1993-2001 he held positions as among others Head of Information and Assistant Secretary General, ActionAid Denmark and Chairman of environmental and foreign development committee, Danish 92 Group. He has a Master’s degree in Communications, University of Roskilde.

Directions of the Future Smart Grid: Developement, Trends and Prospects

Smart Grid in the Future Energy SystemMartin LidegaardMinister for Climate, Energy and Buildings, Denmark

Date Monday October 7, 09:00 - 10:00Venue Sportssal

Bjarklev has since 2011 been President of Technical University of Denmark (DTU). From 2010 he was appointed Provost of the university and earlier from 2004 he was head of Department of Photonics. He graduated from DTU as MSc(Eng.) in 1985, PhD in 1988 og Dr. Techn. in 1995. His research has focused on optical fibers and optoelectronics, which has generated several patent applications, establishing of two companies and more than 250 scientific articles.

Short welcome on behalf of Technical University of DenmarkAnders BjarklevProfessor, MSc (Eng), PhD, Dr. Techn., President, Technical University of Denmark, Denmark

About the speaker

Short welcome on behalf of IEEENoel SchulzProfessor, Dr., President IEEE Power & Energy Society, Associated dean and director, Kansas State University, USA

Since 2005 Østergaard has been Head of Center for Electric Power and Energy (CEE) at Department of Electrical Engineering, Technical University of Denmark (DTU) at which time he was appointed Professor in Electric Power Engineering. After his gradution from DTU in 1995 he was 10 year in industry with Danish Energy Research and Development. His research focuses on Smart Grid technologies with main contributions within services from demand side, advanced control of wind power plants, and fast real-time stability and security assessment. He serves in several national and international boards and committees. He has developed the center to its current level with 95 employees and been responsible for building up PowerLabDK (www.powerlab.dk) including labs at DTU and the Bornholm Island.

About the speakerDr. Noel Schulz IEEE Power & Energy Society President (2012-2013), Associate Dean for Research & Graduate Programs, Paslay Professor of Electrical & Computer Engineering, Kansas State University, Manhattan, Kansas, USA. She received her B.S.E.E. and M.S.E.E. degrees from Virginia Polytechnic Institute and State University (Virginia Tech) in Blacksburg, Virginia, USA in 1988 and 1990, respectively. She received her Ph.D. in EE from the University of Minnesota in Minneapolis, Minnesota, USA in 1995. Dr. Schulz joined the Kansas State faculty in 2009 and was named Associate Dean in August 2012. Dr. Schulz has more than 20 years teaching experience and is active in research and outreach. She has graduated 42 MS and 12 PhD students; published 160 papers and two book chapters; and brought in over $10 M in external research through individual and collaborative projects including an NSF CAREER award. Her research interests are in computer applications in power systems including power system operations, shipboard power systems, and intelligent system applications.

Plenary 1 (part B)Directions of the Future Smart Grid: Developement, Trends and Prospects

Professor, Head of Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

Professor, Research Director, Center for Carbon-free Power Integration, College of Earth, Ocean, and Environment, University of Delaware, USA

Transactive Energy Management – Precision Control & Coordination for a Mature Smart GridRon AmbrosioIBM Distinguished Engineer, Chief Technology Officer, IBM Smarter Energy Research, IBM, USA

Transactive Energy Management refers to techniques for managing the generation, flow, and consumption of electric power within an electric system through the use of value-based and market-based constructs while considering grid operational-reliability constraints. The term “transactive” derives from the fact that decisions are made based on value: those decisions may be asset management decisions based on the economic valuation of operational and business constraints and objectives, or they may literally be economic transactions in energy markets, and the combination of the two approaches.

Much of the future promise of electric systems lies in distributed energy resources (DER). Today, only a portion of those assets require precise control, but that will change as DER assets become a critical portion of the electric system environment. Transactive Energy Management offers an approach to address control and coordination across the increasingly diverse assets that will make up future electric systems, forming a virtual distributed management system with stable and predictable response.

Co-chair Willett Kempton

10:30 - 10:45

About the speaker


Chair Jacob Østergaard

Connection of renewable energy to the electricity distribution networkVincenzo BalzanoPPMV Smart Grid Segment Manager, Europe , ABB, Italy

Ron Ambrosio is an IBM Distinguished Engineer and Chief Technology Officer for Smarter Energy Research, overseeing Energy & Utilities Industry activities in IBM's twelve world-wide Research Laboratories. Ron joined IBM in 1981 at the T.J. Watson Research Center, working in a variety of areas including embedded operating systems and distributed application frameworks, ultimately focusing on cyber-physical systems.In 2000 Ron began working with the U.S. Department of Energy on smart grids, and with other partners on the launch of the GridWise Alliance. In 2004 he was selected by the Department of Energy to sit on the 13-member DoE GridWise Architecture Council, and served as Chairman in 2009-2010.Ron is the Chairman of the Smart Grid Interoperability Panel v2.0 (SGIP v2.0) Architecture Committee, and is the Convenor of the ISO/IEC JTC 1 Special Working Group on Smart Grid. He is also active in ISO/IEC JTC 1/SC 25 Working Group 1, where he is Editor of a new cyber-physical system interoperability standard (ISO/IEC 18012).

Aggressive European 20-20-20 climate targets have led to the rapid build out of distributed photovoltaic (PV) generation in countries such as Italy, Germany and Spain. Although their distribution networks were not designed to facilitate the connection of distributed generation, on the whole they have coped well and consumers have not experienced a marked decrease in reliability, in large part due to the skill of network operators in operating them. Nonetheless, as the penetration of distributed generation continues to increase, modernization of the networks is needed to provide operators with the tools they need to continue operating them to the expected level. Three of these modernization steps will be discussed: 1.Measurement of the power generated to enable optimization of the load management and implementation of the correct logic for voltage control within the limits of local regulations. 2. Reduction of the number and duration of outages and limitation of isolation only to the area of the fault through new protection functions to deal with issues such as bidirectional fault current. 3. Preventing the creation of unwanted islands (anti-islanding) resulting from faults in particular portions of the network

10:45 - 11:00

About the speaker

Innovations for an Integrated Energy System

Vincenzo Balzano was born on 26/06/1969 in Castel di Sangro in Italy.He studied Electrical Engineering and he graduated on 1994 in the University of L’Aquila. He joined ABB in 2001, and held the position of project management responsibility for Medium Voltage Air Insulated Secondary Distribution switchgear for 5 years. Since December of 2011, he has been covering the positions of Global Product Line Manager for Air Insulated Secondary Switchgear and PPMV Manager in Europe for Smart Grids. As PPMV Manager for Smart Grids, he has been meeting many customers and following projects in Europe in countries as Italy, France, Germany, Benelux, Nordic, etc. He has been involving mainly in the development of technical solutions for intellingent primary and secondary substations and for interconnection with distributed generation (as solar and windfarm).

As more and more intermittent renewable power, especially Wind and Photovoltaic Power Plants, are installed, the increasing mismatch of supply and demand must be solved by enforcing the Electricity Grids and by ramping up Demand Side Management. The use of electricity for heating and cooling would create substantial additional dispatchable loads with relatively low cost storage cost. Utilities are also increasingly installing direct electric heaters in the multi MW-range, which could help to mobilize the potential. But to reach those heaters the Electricity Grids must be enforced in first place. For private residents looking to renovate their houses, there are now a variety of technical electricity-based alternatives and innovative solutions. Older technologies such as resistive heaters, which are currently being faced out, may also gain new attractiveness.There are several smart ways of using excess electricity. Together with stronger grids, heat loads can help avoid power wastage while decarbonizing the heating sector. Fossil fuels can thus be shifted to where they are used most efficiently – in highly efficient power plants. On the macroeconomic scale, the combination of decoupling and dispatchability serves to hedge supply risks while increasing energy independence.

11:00 - 11:15

About the speaker

Michael WeinholdProfessor, Dr.-Ing., CTO Siemens Energy, Siemens AG, Germany

1983 – 1988: Electrical Engineering at Ruhr-University Bochum (Germany) and Purdue University, West Lafayette (USA)1989 – 1993: Research Assistant for Power Electronics at Ruhr-University, Dr.-Ing. degreeSince 1993: Siemens AG1993 – 2002: System Planning Engineer2002 – 2004: Commissioning Engineer High Voltage Systems2004 – 2007: CTO Power Transmission and DistributionSince 2008: CTO Siemens EnergySince 2011: Member of the Siemens Sustainability Board1997: Siemens Inventor of the Year 1997Since 2006: Senior Principal Key ExpertSince 2008: Siemens TOP InnovatorSince 2011: Adjunct Professor at Technical University of Denmark (DTU)

Smart Grid is often presented as a lot of technical solutions developed to solve challenges either on system or distribution level. If Smart Grid services are based on direct control either from the TSO or DSO there is a risk that the services are only available to the controlling party. Based on a request from the Ministry for Climate and Energy the national TSO and Danish Energy Association has developed a market setup for Smart Grid services. The market platform ensures that Smart Grid e.g. down regulation is available for both TSO and DSO’s based on the highest bid. At the present time at least 2 different Smart Grid demonstration projects are developing the necessary software platform to demonstrate the market place in real-tim.

Jørgen S. Christensen is the CTO of Danish Energy Association and he has worked with R&D within the Danish power sector the last 18 year. Jørgen S. Christensen is involved on management level on several Smart Grid R&D activities both on national and international level. Jørgen S. Christensen is also the national representative in the governing boards of CIRED and CIGRÉ and is presently a member of the CIGRÉ Steering committee.

A Market Platform for Smart Grid 11:15 - 11:30

About the speaker

11:30 - 12:00 Discussion

Jørgen S. ChristensenCTO, Danish Energy Association, Denmark

Plenary 2Innovative Electricity Markets for Smart Grid

Professor, Head of Analysis, Danish Energy Association, Denmark

Power market aspects of the future energy system

The role of prosumers in a smart grid dominated energy market

Preben Nyeng

Bernt A. Bremdal

Dr., Senior Engineer, Energinet.dk, Denmark

Professor, R&D coordinator, Narvik University, Norway

The future energy system will be based on renewable energy and will combine electricity, gas, heat and transportation systems into one integrated energy system. This results in cross-system benefits as well as dependencies. From the power system's point of view the primary challenge will be to absorb the fluctuating power output from the primary source of energy – wind power – whilst interacting with the dynamics of the adjacent gas, heat and transportation systems. The markets play a vital role in orchestrating this, and the way in which we design and operate power markets will be fundamentally challenged. In this talk I will highlight some of these challenges and discuss possible solutions.

Preben Nyeng is senior engineer at Energinet.dk, working with ancillary services and markets. He is working in the field of technical as well as economic aspects of power system balancing, and in particular focusing on securing the availability of technically sound and cost-effective means to balance the power system with increasing levels of wind power. His background includes professional experience from the IT business as well as research and practitioner's experience in power systems, and smart grids in particular. He holds an MSc and a PhD degree, both from the Technical University of Denmark.

Co-chair

10:30 - 10:45

About the speaker

10:45 - 11:00

Date Tuesday October 8, 10:30 - 12:00Venue Sportssal

Chair Peter Meibom

Future electricity markets dominated by stochastic drivers

Is there a real impedus for broad prosumer engagement in a smart grid dominated energy market? The issue is addressed in the context of a low price and a high price future scenario. Are there reasons to believe that regular households will take advantage of their latent market power that a prosumer role may give or will they stay inert and leave the market to the classic players?

Bernt Bremdal is a Professor at Narvik University College and a R&D coordinator at NCE Smart Energy Markets. His interests lie within IT: energy markets, smart systems/artificial intelligence, simulations, information and knowledge management. He holds both M.Sc. and Ph.D. degrees from the Norwegian Institute of Technology (NTNU) in Trondheim, Norway. During his career, he spent time between industry and academia, as a visiting scholar at Carnegie-Mellon University, assistant professor at NTNU and lecturer at the Norwegian Business School. He was involved in the development of 3 start-up companies that later grew and became well-established companies: GeoKnowledge, CognIT and Miriam. His current interests are focused on renewable energy solutions and smart grid, with particular emphasis on new challenges related to technology and markets for better integration of end users.

With the foreseen increased penetration of renewable energy sources, of variable and stochastic nature, combined with changes in the patterns of electricity consumptions, the classical structure of electricity markets is challenged. A potentially disastrous consequence could be that electricity markets do not support reliable power system operations, by not appropriately rewarding key aspects besides energy, i.e., capacity and services. Some of the key proposals to accommodate these negative effects will be discussed, in the context of the development of smart grid concepts, with a particular focus on demand-side aspects, but also on clearing and coupling mechanisms.

11:00 - 11:15

About the speaker

Pierre PinsonProfessor, Group leader, Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

About the speaker

Pierre Pinson is Professor in the Modelling of Electricity Markets at the Centre for Electric Power and Energy (CEE) of Technical university of Denmark DTU. He holds a M.Sc. In Applied Mathematics (INSA Toulouse, France) and a Ph.D. In Energy Engineering from Ecole de Mines de Paris (France). He is a Senior Member of the IEEE Power Energy Society, also acting as an Editor for the IEEE Transactions on Power Systems and Wind Energy. His main research interests are focused on proposing and applying mathematical methods for electricity markets and power systems operations. Prof. Pinson has published extensively in some of the leading journals in Meteorology, Power Systems Engineering, Statistics and Operations Research. He has been a visiting researcher at the University of Oxford (Mathematical Institute) and the University of Washington in Seattle (Dpt. of Statistics). Finally, he currently coordinates the Danish project “5s – Future Electricity Markets”, focusing on design and operations of future electricity markets with large scale penetration of renewable energy sources.

Over the last fifteen years environmental concerns for global warming have promoted the use of Renewable Energy Sources (RES) worldwide. However, the increasing share of intermittent RES in the generation mix poses new challenges on the efficient operation of the electricity markets, which were not designed to accommodate large amounts of price-insensitive, highly variable and poorly predictable supply sources. The speech will address the impact of large-scale RES integration on the operation of electricity markets in terms of wholesale market price dynamics, balancing, investment incentives, etc.. New generation market designs applying innovative methods for efficient RES management, such as the operation of intra-day and real-time markets with sub-hourly dispatch periods, the establishment of flexible capacity incentive mechanisms, the market integration, the deployment of smart grid technologies as well as alternative rules for the active participation of RES in the market will also be discussed.

Anastasios G. Bakirtzis is Professor at the Department of Electrical and Computer Engineering, Aristotle University of Thessaloniki, Greece. He received the diploma of Mechanical and Electrical Engineering from National Technical University, Athens, Greece, in 1979 and the M.S.E.E. and Ph.D. degrees from Georgia Institute of Technology, Atlanta, Georgia, USA in 1981 and 1984, respectively. His research interests are in Power System Operation, Planning and Economics. He has authored more than 150 technical papers in scientific journals and conference proceedings. He is member of the Editorial Board of the IEEE Transactions on Power Systems and Chair of the IEEE PES Greek Chapter. Professor Bakirtzis is senior member of IEEE, member of CIGRE and member of the Technical Chamber of Greece.

Electricity Markets and RES Integration11:15 - 11:30

About the speaker

Anastasios BakirtzisProfessor, Aristotle University of Thessaloniki, Greece

Plenary 3Smart Grid Business Cases - The Pathway to Business and Large-Scale Implementation

Dr., Senior Innovation Manager, DONG Energy, Denmark

Synchrophasor solutions to improve Smart Grid operationsJay GiriDirector of Power Systems Technology and Strategic Initiative , Alstom Grid, USA

PMUs are being increasingly deployed across power grids worldwide. PMUs produce sub-second high resolution time-tagged synchrophasor measurements which augment the traditional 2-4 seconds SCADA measurements, and will flood the control center with valuable new data. For the first time in history, grid operators will be provided with a time-synchronized view of grid conditions. Synchrophasor applications that are being developed and implemented for lower voltage distribution systems will also be discussed.

Co-chair

15:30 - 15:45

About the speaker

Date Wednesday October 9, 15:30 - 17:00Venue Sportssal

Chair Klaus Baggesen Hilger

Innovative business models for maximizing the value of distributed energy resources

New business model for individual heat pumps enabling smart grid

Nathan HowardProject Manager and Engineer, Spirae, Inc., USA

Jay Giri is Director of Power Systems Technology and Strategic Initiatives at Alstom Grid’s NMS business in Redmond, Washington. He leads a team of power system engineers who deliver market applications and synchrophasor/phasor measurement unit (PMU) applications to control centers. He is a liaison for university research activities and an affiliate professor at the University of Washington.

In 1978, Jay and 11 other engineers co-founded Energy System Computer Applications (ESCA). In 2010, ESCA became part of Alstom Grid (then Cegelec). Jay designed and implemented the original software for the ESCA automatic generation control (AGC) and dispatcher training simulator (DTS) power system simulation functions. Today the Alstom AGC controls over 50% of North American generation as well as generation in many other countries, and the Alstom DTS is one of the predominant simulators used by control centers worldwide. He was a member of the gold medal-winning Alstom Innovation team, ‘Next Generation Online Stability Solutions’ in 2012.

He has a PhD from Clarkson University in New York and a B.Tech from the Indian Institute of Technology (IIT), Madras. In 2002, he was elected IEEE Fellow: “For contributions to the design and implementation of power system control centers” and is a member of the IEEE Power & Energy Society (PES) Governing Board.

The projected growth of distributed energy resources (various forms of generation, storage, and flexible demand) at the edge of the network is creating challenges and opportunities for grid operations and for meeting the evolving needs of energy consumers. While solar energy, heat pumps, active energy management, smart electric vehicle charging etc.,

Steen Kramer Jensen

16:00 - 16:15

CEO, Insero Energy, Denmark

15:45 - 16:00

The new business model (BM) for deployment of individual heat pumps (HP) follows a general trend in the society moving away from ownership and towards consumption of services. The BM will accelerate the deployment of HPs, contributing to the goal of the Danish Government to phase out oil-based heating, and demonstrates a bottom-up approach to smart grid implementation. The distinctive feature is that customers buy HP-based heat from a heat provider. The heat provider has the responsibility and risks related to HP financing, installation, maintenance, and operation efficiency. Another important feature of the BM includes online monitoring and control of HPs, thereby making them smart grid ready. This supports the business case where the heat provider also becomes an aggregator. The online communication is based on an open standard and can be implemented today without waiting for approved standards. Thus the new BM prepares the technology and infrastructure for smart grid business of tomorrow, based on the business case of today – supplying individual HP-based heat.

Mr. Steen Kramer Jensen is CEO at Insero Energy, which creates new knowledge from R&D in distributed energy systems based on renewable energy sources. Hes is also Chairman for the Board at the cooperative Intelligent Energistyring (Intelligent Energy Control)

Steen Kramer Jensen holds a Master in Engineering and has nearly 20 years experience in the Danish Energy Sector. He has been employed at the Danish Energy Authorities, at the Danish utility DONG Energy and at the Danish Transmission System Operator, Energinet.dk, where he held the position as Chief Consultant.

Steen has as an engineer also built his own house and heat pump system from scratch and has therefore also practical experience from both a homeowners view and from the manufacture of heat pump systems - see www.flamingohuset.dk. Data from this house system has been used in several case studies latest in the IEA Task 44 co-funded by EUDP.

From a background in the mobile industry both as employee and as founder of an IT Company, Steen Kramer Jensen also have experience from business and strategy development in the commercial sector.

During his long experience, Steen Kramer Jensen has build up a large network in Utilities, Authorities and Universities as well as in ICT- and Manufacturing companies in Denmark and abroad.

Smart Grid Business Case for Private Homes

About the speaker

16:15 - 16:30

Rasmus VillefranceDr., Platform manager, Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

We describe and consider how the potential of energy savings may drive the penetration of smart grid technology into private homes. We assess the sociological processes which lead to energy savings when the residents have access to smart grid technology. We propose a way to establish a cash flow from consumers via electrical distribution companies to smart grid technology providers on the Danish market. Finally, we assess the impact of such a business development on the society, as well as relating the penetration of smart grid technology in private homes to the societal goal of 100% renewable energy in the electrical grid in 2050.

Rasmus Villefrance is Platform Manager at the Technical University of Denmark, Department of Electrical Engineering in Roskilde, Denmark. He leads the iPower Platform, a consortium of 25 companies and universities. The consortium conducts research within the area of smart grid, and develops smart grid business cases.

In 1999, Rasmus joined Nokia Mobile Phones. In his 13-years career in Nokia, focus has been on Bluetooth, charging algorithms and battery manufacturing. This has led to 6 patent applications. Today, Rasmus combines his experience from telecommunication and energy industries to lead iPower.

He holds a Ph.D. and M.Sc. from DTU in electrical insulation material and signal processing. In 2011, he was elected IEEE senior member, and he is a member of IEEE PES.

About the speaker


Special event with lunch served

Lunch will be served during the event.

Women in PowerDate Monday October 7, 12:00 - 13:30Venue Meeting Center, meeting room 1

Equal opportunity, the importance of women using their influence on the development of technologyBritta Thomsen

Chair Noel SchulzProfessor, Dr., President IEEE Power & Energy Society, Associated dean and director, Kansas State University, USA

Co-chair Lise NielsonIndependent Consultant, Linie P, Denmark

PES Women in Power fosters a more diverse leadership by supporting the career advancement, networking and education of women in the energy industry. For this social and inspirational event the aim is to introduce the participants to the various aspects and benefits of networking with female colleagues from the Smart Grids development and applications research arena. Participants are women who would like to extend their network within the Smart Grid commuity, or delegates looking to advance into leadership roles or who need help navigating their career. There is always the opportunity to meet interesting new people, and to learn from the informed discussions on Smart Grid topics, and in this forum, the people you meet will be primarily other women working for advancement of Smart Grid technology into society.

Women in PowerNoel SchulzProfessor, Dr., President IEEE Power & Energy Society, Associated dean and director, Kansas State University, USA

Dr. Noel Schulz IEEE Power & Energy Society President (2012-2013), Associate Dean for Research & Graduate Programs, Paslay Professor of Electrical & Computer Engineering, Kansas State University, Manhattan, Kansas, USA. She received her B.S.E.E. and M.S.E.E. degrees from Virginia Polytechnic Institute and State University (Virginia Tech) in Blacksburg, Virginia, USA in 1988 and 1990, respectively. She received her Ph.D. in EE from the University of Minnesota in Minneapolis, Minnesota, USA in 1995. Dr. Schulz joined the Kansas State faculty in 2009 and was named Associate Dean in August 2012. Dr. Schulz has more than 20 years teaching experience and is active in research and outreach. She has graduated 42 MS and 12 PhD students; published 160 papers and two book chapters; and brought in over $10 M in external research through individual and collaborative projects including an NSF CAREER award. Her research interests are in computer applications in power systems including power system operations, shipboard power systems, and intelligent system applications.

Britta Thomsen is a Danish politician and Member of the European Parliament. She is a member of the Social Democrats, which is part of the Party of European Socialists, and is vice-chair of the European Parliament's Committee on Industry, Research and Energy. She is also a member of the Committee on Women's Rights and Gender Equality. Britta Thomsen recently held her inaugural lecture as adjunct professor at Copenhagen Business School on the topic of how to promote cooperation between Denmark, Europe and Brazil within the area of research and innovation.

The future of Smart Grids

Member of European Parliament, Vice-chair of the ITRE committee, Denmark

Professor, Power Grid Systems, KTH Royal Institute of Technology, IEEE PES ISGT Europe Site Committee Chair, Sweden

Jeannette Møller Jørgensen is coordinator at the Research and Development Department at Energinet.dk, the national Danish Transmission System Operator for electricity and gas. She joined Energinet.dk in 2006 and has experience with R&D on both a national and international level besides teaching at school of engineering. She has published numerous articles and given presentations at several conferences. She is Senior Engineer and holds a degree in M.Sc.Biotech, and works as a coordinator of R&D in the area of Smart Grid and demand response. She is heavily involved in the strategic work of how to implement Smart Grid in Denmark – going from R&D to dissemination. She has a central role in the large-scale demonstration project EcoGrid EU.

Dr. Lina Bertling Tjernberg is Professor in Electric Grid Systems at the Royal Institute of Technology KTH, from September 2013. She was previously Professor in Sustainable Electric Power Systems at Chalmers University of Technology, 2009-2013, and during 2009-2012 she was the Head of the Electric Power Engineering Division. During 2007-2009 she was with the Swedish Transmission system operator. She has spent two research periods in Canada; during 2000 at University of Saskatchewan and during 2012/2013 with University of Toronto and Kinectrics. Her research area is in modernization of the electric power systems with special interest in reliability analysis and maintenance management.

Dr. Bertling Tjernberg is serving as Treasurer of IEEE Power & Energy Society 2012-2014, and is the Chair of the Swedish PE/PEL Chapter. She has been the chair of the IEEE PES Subcommittee on Risk, Reliability and Probability Applications (RRPA) 2011-2013 and has been an RRPA officer since 2007. She organized the first IEEE ISGT conference in Europe 2010 and she is an Editor for the IEEE Transactions on Smart Grid Technologies. She is a Member of the Swedish Government Coordination Council for Smart Grid, and is an expert for the EU commission within Energy, ICT and Security.

R&D Coordinator , Energinet.dk, Denmark

Being active in IEEE PES and what Chapter 8 is focusing onLina Bertling Tjernberg

Jeanette Møller Jørgensen

Panel 1Co-Simulation and Interdependency of Critical Infrastructures

Dr., Principal Scientist, AIT Austrian Institute of Technology, Austria

Dr., Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

Modeling and simulation of complex energy systems

mosaik - A modular Platform for the Evaluation of Agent-Based Smart Grid Control

Edmund Widl

Sebastian Rohjans

Dr.-Ing., AIT Austrian Institute of Technology, Austria

Future energy systems are supposed to be capable of many things -- handling of volatile and distributed energy sources, efficient and reliable distribution of electricity, integration of smart appliances and many things more. Model- and simulation-based design and operation promise to offer an answer to the associated problems, but a closer look reveals that there is a severe lack of tools that are able to capture the full complexity of such systems. Co-simulation is a possible solution to overcome this obstacle by utilizing the expertise and experience of established simulation tools. Yet such approaches come with intrinsic complications, regarding e.g. numerical stability, combination of heterogeneous simulation paradigms or tool interoperabilty issues. However, there have been some encouraging developments in recent years that make co-simulation approaches look more feasible and promising for applications regarding the modeling and simulation of complex energy systems in the future.

Edmund Widl received an M.Sc. and Ph.D. in Physics from the Vienna University of Technology, Vienna, Austria, in 2004 and 2008 respectively. From 2003 to 2011 he worked for the Institute of High Energy Physics (HEPHY), Vienna, Austria, on several projects for the CMS Collaboration, one of the particle physics experiments at the Large Hadron Collider (LHC) at CERN, Geneva, Switzerland. In 2011 he joined the Complex Energy Systems group of the Austrian Institute of Technology (AIT), focusing on modeling and simulation of cyber-physical energy systems.

Co-chair Kai Heussen

13:30 - 13:45

About the speaker

13:45 - 14:00

Date Monday October 7, 13:30 - 15:00Venue Oticon salen

Chair Peter Palensky

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Vulnerability analysis of coupled heterogeneous critical infrastructures: a co-simulation approach with a test bed validation

Dr.-Ing., Senior Scientist, Group Leader, OFFIS – Institute for Information Technology, Germany

Smart Grids rely on the use of ICT for managing large numbers of active components and sensors for keeping demand and generation of electricity at equilibrium while operating all the different resources within their operational limits. Due to the distributed nature of these resources, their heterogeneity as well as their sheer number, this is a challenging task. Control strategies as well as novel paradigms need to be developed and thoroughly evaluated through extensive simulations. In order to yield scientifically sound and reliable results, these simulations have to rely on valid and (ideally) established models e.g. from industry. As a consequence, a lot of effort is put into the modeling and validation of both single system components such as PV or wind energy converters and composite sub-systems for appropriate simulation environments, i.e. entire low or medium voltage power grids. Therefore, it is desirable to compose complex scenarios based on these models and established simulation setups and to reuse them as much as possible. The mosaik framework presents a flexible architecture as well as a powerful modeling and specification language to automate the process of reusing existing models and platforms in orchestrated large scale Smart Grid Co-simulations.

Sebastian Rohjans is a senior scientist at OFFIS – Institute for Information Technology focusing on interoperability aspects for automation systems in distribution grids. Further focal topics of his work are simulation frameworks, data modeling, and ICT-architecture development for future energy systems. The application of ICT-standards such as the Common Information Model (CIM), IEC 61850, and the OPC Unified Architecture is a cross-cutting key point of his overall work. In 2012 he received the PhD degree from the University of Oldenburg for his research dealing with “Semantic Service Integration for Smart Grids”. Since 2013, Dr. Rohjans is manager of the R&D group “Simulation and Automation of Complex Energy Systems”.

14:00 - 14:15

Raphael Caire Dr., Associate Professor, Grenoble Electrical Engineering Laboratory - Grenoble Institute of Technology, France

About the speaker

The security of critical infrastructures, such as power systems, telecommunication networks, information facilities or even emergency and financial services, is a major aspect for our modern societies. One of the main threats is the growing interdependency between them. Failure in one infrastructure may cascade on others. In many infrastructures, it is mainly caused by the increasing complexity of operating constraints. In order to improve the overall security encompassing power and ICT as well as pertinent guidelines or regulation issues, it is needed to better understand the interactions and interdependencies of these heterogeneous infrastructures as an overall and integrated system. Different tools are then needed: software tools able to simulate the dynamic or long term stability of coupled-infrastructures and benchmarks with coupled-components. A co-simulator combining grid, communication and information models will be presented. At first, a combined simulator (coupling three dedicated software tools) and a test bed case are developed and set up to identify the vulnerabilities of the transmission power grid resulting from its interdependencies with communication and information systems. As an example, an illustration of the effects of a faulty router in the telecommunication network that causes cascading effects on the electrical infrastructure is presented. Then a second combined simulator, dedicated to Distribution Network and Smart Grid, will be presented, linked to a reduced scale Smart Grid test bed for validation purpose. Both tools demonstrate the effects of cascading failures from an infrastructure to another.

Raphaël Caire (IEEE SM'00 - M’04) received his Diplôme d’Etudes Approfondies (DEA) and Doctorat de l’INPG degrees from the Grenoble Institut of Technology (INPG) in 2000 and 2004. He worked in Power Electronic field, in USA at the Center of Power Electronic System (CPES) in 2000 and within several EDF research centers in Germany and France from 2004 and 2006. He is now associate professor at Grenoble Institute of Technology (Grenoble – INP) at the Ecole d’Ingenieurs en Energie, Eau et Environnement (ENSE3) in the Grenoble Electrical Engineering Laboratory (G2ELab). His research is centered on the control and automation of electrical distribution system, novel distribution network Architectures and Critical Infrastructures Protection.

Industrial Use cases for standards-based open co-simulation of Infrastructures: Communication and Power

About the speaker

14:15 - 14:30

Lars Nordström Professor, PSMIX, Industrial Information & Control Systems, KTH Royal Institute of Technology, Sweden

The dependence of advanced control of power system on the underlying communications infrastructure and the interdependence of the infrastructures is a topic of study in many research groups, and industry initiatives. Since both the communications and power system domain involves large complex systems, the use of simulators to study real-time phenomena involving external controllers or network devices is a natural although complex and costly option. The standards based open co-simulation platform at the PSMIX lab is unique in its ability to adopt to several different needs. The PSMIX co-simulation platform includes standards-based devices and interfaces enabling flexible reconfiguration and reuse of core resources.

The presentation covers a set of industrial use cases that have been developed on top of the PSMIX co-simulation platform. The Use cases include such diverse studies as impact of delay of control signals in MT-DC grid control, integration of DLMS based metering systems with IEC 61850 protection and automation devices for voltage control and analysis of the delays of PMU datastreams for Wide Area Monitoring and Control Systems. All of the use cases have been developed in conjunction with industry partners and are providing valuable results to industry.

Lars Nordström is Professor in Information Systems for Power System Management at the department of Industrial Information & Control Systems. He received his Master in Electrical Engineering in 1996 and his Ph.D. in 2006 both from KTH - The Royal Institute of Technology. Lars Nordström's leads the PSMIX research group at KTH, and his research interests are methods and tools for analysis and design of reliable, interoperable, secure and high-performing ICT systems for operation, control an automation of power systems. He is engaged in a number of national, regional and international projects on these topics, including FP7 projects Grid4EU and DISCERN. He is past director of EKC2 the Swedish centre of Excellence in Power Engineering, and Thematic leader for Smartgrids & electric storage in EIT’s KIC InnoEnergy. Lars Nordström is a senior member of the IEEE and a personal member CIRED and Cigre serving among other things as national representative for Cigre SC D2 "Information Systems and Telecommunication" and on the Swedish national committe of CIRED. Lars Nordström is also active in a number of standardization activities including the IEC Strategic Group on Smartgrids as well as chairman of IEC TC57's Swedish mirror group.

About the speaker


Panel 2Customer Behavior and Acceptance

Dr., Operating Agent, IEA Energy Tehcnology Network, New Zealand

Indpendent Consultant, MDT Analyse AS, Norway

Energy Consumption in the Home - the human perspective

Closing the Loop - how to turn good behavioural theory into best practice

Johanne Mose Entwistle

Sea Rotmann

Research and innovation responsible, Alexandra Institute, Denmark

Dr., Operating Agent, IEA Energy Tehcnology Network, New Zealand

The future smart grid and integration of sustainable energy sources calls for a new role for energy consumers. Somehow we need to move from a demand driven production to production driven demand. In this transition private end consumers could play a crucial role. And if we want to change consumption behaviour in the home, we need to understand what and who we are dealing with. In this presentation, I will adress some of the challenges in the current understanding of human beings as 'energy consumers' in general and 'micro ressource managers' in particular. I will argue that we need a much more nuanced understanding of what creates and effects energy consumption if we want to change energy consuming behaviour in the future.

Johanne is a trained anthropologist and specialises in energy, technology and human behaviour.She has been working at the Alexandra Institute since 2008, with several energy and smart grid related projects together with both national and international parterns and businesses. She teaches energy anthropology at several different universities, and in 2012 she was part of the network who provided the Minister of Climate, Energy and Buildings with recommendations and a roadmap for research, development and demonstration in relation to the roll out of Smart Grid in Denmark.

Co-chair Maj Dang Trong

13:30 - 13:45

About the speaker

13:45 - 14:00

Date Monday October 7, 13:30 - 15:00Venue Glassalen

Chair Sea Rotmann

Who wants smart grid services? Who doesn't?

The International Energy Agency Demand Side Management (IEADSM) Implementing Agreement (www.ieadsm.org) has created a Task that concentrates specifically on energy end user behaviour (change). Task 24 investigates behavioural theory and case studies around the world in order to improve design, implementation and evaluation of pilots, policies and programmes that are geared towards better demand management, in its widest sense (including energy efficiency and conservation). There is a great opportunity for DSM programmes if this potential could be easily accessed and directed. However, as many other IEA (DSM) Tasks have discovered, the ‘market failure’ of energy efficiency is often due to the vagaries of human behaviour and choice. But Governments continue to focus on technological and economic solutions, without taking the ‘human component’ into account. This Task concentrates on creating tailor-made solutions and recommendations of turning good theory into best practice for its participating countries.

Dr Sea Rotmann is a roving behaviour change consultant. She started her own consultancy called SEA - Sustainable Energy Advice, focusing on turning behaviour change theory into best practice. Currently, her biggest project is Task 24 from the IEA DSM Implementing Agreement (www.ieadsm.org). She is also an evaluator for demand side research proposals, both in New Zealand and for the EU Commission and is highly prolific on social media, content managing websites and expert platforms for various energy research projects including Task 24 and ‘Energy Cultures 2’ and writing blogs for the ECEEE, EEIP, Global Energy Professionals, UKERC. She believes that it is imperative for decisionmakers to realise that the human component is the most important aspect of the energy system.

Most consumer smart grid applications like smart meters and control devices are directed at “hard core” consumers who are particularly interested in energy. They are a small group, who are expected to be the vanguards that will lead the market into a new era. My presentation explores whether ordinary users are likely to follow the lead of the “hard core” energy service consumers on the basis of a large survey study from Finland. Most consumer smart grid applications like smart meters and control devices are directed at “hard core” consumers who are particularly interested in energy. They are a small group, who are expected to be the vanguards that will lead the market into a new era. My presentation explores whether ordinary users are likely to follow the lead of the “hard core” energy service consumers on the basis of a large survey study from Finland.

14:00 - 14:15

About the speaker

Eva HeiskanenDr., Research Professor, National Consumer Research Centre, Finland

About the speaker

Eva Heiskanen is Research Professor at the Finnish National Consumer Research Centre and Visiting Professor at the International Institute for Industrial Environmental Economics (IIIEE), Lund University, Sweden. Her PhD is in Organization and Management. Her work focuses on the role of consumers and other users in the adoption of new more sustainable solutions, especially in the context of residential energy consumption. One recent line of research focuses on consumer acceptance and adoption of smart grid-based services and service development at energy companies.

Every 10th household on Bornholm participates in the EcoGrid project; this is an unprecedented high share of the population participating in a smart grid project. Involving so many end consumers, and especially end consumers with little interest in energy, calls for tailor-made communication.

Maja Bendtsen is Head of projects at the Danish utility Østkraft, which is based on the island of Bornholm. Ms. Bendtsen plays a leading role in both the EDISON Project and the Eco Grid EU project, among other programs, and is responsible for testing the actual project implementation in Bornholm. She served as a member of the Smart Grid Network guiding the Danish government on the national Smart Grid strategy. Ms. Bendtsen holds a Master of Science degree in chemistry and a Six Sigma Green Belt certification. She was born and raised on the island of Bornholm in Denmark.

Meet your customers where they are14:15 - 14:30

About the speaker


Maja Felicia Bendtsen M. Sc. Chemistry, Head of projects, Østkraft, DSO of Bornholm Island, Denmark

Paper 1

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Yizheng Xu and Jovica Milanovic, University of Manchester

14:15 - 14:30

ISGT376

Introducing Decentralized EV Charging Coordination for the Voltage RegulationOlivier Beaude, Supelec - Renault, Yujun He and Martin Hennebel, Supelec

14:30 - 14:45

ISGT323

Voltage Controlled Dynamic Demand ResponseBishnu Bhattarai, Birgitte Bak-Jensen, Pukar Mahat and Jayakrishnan Radhakrishnan Pillai, Aalborg University

14:00 - 14:15

ISGT44

Framework for Estimation of Daily Variation of Dynamic Response of Aggregate Load

Integrated State Estimation and Load Modelling for Distribution Grids with Ampere MeasurementsFrancesco Fusco and Mathieu Sinn, IBM Research Ireland

13:30 - 13:45

ISGT158

An Architecture for Implementing State Estimation Application in Distribution Management System (DMS)Francesco Adinolfi, Francesco Baccino, Fabio D'agostino, Stefano Massucco and Federico Silvestro, University of Genova

13:45 - 14:00

Active distribution network operation and management 1

University of Cagliari, Italy

ISGT100

Date Monday October 7, 13:30 - 15:00Venue Meeting Center, meeting room 1

Chair Fabrizio Pilo

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J.P. Zhan, Zhejiang University, Q.H. Wu, University of Liverpool, C.X. Guo, Zhejiang University, L.L. Zhang, South China University of Technology, M. Bazargan, Alstom Grid,

14:15 - 14:30

ISGT56

Energy Networks: A Modelling Framework for European Optimal Cross-Border TradesCatalina Spataru, Unversity College London

14:30 - 14:45

ISGT346

Model estimation of photovoltaic power generation using partial informationGianni Bianchini, Simone Paoletti and Antonio Vicino, Universita' degli Studi di Siena, Franco Corti, Siemens Italia, Federico Nebiacolombo, Softeco Sismat

14:00 - 14:15

ISGT524

Impacts of Wind Power Penetration on Combined Economic and Emission Dispatch

LS-SVM-based On-Load Tap Changer Control for Distribution Networks with Rooftop PVSam Weckx and Carlos Gonzalez, KULeuven, Tom DeRybel, EIT KIC, Johan Driesen,

13:30 - 13:45

ISGT179

Cooperation of Energy Storage Systems and Biogas Generator for Stabilization of Renewable Energy Power PlantsYusuke Manabe, Hokkaido University

13:45 - 14:00


Istanbul Technical University, Turkey

ISGT7

Date Monday October 7, 13:30 - 15:00Venue Meeting Center S01

Chair Omer Usta

Paper 3

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Matthew Rowe, William Holderbaum and Ben Potter, The University of Reading

14:15 - 14:30

ISGT295

Integration of Stationary and Transportable Storage Systems into Multi-Stage Expansion Planning of Active Distribution Simon Koopmann, Martin Scheufen and Armin Schnettler, RWTH Aachen University

14:30 - 14:45

ISGT162

Impact of Electric Vehicles Flexibility on Generation Expansion PlanningPedro Javier Ramirez Torrealba, Dimitrios Papadaskalopoulos and Goran Strbac, Imperial College London

14:00 - 14:15

ISGT166

Control Methodologies: Peak Reduction Algorithms For DNO Owned Storage Devices On The Low Voltage Network

Fair Charging Strategies for EVs Connected to a Low-Voltage Distribution NetworkMingming Liu, Hamilton Institute, Paul McNamara and Seán McLoone, Callan Institute

13:30 - 13:45

ISGT146

Dynamic Electric Vehicle Charging Load Modeling From Perspective of TransportationDifei Tang and Peng Wang, Nanyang Technological University

13:45 - 14:00

Integration of electric vehicles and storage 1

University of Luleå, Sweden

ISGT114

Date Monday October 7, 13:30 - 15:00Venue Meeting Center S02

Chair Math Bollen

Panel 3Wide Area Monitoring, Protection and Control

Managing Director, Quanta Technology, Europe, Netherland

Assistant professor, Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

Applying WAMS – Practical Examples

Wide-Area Protection System Design

Bas Kruimer

Daniel Karlsson

Managing Director, Quanta Tecnology, Europe, Netherland

Principal Engineer, Gothia Power, Sweden

Based on practical experience and examples this presentation will address some of the projects in different parts of the world and especially the applications that are being implemented today, the goals and expectations utilities are trying to achieve. Phasor measurements are not only being deployed in Transmission grids anymore, but more and more so in Distribution grids. Impacts from system perspective will be addressed as well as the importance and relevance of performing a proof of concept. The presentation will wrap up with an overview of a structured project approach from application benefits analysis to deployment plan with knowledge transfer and conclude with a checklist from utility viewpoint.

Bas Kruimer – Managing Director Europe of Quanta Technology – studied Power Engineering at Delft University of Technology. He has been working in the T&D market since 1990 in commercial roles, in business development and management. He has worked on the supplier side, on the consulting side as well as on the utility side. He is responsible for Quanta Technology’s team of T&D and Smart Grid Consultants in Europe and develops Quanta Technology’s services towards European customers.Bas is a recognized expert in substation automation, network control, protection and IEC 61850 from previous positions with Joulz, KEMA and ABB. Within Quanta Technology one of his preferential topics is Situational Awareness and Phasor-Measurement Strategy, Applications and Roadmapping.

Co-chair Hjörtur Jóhannsson

08:30 - 08:45

About the speaker

08:45 - 09:00

Date Tuesday October 8, 08:30 - 10:00Venue Oticon salen

Chair Bas Kruimer

Synchrophasor Measurements and Standards Development

The presentation will distinguish wide-area protection from equipment protection, discuss the phenomena to counteract, compare response-based systems with event-based systems, and finally present suitable protection scheme structures. The objective of equipment protection is to disconnect the equipment if it is faulted or overloaded, while the objective of wide-area protection is to preserve the integrity of the power system, when it is in transition towards an instability. Phasor measurement applications for wide-area applications are addressed, and general design and implementation principles are presented and discussed. The power system phenomena to counteract are basically: transient angle instability (first swing), small signal angle instability (damping), frequency instability, short-term (transient) voltage instability, and long-term voltage instability. Centralized an decentralized wide area protection schemes for different applications are presented and discussed. It is concluded that (1) PMUs have greatly improved the observability of the power system dynamics, but the area of controllability has not yet been entered, and (2) based on PMUs, reliable and advanced wide-area monitoring and protection systems can be designed.

Daniel Karlsson is a principal engineer at Gothia Power. He received his PhD in Electrical Engineering from Chalmers University in Sweden 1992. Between 1985 and April 1999 he worked as an analysis engineer at the Power System Analysis Group within the Operation Department of the Sydkraft utility (now E.ON). From 1994 until he left Sydkraft in 1999 he was appointed Power System Expert and promoted Chief Engineer. Most recently Dr. Karlsson held a position as Application Senior Specialist at ABB Automation Technology Products. His work has been in the protection and power system analysis area and the research has been on voltage stability and collapse phenomena with emphasis on the influence of loads, on-load tap-changers and generator reactive power limitations. His work has comprised theoretical investigations at academic level, as well as extensive field measurements in power systems. Through the years he has been active in several Cigré and IEEE working groups. Dr. Karlsson is a member of Cigré and a senior member of IEEE. He serves as a reader at Chalmers University of Technology and he has supervised a number of diploma-workers and Ph. D students at Swedish universities.

Ken Martin

09:00 - 09:15

Consulting Engineer, Electric Power Group, USA

About the speaker

The synchrophasor measurement concept grew out of computer relaying development where phasors were estimated from sampled waveforms. By applying a precise time to the phasor estimates, these values could be directly compared across an entire power grid. This allows comparing system phase angles, computing power flows, and making other system comparisons much more precisely than before. Standards for making these measurements to assure comparability and interoperability have followed with the development of measurement methods. The most current standards have extended the synchrophasor concept to dynamic measurement and added frequency measurements. The role of standards in development of the technology continues to be refined. This presentation will review the current standards used in wide area measurements and the development that is ongoing. The problems with developing performance requirements with an emerging technology will be explored.

Ken Martin is a consulting engineer with the Electric Power Group (EPG). He has over 35 years experience in the electric utility industry working at the Bonneville Power Administration (BPA) in communication, precise timing, instrumentation, and testing. He initiated the first PMU tests with the original units that were introduced in 1987 and built the first phasor data concentrator. He developed the phasor measurement system at BPA and supported similar developments at many utilities. Mr. Martin chaired the development of the IEEE synchrophasor standards C37.118.1-2011 and C37.118.2-2011. He was a lead for the IEC task team that developed the synchrophasor extension for IEC 61850, part 90-5 and is the convener for 60255-118-1 (TC95) developing the joint IEC-IEEE measurement standard. He consults and lectures on synchrophasor technology worldwide including Denmark, Spain, Switzerland, Russia, China, and India. Mr. Martin is a Fellow of the IEEE and a registered Professional Engineer. He has authored or co-authored over 50 articles and technical papers. He continues to support and develop synchrophasor technology at EPG, in consulting, and through IEEE and NASPI.

TBACostas D. Vournas

About the speaker

09:15 - 09:30


Professor, Electrical Energy Systems Laboratory of the School of Electrical and Computer Engineering of NTUA, Greece

Panel 4Cyber Security

Dr., R & D Manager, Svenska Kraftnät, Sweden

Dr., Post doc, Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

Cyber security in smart grids – what is really new?

Cyber Security Assessment in the Smart Grid

Göran Ericsson

Mathias Ekstedt

Dr., R & D Manager, Svenska Kraftnät (Swedish National Grid), Sweden

Associated professor, KTH Royal Institute of Technology, Sweden

The talk will emphasize what really is new, and what actually is the same but with the sticker “smart grid”, regarding the power network and cyber security issues. Among others: - To meet the climate 20-20-2o goals, a considerable amount of renewable energy sources are introduced. This has a major impact on the power network. - IT-based systems are to be adopted to cope with this new situation. Among others, this is clearly a cyber-security challenge. - Customers are expected to be more active in their behavior in the smart grid environment. Also here, cyber-secure systems are to be used.The term “smart grid” has a big momentum but it must be clear what is really smart and new, and what has already been around for the last 30 years."

Göran Ericsson is head of R&D at Svenska Kraftnät (Swedish National Grid) since 2009. He joined there in 1997, and during 1997–2006, he held expert and managerial positions within the fields of data and telecommunications. During 2007–2009, he was the Chief Information and IT Security Officer. Göran Ericsson received the docent title in 2011 and the Ph.D. degree in 1996, both from the Royal Institute of Technology (KTH), Stockholm, Sweden. Dr. Ericsson is senior member of IEEE. From 2006 to 2009, he was the Convener of the CIGRÉ Working Group D2.22 on information security.

Co-chair Anna Magdalena Kosek

08:30 - 08:45

About the speaker

08:45 - 09:00

Date Tuesday October 8, 08:30 - 10:00Venue Glassalen

Chair Göran Ericsson

Why is smart grid security so hard?

This talk will advocate the necessity to take a holistic approach to cyber security in smart grids. Since the smart grid will be built from a vast amount of heterogeneous technical components and include a vast amount of different stakeholders, there will be no single cyber security solution or any single stakeholder that can overview or own the full cyber security challenge. The risk of sub-optimizing smart grid cyber security solutions are thus imminent. The talk will also discuss attack modeling as a potential means for doing system-holistic cyber security assessments in the smart grid. An attacker don't care about technical and organizational borders, so if we can understand what potential attack trajectories are, we could also focus on increasing the protection on the ones that are poorly protected today. Regardless of where the protection is needed.

Mathias Ekstedt is Associate Professor at the Royal Institute of Technology (KTH) in Stockholm, Sweden. His research interests include systems and enterprise architecture modelling and analyses with respect to information and cyber security, in particular for the domain of power system management. He was technical coordinator of the EU FP7 project VIKING and the manger of the program IT Applications in Power System Operation and Control within the Swedish Centre of Excellence in Electric Power Engineering for many years. He is the director of the Electric Power Engineering Master programme at KTH. He received his MSc and PhD titles from the Royal Institute of Technology in 1999 and 2004 respectively.

Everybody is talking about Smart Grids, and that there are many security problems associated with it. From a bird’s eye view, smart grid security is easy – just ensure confidentiality, integrity and availability in every component of the Smart Grid. I will try to go a little deeper and analyse what that means – i.e. give an overview of what the components are and what is required to make them secure. Depending on the length available for the talk I will cover the different security aspects of Smart Grids from design and development to operation, analysing what standards and best practices are available and how they can be applied.

09:00 - 09:15

About the speaker

Thomas BleierDr.-Ing., CISSP, Program Manager of ICT Security, AIT Austrian Institute of Technology, Austria

About the speaker

DI Thomas Bleier, MSc is the program manager for the "ICT Security" research programme at the AIT Austrian Institute of Technology GmbH. The research programme is focusing on applied research of ICT security aspects in distributed systems to improve the security of critical infrastructures. Current research interests include secure system design, national cyber defense, secure cloud computing, and security aspects of next generation energy networks (smart grids).Before joining AIT Thomas Bleier was working in the industry for more than 10 years as a Systems Architect, Project Manager, Software Developer and Technical Consultant. He holds a master's degree in Information Security Management, and a master's degree in Computer Science. Thomas Bleier is a Certified Information Systems Security Professional (CISSP), a Certified Project Manager (IPMA Level C), Certified SCRUM Master, Certified Ethical Hacker (CEH), and also holds several technical certifications.

This presentation will give an overview of the new challenges and risks that we will face in the area of cyber security in Smart Grids. Cyber security is already today an important, but sometimes disregarded, topic in current control strategies for the power grid. Legacy control system, so called SCADA systems, which were designed when cyber security was not an issue and when these system where disconnected from the outside world are today connected to numerous external systems and users on office networks, Intranets and Internet. These legacy control systems were never designed to meet these types of risks. Still they are controlling some of the most critical infrastructures in the society, e.g. the electrical supply. A number of these existing vulnerabilities will still be present and will become even more pronounced when Smart Grids are introduced on a bigger scale. In addition, a number of new risks appear in Smart Grid control schemes if we do not consider mitigation of these threats already at the design phase of new control strategies and in the design of the future control systems. The cyber-attack surface will undoubtedly increase with the introduction of Smart Grids. In this presentation I will introduce some of the new operational tasks in Smart Grids based on examples from the pilot installations in the Grid4EU project in order to give an understanding which changes will appear in the operation and control of the future network. I will then try to describe some of the new threats and increased risks for cyber-attacks on Smart Grid control systems and I will give a few examples of scenarios how such attacks could be conducted and what the consequences for the society could be. The presentation concludes with a personal view of which cyber security areas will be most critical and where design considerations, and sometime research, are mostly required.

New challenges for Cyber Security in Smart Grids09:15 - 09:30

About the speaker

Gunnar BjörkmanSenior Consultant, ABB Mannheim, Germany

Gunnar Björkman is employed at ABB in the area of Network Management since 1976 and is since 1995 stationed in Mannheim, Germany. He has held several management positions within R&D, Product Management and Sales among them acting as global R&D Manager for ABB's range of Network Control products between the years of 1995 to 1999. Gunnar Björkman has recently been the Project Coordinator for the completed EU/FP7 Security and ICT project VIKING. Currently he is coordinating the ABB parts of another FP7 project, Grid4EU, which is focused on the operational aspects of Smart Grids. He is also pursuing a PhD study on SCADA security at Royal Institute of Technology (KTH) in Stockholm. He received is MSc. Electrical Engineering degree from KTH in 1972.


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Pedro Faria and Zita Vale, Polytechnic of Porto

09:15 - 09:30

ISGT455

Framework for Estimating Flexibility of Commercial and Industrial Customers in Smart GridsFrits Wattjes, Stan Janssen and Han Slootweg, Eindhoven University of Technology

09:30 - 09:45

ISGT317

TOU-Based Optimal Energy Management for Smart HomeZhaoguang Pan, Hongbin Sun and Qinglai Guo, State Key Laboratory of Power Systems, Tsinghua University

09:00 - 09:15

ISGT350

Demand Response Programs Definition Using Demand Price Elasticity to Define Consumers Aggregation for an Improved Remuneration Structure

Generation of Domestic Hot Water, Space Heating and Driving Pattern Profiles for Integration Analysis of Active Loads in Low Voltage GridsIker Diaz de Cerio Mendaza, Aalborg University (AAU), Alberto Pigazo, School of Nautical Studies (University of Cantabria), Birgitte Bak-Jensen and Zhe Chen, Aalborg University (AAU)

08:30 - 08:45

ISGT224

Scheduling of Domestic Water Heater Power Demand for Maximizing PV Self-Consumption Using Model Predictive Fabrizio Sossan, Anna Magdalen Kosek, Sergejus Martinenas, Mattia Marinelli and Henrik Bindner, DTU

08:45 - 09:00

Customer aspects, user behavior and flexible demand 1

University of Manchester, England

ISGT153

Date Tuesday October 8, 08:30 - 10:00Venue Meeting Center, meeting room 1

Chair Jovica Milanovic

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Paper 5

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Paul Mc Namara and Seán McLoone, Callan Institute

09:15 - 09:30

ISGT189

Characterization of Load Profile Deviations for Residential Ivelina Stoyanova, Milahi Marin and Antonello Monti, RWTH Aachen

09:30 - 09:45

ISGT89

An Enhancement of Agent-based Power Supply-Demand Matching by Using ANN-based ForecasterM.N.I. Maruf, L.A. Hurtado Munoz, P.H. Nguyen, H.M. Lopes Ferreira and W.L. Kling, Eindhoven University of Technology (TU/e)

09:00 - 09:15

ISGT115

Hierarchical Demand Response using Dantzig-Wolfe

An efficient algorithm for the provision of a day-ahead modulation service by a load aggregatorSebastien Mathieu, Damien Ernst and Quentin Louveaux, University of Liège

08:30 - 08:45

ISGT68

A Decomposition Algorithm for Optimal Control of Distributed Energy SystemsLeo Sokoler and Laura Standardi, Technical University of Denmark, Kristian Edlund, DONG Energy, John Bagterp Jørgensen, Technical University of Denmark

08:45 - 09:00

Control strategies and architectures for aggregation and smart services 1

Technical University of Denmark, Denmark

ISGT61

Date Tuesday October 8, 08:30 - 10:00Venue Meeting Center S01

Chair Henrik Bindner

Paper 6

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Barry Hayes and Sasa Djokic, University of Edinburgh

09:15 - 09:30

ISGT212

Application of Dynamic REI ReductionJosef Stadler and Herwig Renner, Institute of Electrical Power Systems

09:30 - 09:45

ISGT273

Cost optimal Meter Placement in Low and Medium Voltage Grids Considering Stochastic DependenciesDavid Echternacht and Albert Moser, RWTH Aachen University

09:00 - 09:15

ISGT378

Advanced Markovian Wind Energy Models for Smart Grid Applications

A General Purpose FPGA-based Real-Time Simulator for Power Systems ApplicationsReza Razzaghi, Mario Paolone and Farhad Rachidi, École polytechnique fédérale de Lausanne EPFL

08:30 - 08:45

ISGT241

Real-time Measurements and their Effect on State Estimation of Distribution Power SystemXue Han and Shi You, Technical University of Denmark (DTU), Fannar Thordarson and David Victor Tackie, Danish Energy Association, Sisse Merete Oesterberg and Ole Michael Pedersen, DONG Energy A/S, Henrik W. Bindner, Technical University of Denmark (DTU), Niels Christian Nordentoft, Danish Energy Association

08:45 - 09:00


École Polytechnique Fédérale de Lausanne, Switzerland

ISGT226


Chair Mario Paolone

Panel 5Real Time Simulation and Analysis Approaches

Professor, RWTH Aachen University, Germany

Associated professor, Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark

Co-Simulation and Real Time: opening a new frontier for Hardware in the Loop BioAntonello MontiProfessor, RWTH Aachen University, Germany

The realization of a sustainable energy system is currently expected to leverage on the exploitation of renewable sources and on overall improvement of the efficiency. The practical implementation of these two concepts requires significant changes in the equipment and in the operation of power systems. It is clear that these changes will affect the processes of energy conversion, monitoring and control. In this complex scenario, it is clear that in the design of future smart-grid, simulation in support of design and Hardware In the Loop methods will have a key role.Simulation tools able to support such a complex system design have to allow modeling of different physics as well as analysis at different time scales and at different resolution levels. As for traditional off-line simulation, the use of a single simulation tool able to satisfy all kinds of analysis needed is not feasible and so different co-simulation approaches have been developed, also for real-time simulation there is an increasing need of interconnecting different simulation platforms.The presentation will first focus on the characteristic of different type of connections between real time simulators and on the advantages and the challenges peculiar of each solution. After this, simulation results obtained by the interconnection of RTDS and Opal-RT simulators will be presented.

Co-chair Qiuwei Wu

14:00 - 14:15

About the speaker


Chair Antonello Monti

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Transient Stability Prediction Using the Analysis of Trajectories in State PlaneRamakrishna GokarajuAssociated professor, University of Saskatchewan, Canada

Prof. Monti is originally from Italy, where he received his Doctoral degree in Electrical Engineering from Politecnico di Milano in 1994. He started his academic career there as Assistant Professor in 1995, after four years with Ansaldo Industria, in the lab of digital controls for high-power electrical drives.He was for more than eight years Professor at the Department of Electrical Engineering of the University of South Carolina, USA, where he worked on modeling and simulation challenges of the all-electric ship, spon-sored by the US Navy .In October 2008 he started the new Institute for Automation of Complex Power Systems (ACS) at the E.ON Energy Research Center at RWTH Aachen University. The focus areas of the Institute are "Modeling, Simu-lation and lab Testing", "Home Energy Systems and Smart Cities", "Advanced control and Distributed intelli-gence" and "Power System Monitoring", for application in automated grids with deep penetration of renewables.The Institute is main partner in various European projects, with emphasis on automation and communica-tions in power systems, besides numerous other national, international and privately sponsored research activities. In total more than 40 people currently are employed in ACS.

This paper proposes a real-time out-of-step protection method using state plane analysis of generator electrical power and speed deviation. Electrical power and speed are used as input variables to the proposed scheme for transient stability assessment. The proposed technique is tested in the IEEE 12- bus test system for first swing stable, unstable, and multi-swing instability conditions to verify its performance. Electromagnetic transient modeling of the test system is done and simulations are performed using PSCAD=EMTDCTM in order to test the proposed algorithm. The simulation results indicate that the proposed method is computationally simple and accurate in predicting the transient stability of the power system.

14:15 - 14:30

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Simulation and Analysis on the Operating Characteristic of MMC VSC-HVDC based on RTDS

Ramakrishna (Rama) Gokaraju graduated with Distinction in Electrical and Electronics Engineering in April 1992 from the Regional Engineering College (National Institute of Technology), Trichy, India. He obtained M.Sc. and Ph.D. degrees in Electrical & Computer Engineering from the University of Calgary, Calgary, Canada in June 1996 and May 2000, respectively. He joined the Department of Electrical & Computer Engineering at the University of Saskatchewan as an Assistant Professor in July 2003 and became an Associate Professor (Tenured) in July 2009. During his sabbatical leave (2009-2010), Dr. Gokaraju worked as a Visiting Professor in the Power Simulations Laboratory, Department of Electrical & Computer Engineering, University of Manitoba, Winnipeg, Canada. Dr. Gokaraju is a registered professional engineer in the Province of Saskatchewan. Dr. Gokaraju's current areas of research are in Real-Time Simulations, Power Systems Protection and Control, and Smart Grids.

With the development of new energy generation, Modular Multilevel Converter (MMC) based HVDC (MMC-HVDC) systems have drawn much attention internationally. This paper focuses on researching the steady and dynamic operating characteristics of an MMC based multi-terminal VSC-HVDC system using the RTDS Simulator. A three-terminal MMC-HVDC system is set up and the operating characteristics of a multi-point DC voltage coordinated control strategy are analyzed. Furthermore, several typical AC and DC contingencies are simulated. The simulation results show that the coordinated control strategy performed well when the MMC-HVDC system operated normally and even when one station was out of service.

Paul Forsyth received his B.Sc. degree in Electrical Engineering from the University of Manitoba, Canada in 1988. After graduating he worked for several years in the area of reactive power compensation and HVDC at ABB Power Systems in Switzerland. He also worked for Haefely-Trench in both Germany and Switzerland before returning to Canada in 1995. Since that time he has been employed by RTDS Technologies where he currently holds the title of Marketing Manager / Simulator Specialist

Analysis on the Effects of STATCOM on CSG based on RTDS

14:30 - 14:45

About the speaker

14:45 - 15:00

Paul Forsyth

Quiwei Wu

Marketing Manager/Simulator Specialist, RTDS Technologies Inc, Canada

Dr., Associated professor, Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

In 2013, CSG installed three ±200Mvar STATCOMs on the 500kV substations which are adjacent to the receiving ends of multiple HVDC lines. This paper describes a test bed based on the RTDS Simulator that was developed to analyze the impacts of installing these STATCOMs. The impacts of the STATCOMs on voltage recovery and (U) HVDC fault recovery were investigated. The study shows the use of multiple STATCOMs can lead to an improvement in the voltage recovery capability at the inverter station, reduce the occurrence of commutation failures for some faults and improve HVDC power recovery. For some contingencies such as a circuit breaker failure, the improvements were significant. Meanwhile, for other contingencies of long time faults such as commutation failures caused by circuit breaker failure, the STATCOMs had negligible benefit.

Qiuwei Wu obtained the B. Eng. and M. Eng. from Nanjing University of Science and Technology, Nanjing, P. R. China, in 2000 and 2003, respectively, both in Power System and Automation. He obtained the PhD degree from Nanyang Technological University, Singapore in 2009 in Power System Engineering.He worked as a senior R&D engineer in VESTAS Technology R&D Singapore Pte. Ltd. from Mar. 2008 to Oct. 2009. He joined Centre for Electric Technology (CET), Department of Electrical Engineering, Technical University of Denmark (DTU) as a PostDoc in Nov. 2009 and was an assistant professor with CET from Nov. 2010 to Aug. 2013. He has been an associate professor since September 2013 with Department of Electrical Engineering, DTU.His research interests are integration of electrical vehicles (EVs) to power systems for high penetration of renewable energy sources (RES), integration studies for wind power plants, dynamic performance of power systems with high penetration of RES, real time simulation of power systems with RTDS and reliability analysis and improvement of restructured power systems using demand response programs.

About the speaker


Panel 6Power Quality in Smart Grids - A customer's perspective

Dr., The University of Edinburgh, Scotland

Dr, Associate Professor, The Second University of Naples

Assessment of Economic Cost to End Users Due to Inadequate Power QualityJovica MilanovicProfessor, Director of External Affairs, School of Electrical and Electronic Engineering, The University of Manchester, United Kingdom

There are huge differences in reported financial losses per event, type of interruption, industry, utility and country. There is no uniformity in reporting the costs. The annual figures are very large and easily exceed several millions per utility; the losses on the country/economy level are much higher. Can we afford to ignore them in the present competitive environment? What steps should we take to put them under control and ultimately reduce them? The ultimate question is: What is it that following disturbance or irregularity in supply leads to generation of financial loss to utility/end users? Are we worried because of equipment failure (or misoperation), or because of process failure? Are the above two the same? Will equipment failure (or misoperation) always lead to process failure (interruption in production or service delivery)? If the industrial process or service eventually gets interrupted, how do we account for all relevant financial losses? Is there a standardised way to do so? How do we assess true economic value of potential solution?

Jovica V. Milanović is a Professor of Electrical Power Engineering and Director of External Affairs in the School of Electrical and Electronic Engineering at the University of Manchester (Director of Research 2007–2010), Visiting Professor at the University of Novi Sad, Serbia, and conjoint professor at the University of Newcastle, Australia. He was member of six (convener of two) past or current IEEE/CIGRE/CIRED WG, and consultant or member of advisory boards for several international companies. He gave numerous keynote speeches at international conferences and presented 60 courses/tutorials to industry and academia around the world. He is a Chartered Engineer in the UK, Foreign member of the Serbian Academy of Engineering Sciences, FIET, FIEEE and Distinguished IEEE PES Lecturer.

Co-chair Roberto Langella

14:00 - 14:15

About the speaker


Chair Sasa Djokic

Power Quality Issues of Grid-Connected Roof-Top PV Plants

New Types of Harmonics from Renewable Electricity Production and Energy-Efficient Consumption

Vladimir KatićProfessor, Vice Dean, Head of Department, Power Electronics & Converters, Faculty of Technical Sciences, University of Novi Sad, Serbia

Harmonic emission of grid-connected photovoltaic (PV) plants will be discussed and analysed. Particular attention will be given to the current harmonics and THDi values of a group of PV plants connected at the same distribution network bus and operating under low solar irradiance levels. The analysis will be illustrated using the field measurements of an actual PV installation.

Vladimir Katić is a Professor at the University of Novi Sad, Faculty of Technical Sciences, Department of Electrical Engineering. He is a Vice Dean of Faculty of Technical Sciences and Head of Power Electronics and Converters Department. His research interests include: Power Electronics Converters and Control, Power Quality, Renewable Energy Sources (Wind, Solar), Standardisation. Prof. Katić is a Senior Member of the IEEE, Member of CIGRE (France), National Society for ETRAN, YUCO CIRED National Committee of CIRED, YUCO CIGRE National Committee of CIGRE and Federal Committee for Standardisation – Power Electronics Group. He is a Chair of the IEEE Serbia and Montenegro Section, Chairman of the IEEE Joint Chapter of the Industrial Electronics/Power Electronics/Industry Applications Societies, President of the Power Electronic Society of Serbia and Montenegro and Member of Presidency of ETRAN Society.

Devices for renewable electricity production (wind turbines, PV) and energy-efficient consumption (LED lamps; high-efficiency HVAC; electric car chargers; adjustable-speed drives) often contain power-electronic converters and harmonic emission (the current waveform deviation from a sinusoidal waveform) from them remains a concern. Field measurements will be shown of different types of equipment: wind turbines; PV panels, compact fluorescent LED lamps and fluorescent tubes with high-frequency ballasts. For most of the equipment, the emission is low at those frequencies that are normally of concern (e.g. 3rd, 5th and 7th harmonics). However, new types of harmonics are shown to emerge: interharmonics and supraharmonics (above 2 kHz). It is also shown that replacement of incandescent lamps by LED lamps does not have to result in an increase of the harmonic emission, even when the current of each individual lamp is heavily distorted.

14:30 - 14:45

Math BollenProfessor, R&D Manager, Power Systems, STRI AB, Sweden

14:15 - 14:30

About the speaker

Math Bollen received MSc and PhD degrees from Eindhoven University of Technology, The Netherlands, in 1985 and 1989, respectively. Currently, he is Professor in Electric Power Engineering at Luleå University of Technology, Skellefteå, Sweden and R&D Manager Power Systems at STRI AB, Gothenburg, Sweden. He has been with UMIST, Manchester, U.K., Chalmers University of Technology, Sweden and Energy Markets Inspectorate, Sweden. Prof. Bollen has published a few hundred technical papers and four text books: two on power quality and two on the future power grid. He is a leading researcher on power quality and has made significant contributions in the areas of power-system protection, power-system reliability, integration of renewable electricity production and smart grids. Prof. Bollen is Fellow of IEEE.

When significant levels of electromagnetic disturbances in an electrical power system are present at the customer's supply terminals, there is often a need to identify and locate the sources of these disturbances, e.g. harmonics, voltage fluctuations, voltage dips or unbalances. With the deregulation of power industry, utilities have become increasingly interested in quantifying the responsibilities for power quality problems. This issue is particularly important for formulating contracts for electric power supply quality, or when extra charges for worsening the power quality are enforced, e.g. by means of tariff rates. This presentation will consider problem of locating the sources of power quality disturbances. A power quality monitor captures disturbance-containing voltage and current waveforms at PCC and determines if the disturbance comes from the upstream or the downstream. Such information will greatly facilitate the resolution of disputes between the two parties if a disturbance results in financial losses to either party.

Single-Point Methods for Locating Power Quality Disturbances in Power System

About the speaker

14:45 - 15:00

About the speaker

Zbigniew HanzelkaProfessor, Chairman of the Electrical Power Quality Committee , Association of Polish Electrical Engineers, Poland

Zbigniew Hanzelka is Professor in the Institute of Power Electronic and Power System Control of the AGH - University of Science and Technology. He is author and co-author of more than 200 technical and scientific papers, Editor-in-Chief of Electrical Power Quality & Utilization, and Power Engineering and Electronics periodicals. His area of interest includes: Electrical Power Quality, particularly methods of reducing the negative influence of power converters on supply network. Prof. Hanzelka is Member of Scientific Committees of a number of national and international conferences, several national and international committees (IEC, UIE, CIGRE) and member of Power Electronics & Electric Drives and Electromagnetic Compatibility Committees in Polish Academy of Science. He is Chairman of the Electrical Power Quality Committee (Association of Polish Electrical Engineers SEP).


Paper 7

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Lorenzo Zeni, DONG Energy Wind Power, Hjörtur Jóhannsson, Anca D. Hansen and Poul E. Sørensen, Technical University of Denmark, Bo Hesselbæk, DONG Energy Wind Power, Philip C. Kjær, Aalborg University

14:45 - 15:00

ISGT126

Analysis of Electromechanical Modes Using Multichannel Yule-Walker Estimation of a Multivariate Autoregressive ModelJanne Seppänen, Fingrid/Aalto University, Matti Koivisto, Liisa Haarla and Nand Kishor, Aalto University , Jukka Turunen, Statnett

15:00 - 15:15

ISGT103

Dependability and Security-based Failure Considerations in Protection System Reliability StudiesVijay Venu Vadlamudi, NTNU, Oddbjørn Gjerde and Gerd Kjølle, SINTEF

14:30 - 14:45

ISGT123

Influence of Current Limitation on Voltage Stability with Voltage Sourced Converter HVDC

Risk-based Framework for Assessment of Operational Constraints for Power Systems Focusing on Small-disturbance Stability and Sub-synchronous ResonanceRobin Preece, Atia Adrees and Jovica Milanovic, University of Manchester

14:00 - 14:15

ISGT84

The Effect of Quality and Availability of Measurement Signals on Accuracy of On-line Prediction of Transient Stability Using Decision Tree MethodTingyan Guo and Jovica Milanovic, University of Manchester

14:15 - 14:30


Northeastern university, USA

ISGT29


Chair Ali Abur

Paper 8

Papers

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Xiaolong Hu and Ian Cotton, University of Manchester

14:45 - 15:00

ISGT411

Microgrid Unbalance Compensator - Mitigating the negative effects of unbalanced microgrid operationSung Pil Oe, Edward Christopher, Mark Sumner, Seksak Pholboon and Mark Johnson, University of Nottingham, Stuart Norman, E.ON

15:00 - 15:15

ISGT321

Optimal Sizing of Recloser Based Protection Systems Applying the Economic Theory of the Firm and Evolutionary AlgorithmsMiguel Velásquez Motta, Angela Ines Cadena Monroy and Camilo Tautiva Mancera, Universidad de los Andes

14:30 - 14:45

ISGT372

Impact of Climate Change on Overhead Lines Operated Using Dynamic Rating in a Smart Grid

100kW bidirectional DC/DC Converter for a supercapacitor Federico Ibanez, Ainoha Galarza, Javier Vadillo and Luis Fontán, CEIT

14:00 - 14:15

ISGT305

Analysis of DC/DC Converter Efficiency for Energy Storage System Based on Bidirectional Fuel CellsRiccardo Pittini, Zhe Zhang and Michael Andersen A.E., Technical university of Denmark

14:15 - 14:30

Components smart grid readiness

University of Liverpool, England

ISGT58


Chair Henry Wu

Paper 9

Papers

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Miguel Lopez, Jose Aguado, Sebastian de la Torre and Miriam Figueroa, University of Malaga

14:45 - 15:00

ISGT631

Modeling the Hedging Decisions in Electricity Markets Using Two-stage GamesEkaterina Moiseeva and Mohammad R. Hesamzadeh, KTH - Royal Institute of Technology

15:00 - 15:15

ISGT498

Free Riding Effect in Multi-national Transmission Expansion Yaser Tohidi, KTH Royal Institute of Technology, Mohammad Hesamzadeh, KTH Royal Institute of Technology

14:30 - 14:45

ISGT549

Optimization-Based Market-Clearing Procedure with EVs Aggregator Participation

Mid-term Electricity Market Clearing Price Forecasting Using Multiple Support Vector MachineXing Yan and Nurul Chowdhury, University of Saskatchewan

14:00 - 14:15

ISGT427

Technical Potential and Revenue Chances of Flexible Electricity Generation and Load DevicesThorsten Schlüter, Volker Liebenau and Christian Rehtanz, TU Dortmund University

14:15 - 14:30


Aristotle University of Thessaloniki , Greece

ISGT70


Chair Anastasios Bakirtzis

Panel 7Asset Management in Smart Grids

Professor , Power Grid Systems, KTH Royal Institute of Technology, IEEE PES ISGT Europe Site Committee Chair, Sweden

On-line power transformer monitoring by fundamental frequency signals

Improving condition monitoring through smart grid

Nilanga Abeywickrama

Victoria Catterson

Dr., Scientist, ABB Corporate Research, Sweden

Dr., University of Strathclyde, Glasgow, United Kingdom

In the context of asset management of power equipment, on-line monitoring of power transformers pave the way for identifying incipient fault conditions. This facilitates condition based diagnosis/maintenance and thus avoids costly repairs or replacements. Most of the currently available on-line monitoring solutions monitor the values of secondary parameters like temperature, gas, etc., and none of them are able to monitor the basic transformer parameters: impedance, turn ratio and power loss. Using available voltage and current signals (in protection or metering platforms) of a transformer in service, we have found methods to estimate and monitor the values of aforementioned basic transformer parameters by means of a simple transformer model. Based on four field installations, it was found that the change detection ability of these methods are generally comparable to the standard tolerance limits stipulated for off-line measurements. As a result, this method reduces the need for time-based off-line diagnostics in addition to providing important on-line information to asset management systems.

Nilanga Abeywickrama received B.Sc. (2001) and M.Sc. (2004) degrees in the field of electrical power and energy from the University of Peradeniya, Sri Lanka, and he received Ph.D. degree in 2008 from the School of High Voltage Engineering, Chalmers University of Technology (CTH), Göteborg, Sweden. Since 2008, he has been working at ABB corporate research, Sweden. His main research interests include diagnostics, on-line monitoring and high frequency modeling of power transformers.

Co-chair

16:00 - 16:15

About the speaker

16:15 - 16:30


Chair Lina Bertling Tjernberg

On Asset Management of Transformers

Smart grid technology means that more data than ever before is being collected and recorded from power networks. This data is not necessarily the type of parameters used for traditional condition monitoring, but still gives insight into the status and health of network assets. This presentation considers how network operation data can better inform condition assessment of plant, with case study examples. Ultimately, the use of smart grid data to improve condition assessment can lead to better asset management decision making.

Dr Vic Catterson is a Lecturer in the Institute for Energy and Environment at the University of Strathclyde in Glasgow, Scotland. She received her B.Eng. (Hons) in 2003, and a Ph.D. degree in transformer diagnostics in 2007, both from Strathclyde. Since then, she has worked on the application of intelligent system techniques to improve asset management and condition monitoring. One particular focus has been diagnostics and prognostics of power assets, including transformers, circuit breakers, and cables. She has published over 35 technical papers in the field, and currently serves on the Cigre Working Group on Intelligent Transformer Monitoring as technical expert. She is a member of the IEEE Power and Energy Society, and serves on a number IEEE PES working groups for intelligent systems.

Monitoring of the remaining life time and condition of power transformers is one key issue in power system Asset Management and also with regard to the reliability of supply. In Smart Grid environment, the loads become more volatile and load factors are worsened due to intermittent production at the customer side, for instance. This imposes higher stresses on transformers and may accelerate their deterioration if not properly addressed. On the other hand, Smart Grid technologies provide means for monitoring the transformers and managing their loading.

Matti Lehtonen (1959) was with VTT Energy, Espoo, Finland from 1987 to 2003, and since 1999 has been a professor at the Helsinki University of Technology, which is from 2010 a part of Aalto University, where he is now head of Power Systems and High Voltage Engineering. Matti Lehtonen received both his Master's and Licentiate degrees in Electrical Engineering from Helsinki University of Technology, in 1984 and 1989 respectively, and the Doctor of Technology degree from Tampere University of Technology in 1992. The main activities of Dr. Lehtonen include power system planning and asset management, power system protection including earth fault problems, harmonic related issues and applications of information technology in distribution systems.

16:30 - 16:45

About the speaker

Matti Lethonen Professor, University of Aalto, Finland

About the speaker

Large scale offshore wind power systems express one efficient solution contributing to the future sustainable energy system. There are however major costs related to the project development, and the operation and maintenance of these power systems, and there are large potential in implementing asset management tools. This presentation shows on results from a proposed model for optimizing the maintenance support organization of an offshore wind farm. The model includes an analysis of the transportation strategy with alternative transportation mean, a queuing model of maintenance activities and an economic model of the maintenance support organization. An example based on a generic 100 wind turbine 5MW wind farm is used to present the application of the model. The results show the benefit on the production losses of the different options, which enables to identify the optimal maintenance support organization based on the reliability, logistic costs and electricity price

Dr. Lina Bertling Tjernberg is Professor in Electric Grid Systems at the Royal Institute of Technology KTH, from September 2013. She was previously Professor in Sustainable Electric Power Systems at Chalmers University of Technology, 2009-2013, and during 2009-2012 she was the Head of the Electric Power Engineering Division. During 2007-2009 she was with the Swedish Transmission system operator. She has spent two research periods in Canada; during 2000 at University of Saskatchewan and during 2012/2013 with University of Toronto and Kinectrics. Her research area is in modernization of the electric power systems with special interest in reliability analysis and maintenance management.

Dr. Bertling Tjernberg is serving as Treasurer of IEEE Power & Energy Society 2012-2014, and is the Chair of the Swedish PE/PEL Chapter. She has been the chair of the IEEE PES Subcommittee on Risk, Reliability and Probability Applications (RRPA) 2011-2013 and has been an RRPA officer since 2007. She organized the first IEEE ISGT conference in Europe 2010 and she is an Editor for the IEEE Transactions on Smart Grid Technologies. She is a Member of the Swedish Government Coordination Council for Smart Grid, and is an expert for the EU commission within Energy, ICT and Security.

Asset Management on offshore wind power farms16:45 - 17:00

About the speaker


Lina Bertling TjernbergProfessor , Power Grid Systems, KTH Royal Institute of Technology, IEEE PES ISGT Europe Site Committee Chair, Sweden

Panel 8Smart Energy Systems, Storage and Flexiblity

PhD, Head of Maintenance and Technology, Vattenfall A/S, Denmark

Design and operation of smart energy plants - Needs and challengesTommy MølbakCSO and Partner, Added Values, Denmark

Increasing the capacity of volatile power sources clearly will increase the need for flexible sources that can provide balancing services. These sources will not only have to be flexible in power production, they will also have to be energy efficient, green in profile and able to change product profile very fast when market needs change. This pulls towards integrated energy plants that can switch between different products, eg. power, district heat and bio fuels, and that can be operated very flexible and reliable. Many new technologies can support these features, but different technologies are at different maturement level from an investors point of view. Furthermore, most investors have existing assets that should still be utilized in many years a head. All together this leaves us with a huge challenge in deciding how to develop integrated plants over time and how to operate them with maximum benefit.

Management and leaderhip in line organization, Project management, especially in R&D projects including consortia’s, Innovation and strategy processes related to R&D and business development, Energy system analysis, e.g. based on system modeling tools and/or historical market data, Energy optimization of thermal plants, e.g. based on mass and energy calculations, Plant and port folio control in power systems, including load scheduling and balance control, Power Plants in general, focus on instrumentation, performance, monitoring and control, Wind power integration, focus on production analysis and control including park pilot, Energy System and Markets with focus on technology assessment and integration, Smart grids including virtual power plants, Model predictive control in general, Mathematical modeling of thermal systems with focus on statics and dynamics, Thermodynamics in general, System identification of dynamic systems, Numeral analysis including time series analysis

Co-chair

16:00 - 16:15

About the speaker


Chair Preben Jørgensen

Large RE integration with operational flexibility and storage for Smart Energy Systems

Improved integration of Distributed Energy Resources on Shetland Islands using Dynamic Optimal Power Flow

K. BalaramanDr., PRDC Infotech, India

Bulk of the renewable energy system added into the grid consists of wind and solar generation which are intermittent and have added a new dimension to the grid planners & operators. In view of this, there is significant change in present practices and a need for system wide analysis at both planning and operating stage in particular in analysis the reserve capacity. This is possible by creating additional system flexibility, which can come in the form of both flexible resources and institutional flexibility. Flexible resources can be flexible conventional plant, storage, demand side resources (DSR) and internal and external transmission. This will require a number of institutional measures like well-designed market that would allow higher shares of RE to be integrated along with promotion of technological advances in creating flexible conventional generation, demand response program that can reflect diurnal or seasonal characteristics which are similar to the RE resource. The lecture gives the insight into issues with large RE integration and how operational flexibility and storage will assist to overcome these issues.

Dr. Kannan Balaraman has experience in the power sector for over 24 years and has worked in the Electricity utility in India for 14 years. He is currently with Power Research Development Consultants (Pvt.) Ltd. as Chief General Manager for the last 7 years. His area of interest is Smart Grid, Micro-Grid, Renewable energy integration, Power system planning, operation and control.He has worked in England, Sri Lanka, Nigeria, Saudi Arabia, Qatar, Fiji, Kuwait and Indonesia as part of his assignments. He has published over 40 research papers in National and international conferences & journals. He has delivered over 2000 lectures in the areas of power system and Renewable energy integration including Intelligent Grid, Smart grid techniques.

Ivana Kockar

16:30 - 16:45

Dr., University of Strathclyde, Glasgow, United Kingdom

16:15 - 16:30

About the speaker

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Integration of renewable resources requires additional flexibility of the network operation that can be provided using new approaches such as integration of demand side participation or storage devices. To effectively utilize them, system and network operators need new tools that can account for the inter-temporal characteristics of such devices, while still retaining non-linear AC models of distribution networks where they are connected. This presentation will present Dynamic Optimal Power Flow tool that accounts for both existing and new technology, and modeling of distribution networks. It will also discuss the practical implementation of this new tool within the Northern Isles New Energy Solutions (NINES) project on Shetland Islands. The of the project was to investigate how to increase integration of wind into exiting islanded system supplied by thermal generation through appropriate scheduling of demand side and potential energy storage, while respecting commercial arranges.

Ivana Kockar received her undergraduate degree from the University of Belgrade, and obtained M.Eng and PhD degrees in electrical engineering from McGill University, Montreal, Canada in 2004. Following this, she moved to the University of Manchester, UK and then joined Brunel University. Currently, she is with the Institute of Energy and Environment, University of Strathclyde, Glasgow, UK. In additional she spent 5 year in industry.Her research interests include power system operation planning, and economics of energy systems including market modelling and simulation, network access and pricing, active demand participation, as well as implications of environmental issues on system operation and planning.She chairs the IEEE PES Computing and Analytical Methods Subcommittee and co-chairs IEEE PES Task Force on Agent-Based Modeling of Smart Grid Market.

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About the speaker

16:45 - 17:00

About the speaker


_speaker4_title

Paper 10

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Jose Libardo Sanchez Torres, Raphael Caire and Nouredine Hadjsaid, INPG - G2ELAB

16:45 - 17:00

ISGT611

VillaSmart: Wireless Sensors For System Identification in Domestic BuildingsAlexandru Caracas, Fabian Müller, Olle Sundström, Carl Binding and Bernhard Jansen, IBM Research - Zurich

17:00 - 17:15

ISGT483

Real-time and low cost energy disaggregation of coarse meter Emmanouil Vogiatzis, Georgios Kalogridis and Stojan Denic, Toshiba Research Europe Limited

16:30 - 16:45

ISGT594

Application of Hermitian Adjacency Matrices for Coupled Infrastructures Interdependencies Analysis

Utilizing SCADA and IEC 61850 for Real-Time MV/LV Network MonitoringShengye Lu, Marko Pikkarainen and Sami Repo, Tampere University of Technology, Felipe Alvarez-Cuevas Figuerola, Enel Energy Europe S.R.L.

16:00 - 16:15

ISGT332

Evidence Theory for Smart Grid DiagnosticsRiccardo Santini, Chiara Foglietta and Stefano Panzieri, University of "Roma TRE"

16:15 - 16:30


KTH Royal Institute of Technology, Sweden

ISGT243


Chair Lars Nordström

Paper 11

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Jinping Hao, Robert Piechocki and Dritan Kaleshi, University of Bristol, Woon Hau Chin and Zhong Fan, Toshiba Research Europe Limited

16:45 - 17:00

ISGT172

Automatic Mechanical Fault Assessment of Small Wind Turbine Systems in Microgrids Using Electric Signature AnalysisGeorgios Alexandros Skrimpas, Bruel & Kjær Vibro A/S, Bogi Bech Jensen, Technical University of Denmark, Kun Marhadi, Bruel & Kjær Vibro A/S

17:00 - 17:15

ISGT129

Evaluation of Fault Current Limitation Techniques in Urban Meshed 110-kV Subtransmission NetworksBruno de Oliveira e Sousa, Aalto University, Atte Pihkala, Helsinki Energy, Matti Lehtonen, Aalto University

16:30 - 16:45

ISGT137

Smart Grid Health Monitoring via Dynamic Compressive

Dynamic Cable Ratings for Smarter GridsRUI HUANG, James Pilgrim and Paul Lewin, University of Southampton, David Payne, National Grid Company plc

16:00 - 16:15

ISGT11

The Impact of Silicon Carbide Technology on Grid-Connected Distributed Energy ResourcesSaeed Jahdi, Olayiwola Alatise and Philip Mawby, University of Warwick

16:15 - 16:30

Diagnostics and reliability of components and integrated systems

University of Edinburgh, Scotland

ISGT8


Chair Sasa Djokic

Paper 12

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Khoa Le Dinh and Yasuhiro Hayashi, Waseda University

16:45 - 17:00

ISGT660

Adaptive Control of Distributed Generation for Microgrid Di Shi, Ratnesh Sharma and Yanzhu Ye, NEC Laboratories America

17:00 - 17:15

ISGT567

Microgrid Energy Management based on Approximate Dynamic ProgrammingMartin Strelec and Jan Berka, Honeywell spol. s.r.o.

16:30 - 16:45

ISGT643

Online Optimal Power Flow Based on HPSO-TVAC Coordinates with Centralized BESS and LRT Control to Stabilize Voltage in a PV-Supplied Micro-grid

Structured Analysis of Arbitrary Island GridsMarkus Jostock, Jürgen Sachau and Jean-Régis Hadji-Minaglou, University of Luxembourg , Christian Tuttas, University of Kaiserslautern

16:00 - 16:15

ISGT336

Coordinating Smart Homes in Microgrids - A Quantification of BenefitsMatthias Huber, Florian Sänger and Thomas Hamacher, Technische Universität München

16:15 - 16:30


Aachen University, Germany

ISGT185


Chair Antonello Monti

Panel 9System Services and Electric Transportation

Professor, Research Director, Center for Carbon-free Power Integration, College of Earth, Ocean, and Environment, University of Delaware, USA

post doc., Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

Providing Regulation Services with a Fleet of EVsWillett KemptonProfessor, Research Director, Center for Carbon-free Power Integration, College of Earth, Ocean, and Environment, University of Delaware, USA

A partnership of university and commercial partners has developed a combination of EV controls, intelligent charging stations, and the aggregator (a coordinating server) to act as a TSO-resource generator, or virtual power plant. This has been developed and tested since 2007 and now has been certified, registered, and now is a part of the TSO market. The power plant operator has a user interface to the aggregator that allows placing bids in the TSO day-ahead market, and at the scheduled time, the TSO dispatches it based on a standard TSO automatic generation control signal (AGC). Many software and hardware systems were developed, refined, and commercialized to accomplish this as a running, reliable, on-line system. The TSO generator registration process also had to be adapted to a physically-distributed but centrally-dispatched resource

Willett Kempton is Research Director, Center for Carbon-free Power Integration; Professor, College of Earth, Ocean, and Environment; and Professor, Electrical and Computer Engineering – University of Delaware.

Kempton leads several research teams working on electric vehicles, offshore wind power, and integration of variable generation into the electric power system. Dr. Kempton invented the technology for grid-integrated vehicles (GIV) with vehicle-to-grid power (V2G).

Kempton has held research or teaching positions at Princeton University, Michigan State University, and the University of California at Berkeley. He joined the University of Delaware in 1992. During Fall 2011 he was Otto Mønsted Gœst Professor, Danmarks Tekniske Universitet, Institute for Elektroteknologi. (Kgs. Lyngby)

Co-chair Peter Bach Andersen

09:00 - 09:15

About the speaker

Date Wednesday October 9, 09:00 - 10:30Venue Oticon salen

Chair Willett Kempton

Smart Charging

15118 value chain - services in the aftermarket for electric vehicle manufacturers

Tom OeflerInternational Sales & Tendering, RWE Effizienz GmbH, Germany

It is the understanding of RWE that Smart Charging is the intelligent influencing of charging sessions within a framework of objectives and limitations given by grid components and the EV (user). The objectives and limitations of such frameworks will vary for different public and private area use cases. While private grids often focus on optimizing / not exceeding the existing grid capacity, public installations tend to look more into the better integration of renewable energy or charging during low electricity price periods. However, when trying to achieve these grid-based objectives any system will inevitably influence the charging behavior of EVs, thus running the risk of leaving a battery half empty when the EV user needs it. The working groups of ISO/IEC 15118 standardization are addressing this issue and are currently establishing the basis of the upcoming communication between EV and EVSE.

The presentation of Mr. Tom Oefler will give a short overview on how objectives and limitations are currently integrated into the existing Load Management system of RWE Effizienz. He will give a short overview of general charging patterns in different settings and present pilot project implementations of RWE which are showcasing the implementation of Smart Charging.The term “smart charging” is in the following meant to cover all services and goals that the manipulation of the direction, rate and timing of the power and energy exchanged between vehicle and power grid can accommodate.

Tom Oefler works as International Sales Manager at RWE Effizienz GmbH in Dortmund, Germany, working on international tenders and managing relationships with clients and Emobility cooperation partners in Europe. Prior to his role in International Sales, he was involved in international B2B Business Development activities of RWE Effizienz. After graduating in International Business in Cambridge and Berlin in (2001-2005), Tom worked at a major management consultancy in Düsseldorf (2005-2009). He then graduated with an MBA degree from Hong Kong and Berkeley at the end of 2010. Tom is 32 years old, living in Düsseldorf, Germany.

Nils Dullum

09:30 - 09:45

CEO, Clean Charge, Denmark

09:15 - 09:30

About the speaker

Like fossil fuel vehicles over the last 100 years, the Electric vehicle manufacturers are looking for a new after market value chain for their electric vehicles. Decidedly, the aftermarket value is very different for electric vehicles. How and how much.

Nils Dullum is CEO and founder of CleanCharge Solutions - electric mobility operator in Denmark since 2009.He has an MBA (US) and finance background.Previous start-up experience.Digital marketing experience.

Title of presentation TBAPer Präem (TBC)

About the speaker

09:45 - 10:00


Clever/Dansk El-bil kommite, Denmark

Panel 10Smart Grid Demonstration - The value of large demo projects

Research Programme Officer, European Commission, DG Research & Innovation, K2: Energy conversion and distribution systems, Belgium

Independent Consultant, Troi Energi, Denmark

Korea셲 Smart Grid policy - Jeju island project & future plans

Grid4EU: Large-Scale Demonstration of Advanced Smart Grid Solutions with wide Replication and Scalability Potential for EUROPE

Dong Joo Kang

Daniele Stein

Dr., Korea Smart Grid Institute (KSGI), Korea

Smart Grids Project Manager , ENEL Distribuzione S.p.A., Italy

Jeju island SG project was the 1st stage in Korea셲 Smart Grid National Roadmap, and has been completed in May, this year. Korean government is preparing for the 2nd stage to apply the outcomes to the main land of Korea. The 2nd stage is to deploy SG infrastructures to major cities in Korea, and it is on the process to select candidate cities for Smart Cities. In the 3rd stage, the deployment is extended to nation-wide.

He has been working for KERI (Korea Electro-technology Research institute) since year 2001. He is a senior researcher in Smart Grid research center in KERI. He got his Ph.D in electrical engineering from Hong-ik university, and is also a Ph.D candidate for management science in Yonsei university, both in Korea. He is interested in various issues in Smart Grid and electricity market such as business model, customer engagement, cyber security, game theory application, etc.

Co-chair Anders Troi

09:00 - 09:15

About the speaker

09:15 - 09:30

Date Wednesday October 9, 09:00 - 10:30Venue Glassalen

Chair Henrik Dam

Bornholm Test Island

Grid4EU, is a Smart Grids project, co-funded by EU under the FP7 Program. It is led by group of six DSOs (Cez Distribuce, Enel Distribuzione, ERDF, Iberdrola, RWE and Vattenfall). The core of Grid4EU is the implementation of 6 large scale demonstration projects in 6 different EU Countries (Czech Republic, France, Germany, Italy, Spain and Swden), to test innovative system concepts and technologies, highlighting and helping to remove some of the most important barriers to the Smart Grids deployment while maximizing the integration of small and medium-size distributed energy resources. Thanks to the project structure covering a wide range of technical, economical, societal and regulatory conditions, Grid4EU pursues the maximization of the scalability and replicability potential of the solutions.

Daniele STEIN is a Smart Grids project manager for Enel Distribuzione S.p.A., where he has been working since 2007. From the beginning of his experience in Enel, he has worked in different network management areas going from network planning to operation and maintenance, and he has gained experience on network automation and control. In the past four years, Daniele has been deeply involved in the development of European and international projects.

The Danish island Bornholm is a full-scale real-life laboratory and test site for Smart Energy solutions. The island is ideal for this purpose because more than 50 % of the electricity consumption of Bornholm’s 27,000 customers comes from renewable energy, the island hosts a number of modern power and energy technologies as well as include valuable technical properties. The Bornholm power system is part of PowerLabDK, an experimental platform for electric power and energy, which integrates the Bornholm power system and the laboratories at Technical University of Denmark (www.powerlab.dk). The island host several large present, past and future R&D-activities; among others EDISON, EcoGrid EU and IDE4L. The presentation will outline the activities at Bornholm and elaborate on the perspectives of Bornholm as a European Smart Grid ice breaker and role model.

09:30 - 09:45

About the speaker

Jacob ØstergaardProfessor, Head of Center for Electric Power and Energy, Department of Electrical Engineering, Technical University of Denmark, Denmark

About the speaker

Since 2005 Østergaard has been Head of Center for Electric Power and Energy (CEE) at Department of Electrical Engineering, Technical University of Denmark (DTU) at which time he was appointed Professor in Electric Power Engineering. After his gradution from DTU in 1995 he was 10 year in industry with Danish Energy Research and Development. His research focuses on Smart Grid technologies with main contributions within services from demand side, advanced control of wind power plants, and fast real-time stability and security assessment. He serves in several national and international boards and committees. He has developed the center to its current level with 95 employees and been responsible for building up PowerLabDK (www.powerlab.dk) including labs at DTU and the Bornholm Island.

In 2009 the US Department of Energy awarded $620 million for projects around the country to demonstrate advanced Smart Grid technologies and integrated systems that will help build a smarter, more efficient, more resilient electrical grid. 32 demonstration projects, which include large-scale energy storage, smart meters, distribution and transmission system monitoring devices, and a range of other smart technologies, were funded with the target to act as models for deploying integrated Smart Grid systems on a broader scale. Nexans was awarded with the only DLR demonstration project which was executed together with the Texas utility Oncor. Results from this large-scale application of CAT-1 DLR systems presented in this contribution have been provided by ONCOR and are based on conclusions from independent institutes.First information from a second demonstration project dealing with the combined use of PMUs and DLR technology will complete the presentation.

Gerhard Biedenbach is the Technical Sales Manager Europe for DLR technology from Nexans. Gerhard has been in this capacity since May 2007 and is also in charge of technology development with European partners. He is working in OHL business since 1992 and is specified in DLR since 1997. Gerhard is active in CIGRE since 2007 and secretary of B2.04: “Electrical performance of OHL”. He was member of several working groups dealing with DLR and high temperature conductors.

Gerhard obtained his engineering degree for mathematics from Technical University in Darmstadt.

SG demonstration project at Oncor09:45 - 10:00

About the speaker


Gerhard BiedenbachTech. Sales Manager Europe, Nexans, Germany

Paper 13

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Emanuele Crisostomi and Alessandro Franco, University of Pisa, Giuseppe Giunta, eni S.p.A. - Gas & Power division, Marco Raugi, University of Pisa

09:45 - 10:00

ISGT438

Demand Response Planning Tool for Management Method Evaluation and Tariff DesignMustafa Alparslan Zehir and Mustafa Bagriyanik, Istanbul Technial University

10:00 - 10:15

ISGT296

Decentralized coordination of the operation of residential heating unitsChristoph Molitor, Milahi Marin, Lisette Hernández and Antonello Monti, E.ON Energy Research Center - RWTH Aachen

09:30 - 09:45

ISGT299

The Smart Gas Grid: state of the art and perspectives

A Thermal grid coordinated by a Multi Agent Energy Management SystemOlaf van Pruissen, Armin van der Togt, Ewoud Werkman and Vincent Kamphuis, TNO

09:00 - 09:15

ISGT258

Integrated Agent-Based Home Energy Management System for Smart Grids ApplicationsBallard Asare-Bediako, Wil L. Kling and Paulo F. Ribeiro, Eindhoven University of Technology

09:15 - 09:30


Politecnico of Milano, Italy

ISGT138

Date Wednesday October 9, 09:00 - 10:30Venue Meeting Center, meeting room 1

Chair Roberto Faranda

Paper 14

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Sandro Iacovella, Kris Lemkens, Frederik Geth, Pieter Vingerhoets and Geert Deconinck, KU Leuven, Reinhilde D'Hulst and Koen Vanthournout, VITO

09:45 - 10:00

ISGT686

Smart energy households field tests in The Netherlands with a design-driven approach

10:00 - 10:15

ISGT182

Reducing Overvoltage Problems with Active Power Curtailment - Simulation ResultsKris Lemkens, Frederik Geth, Pieter Vingerhoets and Geert Deconinck, KU Leuven

09:30 - 09:45

ISGT424

Distributed Voltage Control Mechanism in Low-Voltage Distribution Grid Field Test

Field Verification of Control Performance of a LFC System to Make Effective Use of Existing Power Generation and Battery Energy Storage SystemHiroyuki Amano, Wataru Shima, Tomonori Kawakami and Toshio Inoue, Central Research Institute of Electric Power Industry, Yasushi Uehara, Hirofumi Nakama, Yuji Ohshiro and Masayoshi Toguchi, The Okinawa Electric Power Co., Inc.

09:00 - 09:15

ISGT132

Field Tests Experience from 1.6MW/400kWh Li-ion Battery Energy Storage System providing Primary Frequency Maciej Swierczynski, Daniel Stroe, Ana Stan and Remus Teodorescu, Aalborg University, Rasmus Laerke and Philip Kjaer, Vestas Wind Systems A/S

09:15 - 09:30

Experiences from field tests and large-scale demonstrations

University of Strathclyde, Scotland

ISGT46

Date Wednesday October 9, 09:00 - 10:30Venue Meeting Center S01

Chair Graeme Burt

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Angele Reinders, Delft University of Technology, Charlotte Kobus, Delft University of Technology and Enexis, Arno Scheepens, Daphne Geelen, Uche Obinna, Jan Schoormans and Ruth Mugge, Delft University of Technology

Paper 15

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Michail Ampatzis, Phuong Hong Nguyen and Wil Kling, Technische Universiteit Eindhoven

09:45 - 10:00

ISGT650

Estimating the Load Response to Voltage Changes at UK Primary SubstationsFrancesco Lamberti, University of Salerno, Cuicai Dong, University of Manchester, Vito Calderaro, University of Salerno, Luis Ochoa, The University of Manchester

10:00 - 10:15

ISGT478

Active Distribution Management vs. Selective Automation for Urban Distribution GridsAlfred Einfalt and Franz Zeilinger, Siemens AG Austria, Matej Rejc, University of Ljubljana

09:30 - 09:45

ISGT562

Introduction of Storage Integrated PV sytems as an Enabling Technology for Smart Energy Grids

Compensation of voltage unbalances in LV networks due to single-phase generatorsDavide Poli, Stefano Barsali, Romano Giglioli and Fabio Monachesi, Univ. of Pisa

09:00 - 09:15

ISGT423

Balance Group Optimization using Demand Response with Respect to Forecast UncertaintyTheodor Borsche, Frauke Oldewurtel and Göran Andersson, ETH Zürich, Power System Laboratory

09:15 - 09:30

Active Distribution Network Operation and Management 2

University of Padova, Italy

ISGT400


Chair Roberto Turri

Panel 11Active Distribution Network Operation and Management

Professor, Tampere University of Technology, Finland

Voltage control

Congestion management

Benoit BletterieDipl.-Ing., AIT Austria Institute of Technology, Austria

Integrating a high amount of distributed energy resources into existing distribution networks results challenging in some areas, mainly due to the voltage rise caused by the reverse power flows. In order to avoid expensive network reinforcement countermeasures, several voltage control concepts have been developed and validated through field tests.Currently, distribution network planning and voltage band management are necessarily conservative due to the lack of detailed information (e.g. simultaneity factor). In particular, it is expected that the real hosting capacity of existing LV networks could be better used with novel planning concepts.With such planning concepts (smart metering data / probabilistic power flows), the conservative assumptions can be relieved and the efforts for planning and implementing smart solutions can be focused to the most critical network areas.This contribution will report about the experiences from simulations, laboratory tests and full-scale implementation in real distribution networks.

Benoit Bletterie holds a M. Sc. Electrical Engineering from Supélec (France) and the Technical University of Madrid (2001).He works as Senior engineer at the Business Unit for Electrical Energy Systems, Austrian Institute of Technology since 2003. He is mainly involved in smart Grids projects with a special focus on PV integration, network simulations, voltage control and standardisation. He is member of several standardisation working groups and member of the scientific committee of the European PV Solar Energy conference.

Co-chair

11:00 - 11:15

About the speaker

11:15 - 11:30


Chair Sami Repo

Low voltage network management

Mike DolanDr., Product Development Engineer, Smarter Grid Solutions, United Kingdom

Thermal network constraints restrict the wide-spread connection of distributed energy resources, due to the traditional and until now necessary, conservative planning measures. The conventional solution to facilitate DG connections would be to reinforce the physical network infrastructure. This cost and the timescales associated with upgrading the network can render DG connections infeasible. Active Network Management (ANM) is known to facilitate, economically, the increase of DG connections in quicker timescales.Smarter Grid Solutions Ltd. works with Distribution Network Operators to deploy ANM solutions that unlock the existing network capacity through the real-time management of the output of multiple distributed generators and the control of other devices.This presentation describes some of Smarter Grid Solutions’ deployed ANM projects and discusses relevant progress in other projects. A summary of the development areas that would better place DNOs and DG developers to adopt ANM technologies are highlighted.

Mike Dolan is a Product Development Engineer with Smarter Grid Solutions (SGS) in the UK. He joined the SGS Solutions Team in May 2013 after working at the University of Strathclyde in Glasgow as a Research Fellow since 2006. Mike’s past research work has been focused in the area of Active Network Management (ANM). Mike has developed real-time control algorithms for managing power system thermal constraints and continues to develop real-time ANM applications in his current role with Smarter Grid Solutions.

Distribution networks are changing from passive networks to active systems due to interconnection of distributed energy resources, and due to new needs and opportunities for controlling the distribution system. The research interest of distribution network has raised remarkably during last ten years. Applied research field like smart grid should be looking for solutions for practical problems which may be applied in real life sooner or later. The panel will discuss how the research results of active network management will transform to practical engineering solutions, and what kind of barriers they may meet when practical aspects are considered. The importance of demonstrations to verify the functioning and the performance of management applications is evident but demonstrations provide also a holistic understanding how the processes and the overall systems of distribution network operator needs to be changed. The panel session try to be as practical as possible by representing few demonstrations of active network management and their outcomes

11:30 - 11:45

Sami RepoProfessor, Tampere University of Technology, Finland

About the speaker

Prof. Repo received his M.Sc. and Dr.Tech. degrees in electrical engineering from Tampere University of Technology, Finland, in 1996 and 2001 respectively. At present he is a professor at the Department of Electrical Engineering of Tampere University of Technology. His main interest is the management of active distribution network including distributed energy resources. The focus of research is on application of ICT and distribution automation to integrate distributed energy resources for network management

The challenges for modern power utilities today is an ageing asset portfolio combined with a demand for more efficient grid operation and a changing energy system. In order to handle these challenges new solutions and technologies are required. During the last decade DONG Energy has been a leading utility regarding development of new ideas and solutions for smarter operation and planning. DONG Energy has been highly involved in the innovation of several new solutions, in the area of medium voltage switchgear control, both retrofit solutions and complete renewal of secondary substations. In addition to this, grid monitoring systems have been developed, in order to handle and utilize data from the remotely monitored units. The work with these new technologies has given DONG Energy a great insight and knowledge in the challenges of developing, testing, deploying and implementing new technologies into the organisation and the existing grid structure.

Anders Vikkelsø is Director in DONG Energy Customers & Markets A/S, and responsible for the gas and power grid strategy, an area which includes innovation, project development, distribution grid planning and strategic asset and data management. The main focus area today is strategic life cycle asset management. An important tool for DONG Energy, to achieve optimal reinvestments, is intelligent smart grid solutions.Anders Vikkelsø graduated from The Danish Engineering Academy in 1995. He has worked as a power grid consultant in the Danish Energy Association, and as sales engineer for NKT Cables. He joined DONG Energy in 2001, where he has been working with various transmission and distribution projects and operation issues. Since 2008 as Director responsible for grid strategies.

The challenge of implementing active distribution operation and management systems

About the speaker

11:45 - 12:00

About the speaker


Anders VikkelsøDirector for Grid Strategy, DONG Energy Customers & Markets A/S, Denmark

Panel 12Smart Grid Live - Challenges of bringing research to real life

Director, Business Development, Spirae, Denmark

Flexible Energy Resources Network - Bornholm and SwitzerlandDieter GantenbeinDipl.El-Ing ETH, M.Sc.CS, SmartGrid Project Leader, IBM Research GmbH, Switzerland, Switzerland

The IBM Research Lab smart-grid team built an energy management system (EMS) focusing on the prediction of the demand-response (DR) flexibility of energy resources, aggregating their energy and power requirements and flexibility, and enabling the optimal power system integration according to various strategies. We use this system with telematic access to electric vehicles (EVs) for ubiquitous smart charging to maximize the use of renewables. We plan to show live also the model-based prediction of the electrical flexibility as regulation power from industrial freezer-houses of partner Migros MVN in Switzerland, as well as from over 500 smart-homes on the Danish island Bornholm - which get optimally integrated based on the innovative Ecogrid EU 5-minutes marginal price streams.

Co-chair

11:00 - 11:15

About the speaker


Chair Peter Keller-Larsen

Smart Charging

The Italian demo of Grid4EU, the challenge of RES integration in the MV network

Tom OeflerInternational Sales & Tendering, RWE Effizienz GmbH, Germany

Dieter Gantenbein is a senior research staff member at IBM Research - Zurich. Born in Switzerland, he received the Diploma in Electrical Engineering from ETH in Zurich and the M.S. degree in Computer Science from Rutgers, USA, in 1983. Launching the lab’s smart-grid activities in 2008, he represented IBM in the Danish EDISON consortium on 'Electric vehicles in a Distributed and Integrated market using Sustainable energy and Open Networks' and currently coordinates IBM's participation in the EcoGrid EU FP7 project (Large scale Smart Grids demonstration of real time market-based integration of distributed generation and active customer participation).

Olle Sundström is a research staff member at IBM Research – Zurich. Born in Sweden, he received the M.S. degree in Electrical Engineering in 2006 from Chalmers Technical University in Sweden and the Dr. Sc. degree in 2009 from ETH Zurich, Switzerland. Joining IBM Research in 2009 he has been working in the area of demand response and flexibility prediction for various types of loads. He is currently leading the technical and scientific work of the Flexible Load Management Solution which is used to connect energy markets and ancillary services markets with large numbers of flexible distributed energy resources.

1. Live demonstration of the RWE monitoring cockpit and showcase of different user behavior in different situations.2. Short live demo of the publicly funded load management system of RWE Effizienz, managing the integration of renewable electricity and the charging sessions of an electric municipality fleet.

Tom Oefler works as International Sales Manager at RWE Effizienz GmbH in Dortmund, Germany, working on international tenders and managing relationships with clients and Emobility cooperation partners in Europe. Prior to his role in International Sales, he was involved in international B2B Business Development activities of RWE Effizienz. After graduating in International Business in Cambridge and Berlin in (2001-2005), Tom worked at a major management consultancy in Düsseldorf (2005-2009). He then graduated with an MBA degree from Hong Kong and Berkeley at the end of 2010. Tom is 32 years old, living in Düsseldorf, Germany.

11:30 - 11:45

Daniele SteinSmart Grids Project Manager , ENEL Distribuzione S.p.A., Italy

11:15 - 11:30

About the speaker

The Italian Demo (Demo4) is based in the Emilia Romagna Region (area of Forlì-Cesena, close to the north-east part of Italy) and is focused on implementing an advanced control system to increase the hosting capacity and maximize the integration of renewable energy sources and distributed generation in the Medium Voltage (MV) network.

Daniele Stein is a Smart Grids project manager for Enel Distribuzione S.p.A., where he has been working since 2007. From the beginning of his experience in Enel, he has worked in different network management areas going from network planning to operation and maintenance, and he has gained experience on network automation and control. In the past four years, Daniele has been deeply involved in the development of European and international projects.

Utilizing electrical storage within the home has the potential to considerably increase the level of flexibility which can be offered by the home, essentially allowing it to go ‘off-grid’ with residual demand met by stored electricity. This storage may be in the form of thermal energy, stationary electrical batteries or even those incorporated in an Electric Vehicle. Homeowners would benefit from capacity payments for the provision of this flexibility.

This project explored the integration of battery storage with the commercialized PassivSystems platform and demonstrates its use within the home. The battery has been developed in close collaboration with a battery manufacturer, and PassivSystems have successfully designed, built, laboratory- tested and installed three prototype systems.

The project demonstrates the use of PassivSystems’ platform to charge the battery with excess PV-generated energy and supply the lighting circuit, and to shift grid electricity usage to the low tariff period using the battery.

Per Saaby Jørgensen is a seasoned Master of Science in Electrical Engineering – primarily within software development, GUI and concept design work. From his time at FOSS (leading company in advanced instrument and measurement), Per has added skills of different measurement technologies and signal processing and applications. Today, Per draws on his expertise in heating and smart energy as Product and Support Manager in PassivSystems Nordic when managing the 200 homes SEIH trial in Middelfart, Denmark (www.seih.dk).

Intelligent Battery Storage in the Home

About the speaker

11:45 - 12:00

About the speaker

Per Saaby JørgensenPassiv Systems, United Kingdom

Paper 16

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Andrea Ballanti, University of Cagliari, Alejandro Navarro-Espinosa, The University of Manchester, Fabrizio Pilo, University of Cagliari, Luis Ochoa, The University of Manchester

11:45 - 12:00

ISGT351

A Real-time Robust Dynamic ELD against Uncertainties of Renewable Energy SourcesYutaka Sasaki, Emil Hristov Popov, Naoto Yorino and Yoshifumi Zoka, Hiroshima University

12:00 - 12:15

ISGT610

Probabilistic security-constrained optimal power flow including the controllability of HVDC linesMaria Vrakopoulou, Spyros Chatzivasileiadis and Goran Andersson, ETH Zurich

11:30 - 11:45

ISGT512

Assessing the Benefits of PV Var Absorption on the Hosting Capacity of LV Feeders

Wind Farm Power Plant: Optimal Capacitor Placement for Reactive Power CompensationVito Calderaro, University of Salerno, Gaspare Conio, Italian Vento Corporation Group, Roberto Fusco, ArcerolMittal, Vincenzo Galdi and Antonio Piccolo, University of Salerno

11:00 - 11:15

ISGT362

Optimal Placement of Energy Storage Devices for Loss Reduction in Distribution NetworksMeisam Farrokhi Far, Samuele Grillo and Enrico Tironi, Politecnico di Milano

11:15 - 11:30


Technical University of Denmark, Denmark

ISGT203


Chair Arne Hejde Nielsen

Paper 17

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Muhammad Waqas Khalid and Ali Al-Awami, King Fahd University of Petroleum and Minerals, Eric Sortomme, Alstom Grid

11:45 - 12:00

ISGT656

Development and Demonstration of Power Management of Hybrid Energy Storage for PV IntegrationYanzhu Ye, NEC Laboratories America, Inc., Pawan Garg, Texas A&M University, Ratnesh Sharma, NEC Laboratories America, Inc.

12:00 - 12:15

ISGT574

Coordinated Operational Strategy of Energy Storage System and Wind FarmHuajie Ding, Zechun Hu and Yonghua Song, Tsinghua University, Jincheng Wu and Xiaoxu Fan, China Longyuan Power Group Corporation Limited

11:30 - 11:45

ISGT653

Stochastic-Programming-Based Bidding Strategy for V2G

Context-aware Microgrid Storage Using Electric CarsMichael Donohoe and Brendan Jennings, Waterford Institute of Technology, Sasitharan Balasubramaniam, Tampere University of Technology

11:00 - 11:15

ISGT387

Maximizing the Potential of Energy Storage to Provide Fast Frequency ControlOlivier Mégel, Johanna L. Mathieu and Göran Andersson, ETH Zurich

11:15 - 11:30

Integration of electric vehicles and storages 2

University of Delaware, USA

ISGT379


Chair Willet Kempton

Paper 18

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Peder Bacher and Henrik Madsen, DTU, Henrik Aalborg Nielsen, ENFOR

11:45 - 12:00

ISGT668

A Coordination Scheme for Distributed Model Predictive Control: Integration of Flexible DERsGiuseppe Tommaso Costanzo, Oliver Gehrke, Jacopo Parvizi, Daniel Esteban Morales Bondy, Fabrizio Sossan, Henrik W. Bindner and Henrik Madsen, Danish Technical University

12:00 - 12:15

ISGT633

Approximate dynamic programming-based control of a building cooling system with thermal storageFrancesco Borghesan, Riccardo Vignali, Luigi Piroddi and Maria Prandini, Politecnico di Milano, Martin Strelec, Honeywell

11:30 - 11:45

ISGT651

Online load forecasting for supermarket refrigeration

Power reference tracking of a large-scale industrial freezer system for ancillary service deliveryFabian Müller, Olle Sundström, Carl Binding and Douglas Dykeman, IBM Research - Zurich

11:00 - 11:15

ISGT587

Consumer Electrical Equipment Asynchronous and Coordinating Response for Frequency RegulationCanbing Li, Jinfan Zhang, Haiqing Shi, Yijia Cao, Lina He, Baling Fang and Xiangxing He, Hunan University

11:15 - 11:30

Customer aspects, user behavior and flexible demand 2

National Technical University of Athens, Greece

ISGT556


Chair Costas Vournas

Panel 13Metering and Making Use of Massive Grid Data

Dipl.El-Ing ETH, M.Sc.CS, SmartGrid Project Leader, IBM Research GmbH, Switzerland, Switzerland

Dr., Research Fellow, Department of Mechanical Engineering, The University of Melbourne, Australia

Smart meters and electric vehicles in Victoria, Australia: how to make optimal use of network capacity.

Implementing the smarter grid

Julian de Hoog

Jesper Munkholm

Dr., Research Fellow, Department of Mechanical Engineering, The University of Melbourne, Australia

Architect and Engineer , Landis+Gyr A/S, Denmark

Dr. Julian de Hoog is a Research Fellow in the Electric Vehicles Research Group at the University of Melbourne, Australia. He completed a B.Sc. at McGill University, Canada, and both M.Sc. and Ph.D. degrees at the University of Oxford, UK, all in Computer Science. Julian is a member of the Victoria Electric Vehicle Trial planning group, as well as a member of the Load Control / Demand Response working group of this trial. His research focuses on the grid impacts of large-scale electric vehicle charging, as well as the development of smart charging methods to alleviate these impacts.

The state of Victoria, Australia, has witnessed two ambitious smart grid initiatives in the past five years: a mandatory rollout of smart meters across the state, and a large-scale trial of electric vehicles. A recent exercise brought both of these initiatives together: smart meters were used to allow the network operator to centrally control the charging rates of participants’ vehicles. This talk describes the technical challenges that were involved, demonstrates the significant utility gains that can be achieved with a load-control solution, and discusses how advanced metering infrastructure can be leveraged to make optimal use of existing network capacity and assets.

Co-chair Julian de Hoog

13:30 - 13:45

About the speaker

13:45 - 14:00


Chair Dieter Gantenbein

Strategy and business transformation

In Denmark utilities has been installing smart meters for residential customers for almost 10 years. The main focus has been on managing rollouts and the practical reality challenges when the number of values per meter increases from 1 per year up-to 70k values. The focus is shifting more towards value add and smarter grid. Some of the exiting new value add opportunities lies in applying pattern recognition to the mass meter data, achieving as close to real-time readings for the lowest cost, and visualizing Power Quality Information in the most intuitive way for grid maintenance. All for building the smarter grid. A major smart grid challenge, where the smart grid is today, does not lie in technological limitations as much as it lies in the practical challenges of visualizing and utilizing the vast amount of information already present today.

Jesper Munkholm has worked with Landis+Gyr for 7 years now. As a customer service and project engineer he has been on the frontline of the practical reality with smart meters, architecting the distributed system setup and functionality behind the smart meters. His background lies in a Bachelors Degree in computer science from DTU and programming embedded components in high-end critical satellite systems. With Landis+Gyr his main focus and experience lies in architecting, integrating, customizing and optimizing AMM system components to create the most value add for the customers with the technology available today. This includes building custom extensions and applications for analyzing the vast amount of information flowing through the system, and for optimizing the human resource footprint through visualization and analysis.

The Intelligent Energy market is in turmoil and the coming years will define winners and losers. This is both an opportunity and threat. An opportunity if we as companies and as a country decide a proactive path of innovation in every aspect: R&D, Ecosystems, Security, Taxation models, Alliances etc. This is a window of opportunity and the race is on...

Anders Feddersen has worked for IBM through 19 years and is today part of the Nordic IBM Executive staff and a member of the Board for IBM Denmark. Anders has held various positions over the years - most of them in senior sales positions. Today Anders is responsible for the Nordic IBM strategy and Sales Transformation. Anders graduated as BSc in Mechanical Engineering from DTU in 1993. Anders holds various Board positions in Denmark, Intelligent Energy Association - among others. Finally Anders is the IBM spokes person for Intelligent Energy.

Anders Feddersen

14:00 - 14:15

About the speaker

IBM Executive Staff , IBM Denmark, Denmark

About the speaker

14:15 - 14:30


Panel 14Smart Transmission Systems

Dr., Director of Standards and Regulations of the High Voltage Technology, Simens AG , Germany

Transmission grid Integration Tehcnology

ENTSO-E R&D Roadmap 2013-2022 - towards innovative European grid

Jutta Hanson

Chavdar Ivanov

Professor, Dr.-Ing., TU Darmstadt, Germany

Dr., Research and Development Senior Advisor , ENTSO-E, Bruxelles, EU

The future power supply will base on an increased use of renewable energy sources such as photovoltaic and wind power, which feed centrally into the transmission network as well as decentralized into the medium and low voltage networks. For the electrical power supply this means a drastic change, since so far consumer-oriented, large power plants are used. Due to the geographical distribution an increased power transmission is expected as e.g. from the northern to the southern part of Germany. This long-distance bulk power transmission cannot be handled with the existinghigh voltage ac network. A comprehensive reinforcement of the electrical transmission network is required in Germany. Plans for the network extension can be found in the recent network development plan. It includes first point-to-point DC-connections in addition to ac-grid reinforcement. Furthermore superimposed ac and dc networks, which are suitable for the transmission of high power over long distances, are discussed.

The paper will show the technical challenges of a power supply based on renewable energies. Existing and new technologies for power transmission are presented, open questions such as the use of high voltage direct current transmission (HVDC) and DC networks will be discussed.

Co-chair

13:30 - 13:45

13:45 - 14:00


Chair Hermann Koch

Compact gas insulated Systems for HVDC Applications

Achieving the European Union’s 20-20-20 climate goals calls for integration of massive renewable energy sources (RES) to the European grid. For decades the transmission European grid has been connected region by region to ensure mainly reliability and security of supply. However, the grid operation philosophy and architecture, which was designed years ago to supply electricity from large central power plants down to end users at low voltages, needs to be adapted and innovated to keep pace with new and historical paradigm shift in the next decade. The R&D performed by transmissions system operators (TSOs) is crucial to validate new technologies and to test innovative methods in a more and more complex power system environment. Large scale demonstration projects are being performed to verify various solutions and test interoperability between novel technologies and existing facilities.ENTSO-E R&D Roadmap 2013-2022 defines necessary R&D tasks to be performed by TSOs in cooperation with distribution system operators (DSO), research institutions, manufacturers, etc. The aim of the R&D Roadmap is to pave the development of appropriate tools, methods, grid designs in order to facilitate continuously evolving business cases.The paper provides a high level overview of the ENTSO-E R&D Roadmap 2013-2022 which was published in December 2012. It highlights the on-going R&D activities in Europe which are in line with the R&D Roadmap and main business cases related to it. The paper summarizes a set of challenges that TSO community is facing when executing the R&D Roadmap.

Chavdar Ivanov is Research and Development Senior Advisor in the ENTSO-E Secretariat (www.entsoe.eu) supporting ENTSO-E Research and Development Committee and coordinating Common Information Model (CIM) activities within ENTSO-E. He has over ten years experience in transmission system operator business. He received the M.Sc. and Ph.D. degrees in electrical engineering from Technical University of Varna, Varna, Bulgaria, in 2002 and 2006, respectively. From 2002 to 2007, he was a power system engineer in the System Analysis and Transmission Planning Department at the National Dispatching Center, Bulgarian National Electric Company (NEK). From January 2007 to June 2009, he worked as a Data and Modelling expert, UCTE Secretariat, Brussels and he was a convenor of UCTE Ad-hoc group “UCTE format”. From July 2009 to November 2010, he worked as a Modelling Advisor in the ENTSO-E Secretariat, Brussels involved in ENTSO-E modelling and R&D activities. Since 2010 Dr. Ivanov has been directing ENTSO-E CIM Interoperability tests. His special fields of interest include power system stability and control of power system oscillations in particular. He is a senior member of the IEEE Power & Energy Society and a member of CIGRE.

Denis Imamovic

14:00 - 14:15

Dr., Product Portfolio Manager, Siemens AG, Germany

About the speaker

With the increasing use of renewable energy, e.g. large offshore wind farms, new centers of generation are built which are often far away from load centers. HVDC technology is the preferred or sometimes the only feasible technology for transmitting the power to the load centers.For today’s HVDC transmission the switching and transition yards are conducted in the air insulated technology. However the increasing number of HVDC stations leads to the need for economic space saving design, especially in offshore installations, densely populated areas as well as in coastal regions. Here the applicability of the gas insulated technology is obvious, where the benefits of AC GIS such as compact, space saving design and flexibility regarding it´s installation take effect. Furthermore this will allow an application even in suburban buildings or in underground substations, hidden from public view and access.Drawing from the experience of AC GIS, the specific requirements for the HVDC operation and design parameters have to be elaborated and highlighted in the future. This paper will show the technical challenges and the feasibility of this new technology.

Dr.-Ing. Denis Imamovic studied and graduated at Graz University of Technology, Austria. From 1996 to 2008 he was with several utility companies in Austria in various positions. In 2011, he joined Siemens AG, Energy Sector in Erlangen, Germany, where he was Product Lifecycle Manager for Compact DC Solutions. Since 2012 he is Portfolio Product Manager with Siemens Transmission Solutions, responsible for GIL (Gas Insulated Lines) and Cable. In April 2013 he became the head of the department “Compact DC Solutions”. He is a Member of Cigré, IEEE, VDE and OVE.

OHL transmission grids are facing an unprecedented need of change and development. Innovative solutions like DLR or high temperature conductors have been proven as excellent technologies to optimize asset utilization, simplify operational procedures and avoid risky or unnecessary investments while increasing grid security and public safety. However, although the benefits of DLR are clearly visible there is still a huge lack in understanding the physical basics as well as correct and safe application of this technology. Results and recommendations from the work at CIGRE, field tests and customer applications will be presented together with the perspective and utilization of Rating Forecasts for OHL grids.

Dynamic Line Rating (DLR)

About the speaker

14:15 - 14:30

About the speaker

Gerhard BiedenbachTech. Sales Manager Europe, Nexans, Germany

Gerhard Biedenbach is the Technical Sales Manager Europe for DLR technology from Nexans. Gerhard has been in this capacity since May 2007 and is also in charge of technology development with European partners. He is working in OHL business since 1992 and is specified in DLR since 1997. Gerhard is active in CIGRE since 2007 and secretary of B2.04: “Electrical performance of OHL”. He was member of several working groups dealing with DLR and high temperature conductors.

Gerhard obtained his engineering degree for mathematics from Technical University in Darmstadt.


Paper 19

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Philip Douglass, Technical University of Denmark, Preben Nyeng, Energinet.dk, Fabrizio Sossan, Rodrigo Garcia-Valle and Jacob Østergaard, Technical University of Denmark

14:15 - 14:30

ISGT344

Computational Efficiency of Economic MPC for Power Systems OperationLaura Standardi, DTU Compute , Leo Emil Sokoler, DONG Energy, Niels Kjølstad Poulsen and John Bagterp Jørgensen, DTU Compute

14:30 - 14:45

ISGT240

Decentralized Large-Scale Power BalancingRasmus Halvgaard, John Bagterp Jørgensen, Niels Kjølstad Poulsen and Henrik Madsen, Technical University of Denmark, Lieven Vandenberghe, University of California, Los Angeles

14:00 - 14:15

ISGT281

Design and Evaluation of Autonomous Hybrid Frequency-Voltage Sensitive Load Controller

An Open-Source Educational Toolbox for Power System Frequency Control Tuning and OptimizationInês M. Cecílio, Imperial College London, Anne Mai Ersdal, Norwegian University of Science and Technology, Davide Fabozzi and Nina F. Thornhill, Imperial College London

13:30 - 13:45

ISGT235

Lumped Thermal Household ModelBenjamin Biegel, benjaminbiegel, Mathias Bækdal Madsen, Neogrid Technologies ApS, Palle Andersen and Jakob Stoustrup, Aalborg University, Lars Henrik, Dong Energy A/S

13:45 - 14:00


Honk Kong Polytechnic University, Honk Kong

ISGT198


Chair Zhao Xu

Paper 20

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Anton Prokhorov, Tomsk Polytechnic University

14:15 - 14:30

ISGT670

A Weather Aided State Estimator for Power Systems with Integrated Wind GenerationReshma Francy, Masdar Institute of Science and Technology, Amro Farid, Masdar Institue of Science and Technology, Kamal Yousef-Toumi, Massachusetts Institute of Technology

14:30 - 14:45

ISGT595

Power-Hardware-in-the-loop simulation of a D-STATCOM equipped MV network interfaced to an actual PV inverter.Vasilis Kleftakis, Alexandros Rigas, Athanasios Vassilakis, Panos Kotsampopoulos and Nikos Hatziargyriou, NTUA

14:00 - 14:15

ISGT634

Hardware-in-the-Loop Testbed Based on Hybrid Real Time

Suricatta: A Platform to Model Smart Grid Technologies in the Distribution SystemRebecca Ford, University of Otago, Thomas Helfer, University of Oxford, Sarah Surrall, Navetas Energy Management Ltd., Malcolm McCulloch, University of Oxford

13:30 - 13:45

ISGT568

A two-step Simulation Approach to Joined Analysis of Power Systems and Communication InfrastructuresMarija Stevic, Weilin Li, Mohsen Ferdowsi, Andrea Benigni, Ferdinanda Ponci and Antonello Monti, E.ON Energy Research Center, RWTH Aachen University

13:45 - 14:00


Aalto University, Finland

ISGT451


Chair Matti Lehtonen

Paper 21

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Emanuele Ciapessoni, Claudio Brasca, Diego Cirio and Andrea Pitto, RSE - Ricerca sul Sistema Energetico, Andrea Morini, UNIGE, Marino Sforna, TERNA

14:15 - 14:30

ISGT625

A Framework to Quantify Technical Flexibility in Power Systems Based on Reliability CertificatesHerbert Mangesius, Matthias Huber, Thomas Hamacher and Sandra Hirche, Technische Universität München

14:30 - 14:45

ISGT479

The Cut-off Frequency of Disturbance Propagation in Discrete Inertia Model of Power NetworksYuehao Yan, Tianshu Bi, Liang Chen and Qixun Yang, North China Electric Power University

14:00 - 14:15

ISGT543

Extended Risk Analysis of Power and ICT Systems

A Graph-algebraic Approach for Detecting Islands in Power Youwei Jia and Zhao Xu, The Hong Kong Polytechnic University

13:30 - 13:45

ISGT370

Optimal Allocation of Wind Generation Subject to Voltage Stability ConstraintsMostafa Bakhtvar and Andrew Keane, University College Dublin

13:45 - 14:00


Aalborg Universit, Denmark

ISGT249


Chair Zhe Chen

Poster A1

Contributions

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Shaojun Huang, Jayakrishnan R. Pillai, Marco Lissere and Birgitte Bak-Jensen, Aalborg

Wim Willems, Tine Vandoorn, Jeroen De Kooning and Lieven Vandevelde, Ghent University

ISGT218 Estimating Locations of Single-phase-to-ground Faults of Ungrounded Distribution SystemsHongbo Sun and Daniel Nikovski, Mitsubishi Electric Research Laboratories, Tomihiro Takano, Yasuhiro Kojima and Tetsufumi Ohno, Mitsubishi Electric Corporation

ISGT141 Improving Photovoltaic and Electric Vehicle Penetration in Distribution Grids with Smart Transformer

Hideharu Sugihara, Osaka University

ISGT51 Application of Atlantide Models to Harmonic Penetration StudiesRoberto Caldon and Massimiliano Coppo, University of Padova, Diego Dal Canto and Gianluca Gigliucci, ENEL INN, Luigi Feola and Roberto Langella, Second University of Naples, Fabrizio Pilo, University of Cagliari, Giacomo Petretto, ENEL INN, Giuditta Pisano and Simona Ruggeri, University of Cagliari, Alfredo Testa, Second University of Naples, Roberto Turri, University of Padova

ISGT184 Development of a Smart Transformer to Control the Power Exchange of a Microgrid

Co-chair Giuseppe Tommaso Costanzo - Matthew Lee Henriksen - Fabrizio Sossan


Technical University of Denmark


ISGT194 A method for evaluating installable capacity of distributed generators with power factor control in MV and LV distribution


Chair Mattia Marinelli

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Andrea Michiorri, Mines ParisTech

Qing Zhong, Electric Power Research Institute of Guangdong Power Grid Corporation, Yi You, Shanghai Jiao Tong University, Nanhua Yu, Electric Power Research Institute of Guangdong Power Grid Corporation, Dong Liu, Shanghai Jiao Tong University, Xiaoping Zhang, Electric Power Research Institute of Guangdong Power Grid Corporation

ISGT221 Smart Grid Monitoring through Visual AnalysisMartin Steiger, Thorsten May, James Davey and Jörn Kohlhammer, Fraunhofer IGD

ISGT183 The value of schedule update frequency on Distributed Energy Storage performance in renewable energy integration

ISGT151 Intelligent Control of Flexible Loads for Improving Low Voltage Grids UtilizationPeter Thais Bjerregaard, Ireneusz Grzegorz Szcesny, Iker Diaz de Cerio Mendaza and Jayakrishnan Radhakrishna Pillai, Aalborg University (AAU)

ISGT22 Optimal Siting & Sizing of Battery Energy Storage System In Active Distribution Network

Poster A2

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Faruk Ugranli and Engin Karayepe, Ege University

Anna Mutule, Artjoms Obushevs and Aleksandr Lvov, Institute of Physical Energetics, Helena Segerberg, Balslev Consulting Engineers A/S , Nan Shao and Shi You, Technical University of Denmark, Rainer Bacher, BACHER ENERGIE AG, Arne Jan Engen, Sweco Norge AS, Hubert Sauvain, HES Fribourg, Jan Remund, Meteotest, Bern, Udo Schröder, Watergisweb

ISGT21 Enable the Growth of a Smart Energy and Information Network in Rural India TodayEvan Mertens and Paul Rutten, Rural Spark, Rinus van Houten, University of Technology Eindhoven

ISGT669 Power System Planning for Maximizing Intermittent Energy Sources using AC Model

Juan Gomez, Rio Cuarto National University

ISGT219 Analysis of Distance Based Fault Location Methods for Smart Grids with Distributed GenerationBernardo José, Paulo Cavalcante, Fernanda Trindade and Madson Almeida, University of Campinas

ISGT322 Efficient identification of opportunities for Distributed Generation based on Smart Grid Technology





ISGT10 A Study of the Sharing between the Grid and Rotor Source of Excitation of a Doubly-fed Induction Generator in the Presence of Distribution System Transients



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Sarah Rönnberg and Math Bollen, Luleå University of Technology

ISGT174 Quantification of Ancillary Services from a Virtual Power Plant in an Existing Subtransmision NetworkNicholas Etherden and Math Bollen, Luleå University of Technology, Johanna Lundkvist, STRI

ISGT177 Solar power in northern Scandinavia, its impact on the grid and methods to mitigate this impact

Poster A3

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Javier Pérez López and Jukka K. Nurminen, Aalto University

ISGT131 Integrating Intelligent Electric Devices into Distributed Energy Resources in a Cloud-Based Environment

Roberto Rigolin Ferreira Lopes and Rikke Stoud Platou, Norwegian University of Science and Technology - NTNU, Kristoffer Nyborg Gregertsen, SINTEF - ITK, Nunzio Marco Torrisi, Federal University of ABC - UFABC, Geir Mathisen, SINTEF - ITK, Sverre Hendseth, Norwegian University of Science and Technology - NTNU

ISGT394 Design of Secure Communication in Network with Limited Petr Mlynek, Brno university of Technology

ISGT214 Electric Vehicles Communicating with WebSockets - Measurements and Estimations

Sami Repo, Shengye Lu and Timo Pöhö, Tampere University of Technology, Davide Della Giustina, A2A Reti Elettriche SpA, Guillermo Ravera and Felipe Alvarez-Cuevas Figuerola, Enel Energy Europe, Josep Selga, La Salle University

ISGT467 Cyber Security for a Smart Grid - What About Phishing?Hannes Holm and Waldo Rocha Flores, KTH Royal Institute of Technology, Göran Ericsson, Svenska Kraftnät

ISGT209 Deploying third party services at smart grids end users using broadband links





ISGT526 Active Distribution Network Concept for Distributed Management of Low Voltage Network



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Jörn Trefke, Sebastian Rohjans, Mathias Uslar and Sebastian Lehnhoff, OFFIS - Institute for Information Technology, Lars Nordström and Arshad Saleem, KTH - Royal Institute of

David Macedo, Fabio Maia, Sergio Sette, Danielle Andrade and Eric Perazzo, CESAR

ISGT306 Smart Domestic Renewable Energy Management Using KnapsackMohammed Arikiez, Peter Gatens, Floriana Grasso and Michele Zito, University of Liverpool

ISGT112 Smart Grid Architecture Model Use Case Management in a large European Smart Grid Project

Dominik Engel and Günther Eibl, Salzburg University of Applied Sciences

ISGT415 Novel Information Model of Smart Consumers for Real-Time Home Energy ManagementIoana Pisica, Gareth Taylor and Christos Chousidis, Brunel University London

ISGT302 SiBMA An Open Standard Application Layer Protocol for Smart Metering in Brazil

Daniel Winther and Bo Petersen, DTU

ISGT9 Multi-Resolution Load Profile Representation with Privacy-preserving Aggregation

Poster A4

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B.J. Claessens, S. Vandael, F. Ruelens, K. De Craemer and B. Beusen

ISGT254 Stochastic Portfolio Management of an Electric Vehicles Aggregator Under Price Uncertainty

Morten Juelsgaard, Luminita C. Totu, Ehsan Shafiei, Rafael Wisniewski and Jakob Stoustrup, Aalborg University

ISGT213 Distributed Hybrid Constraint Handling in Large Scale Virtual Power PlantsChristian Hinrichs, Jörg Bremer and Michael Sonnenschein, University of Oldenburg

ISGT79 Peak Shaving of a Heterogeneous Cluster of Residential Flexibility Carriers using Reinforcement Learning

Anders Thavlov and Henrik W. Bindner, Technical University of Denmark

ISGT201 Applying Model Predictive Control to Power System Frequency ControlAnne Mai Ersdal, Norwegian University of Science and Technology, Inês M. Cecílio and Davide Fabozzi, Imperial College, London UK, Lars Imsland, Norwegian University of Science and Technology, Nina F. Thornhill, Imperial College, London UK

ISGT237 Control Structures for Smart Grid Balancing





ISGT339 An Aggregation Model for Households Connected in the Low-voltage Grid using a VPP Interface



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Iván Castro León and Philip C. Taylor, Newcastle University

ISGT128 Traditional Online Scheduling Algorithms in a New Role: Balancing RES Locally in Residential SectorMaja Etinski and Anett Schuelke, NEC Laboratories Europe

Frederik Ruelens, Sam Weckx, Willem Leterme and Stijn Vandael, KU Leuven, Bert Claesssens, Flemish institute for technological research VITO, Ronnie Belmans, KU Leuven

ISGT90 Towards Autonomic Control in Decentralised Power Systems via Distributed Type-2 Fuzzy Systems

Poster A5

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Josef Bajada, Maria Fox and Derek Long, King's College London

ISGT139 UK Transmission System Modelling and Validation for Dynamic StudiesJun Xia and Adam Dysko, university of strathclyde

Yizhong Hu, Wenchuan Wu and Boming Zhang, Tsinghua University, Qi Guo, China Southern Power Grid Co.

ISGT95 Improving the Accuracy of System Security Assessment in Highly Stressed Transmission GridsSoenke Loitz, Hendrik Acker and Wolfram H. Wellssow, Technical University of Kaiserslautern

ISGT71 Load Modelling and Simulation of Household Electricity Consumption for the Evaluation of Demand-Side Management

Theodoros Kyriakidis, Rachid Cherkaoui and Maher Kayal, École polytechnique fédérale de Lausanne

ISGT211 Application of Sensitivity-based Dynamic Zoning Scheme in Guangdong Power GridShaohua Lin, Dong Chen, Puming Li and Yuefeng Lu, Guangdong Power Grid Corporation, Jin Zhong, Yuqian Song and Zhongwei Wang, The University of Hong Kong

ISGT144 Development of an RTDS-TSA Hybrid Transient Simulation Platform with Frequency Dependent Network Equivalents





ISGT109 A DC Power Flow Extension



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Poster A6

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Diana Zalostiba, Riga Technical Universtity

ISGT316 Robust method for detection of CUEP for Power System Transient Stability ScreeningEmil Popov, Naoto Yorino, Yoshifumi Zoka and Yutaka Sasaki, Hiroshima University, Siguhara Hiroaki, The Chugoku Electric Power Co.

Zakir Rather, kk-electronic/Aalborg University, Zhe Chen, Aalborg University, Paul Thøgersen, kk-electronic

ISGT294 Enhancing Wide-Area Monitoring and Control with Intelligent Alarm HandlingChumki Basu, IBM Research - India, Kaushik Das, Technical University of Denmark, Jagabondhu Hazra and Deva Seetharam, IBM Research - India

ISGT369 Power System Blackout Prevention by Dangerous Overload Elimination and Fast Self-Restoration

Muhamad Zahim Sujod and Istvan Erlich, University Duisburg-Essen

ISGT259 Automatic Triggering of the Interconnection between Mexico and Central America using Discrete Control SchemesEnrique Martínez Martínez, Comisión Federal de Electricidad, Luigi Vanfretti and Felix Rafael Segundo Sevilla, KTH Royal Institute of Technology

ISGT324 Challenge of Primary Voltage Control in Large Scale Wind Integrated Power System:A Danish Power System Case Study





ISGT40 A New Protection Scheme for Three-Level NPC Converter based DFIG using Zero State Control



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W. M. Guo, Henan Electric Power Research Institute, Q. Wei, Henan Electric Power Research , G. J. Liu and Y. Wang, Shandong University, X. K. Zhang, Shandong Electric Power Corporation

Jochen Fuchs and Johann Jaeger, FAU University Erlangen

ISGT398 Suitability of voltage stability study methods for real-time Angel Perez, Hjörtur Jóhannsson, Pieter Vancraeyveld and Jacob Østergaard, DTU

ISGT175 Transmission Swtiching to Relieve Voltage Violations

ISGT297 Smart Grid Study on Protection Security Issues

Poster A7

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Ignacio Hernando Gil, Barry Hayes, Adam Collin and Sasa Djokic, The University of Edinburgh

ISGT534 Disturbance Identification Based on Mathematical Morphology and Radial Coordinate VisualizationL.L. Zhang, T.Y. Ji and M.S. Li, South China University of Technology, Q.H. Wu and L. Jiang, University of Liverpool, J.P. Zhan, Zhejiang University

Roya Nikjoo, Nathaniel Taylor, Respicius Kiiza and Hans Edin, KTH Royal Institute of Technology

ISGT596 Distribution Network Equivalents for Reliability Analysis. Part 1: Aggregation MethodologyIgnacio Hernando Gil, Barry Hayes, Adam Collin and Sasa Djokic, The University of Edinburgh

ISGT600 Distribution Network Equivalents for Reliability Analysis. Part 2: Storage and Demand-side Resources

Mehdi Karbalaye Zadeh, Reza Parseh, Marta Molinas and Kimmo Kansanen, NTNU

ISGT420 Diagnostics Capabilities of Various Electrical Anomalies in Smart Yuval Beck, Holon Institute of Technology, Nezah Calamero, Israel Electric Company, Liran Katzir, Tel-Aviv University, Gady Golan, Holon Institute of Technology

ISGT442 Dielectric Response of Aged Transformer Bushings Utilizing Power System Transients


Diagnostics and reliability of components and integrated systems



ISGT617 Bifurcation in PWM Converter-based Systems with Wireless Communication-based Current Controller



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Farhad Davoodi Samirmi, Wenhu Tang and Henry Wu, The University of Liverpool

ISGT437 Feature Selection in Power Transformer Fault Diagnosis based on Dissolved Gas Analysis

Poster A8

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Hirofumi Keimoto, Shunsuke Kawachi and Jumpei Baba, The University of Tokyo

ISGT39 Contribution of a Smart Transformer in the Local Primary Control of a MicrogridTine Vandoorn, Wim Willems, Jeroen De Kooning, Jan Van de Vyver and Lieven Vandevelde, Ghent University

Bryan O'Neill, Frazer-Nash Consultancy, Colin Foote, Robert MacDonald and Michael Dolan, Smarter Grid Solutions, Simon Gill, University of Strathclyde, Gary Milne and Stewart Reid, Scottish and Southern Energy Power Distribution

ISGT672 An Improved Protection Scheme for MicrogridsSachit Gopalan, The University of Western Australia, Yateendra Mishra, Queensland University of Technology, Victor Sreeram and Herbert Iu, The University of Western Australia

ISGT377 Basic Study on Interaction between Synchronous Machine and Islanding Detection Method of Power Conditioning System

Sachit Gopalan, The University of Western Australia, Yateendra Mishra, Queensland University of Technology, Victor Sreeram and Herbert Iu, The University of Western Australia

ISGT252 A Noval Multi-Agent-Based Control Approach for Frequency Stabilization of Islanded MicrogridsWei Liu and Wei Gu, Southeast University, Bo Zhao, Zhejiang Electric Power Test and Research Institute

ISGT475 Active Network Management on Islanded Systems: The Shetland Experience





ISGT337 A Flexible Protection Scheme for an Islanded Multi-Microgrid



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Housam Wattar, Julian Koch and Jens Lemke, EADS, Michael Teroerde, Helmut Schmidt University

ISGT338 Voltage Magnitude and Margin Controller for Remote Industrial Microgrid with High Wind Penetration Yu Cai, Jin Lin and Yonghua Song, Tsinghua University, Shi You and Yi Zong, Technical University of Denmark

Ionel Vechiu and Aitor Etxeberria, Engineering school for advanced industrial technologies (ESTIA), Haritza Camblong, University of the Basque Country, Sylvain Baudoin and Stéphane Kreckelbergh, Engineering school for advanced industrial technologies (ESTIA)

ISGT202 Optimal Distributed Power Generation for Thermal and Electrical Scheduling in a MicrogridMingming Liu, National University of Ireland, Maynooth, Emanuele Crisostomi and Marco Raugi, University of Pisa, Robert Shorten, National University of Ireland, Maynooth

ISGT77 Smart Load Balancing for Large Civil Aircraft

Xinyao Li, Adam Dysko and Graeme Burt, University of Strathclyde

ISGT74 Fundamental Study on Stabilization of Isolated Island Power System by Use of Pump SystemHideki Sasamoto, Masaki Imanaka and Jumpei Baba, University of Tokyo, Naoto Higa, Masanori Shimabuku and Ryota Kamizato, Okinawa Enetech Co, Inc.

ISGT468 Hybrid Energy Storage System with Unique Power Electronic Interface for Microgrids

ISGT113 Enhanced mode adaptive decentralized controller forinverters supplying a multi-bus microgrid

Poster A9

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Apostolos Milioudis, Georgios Andreou, Varvara Katsanou, Kallisthenis Sgouras and Dimitrios Labridis, Aristotle University of Thessaloniki

ISGT257 Multi-Agent System Architecture for Smart Home Energy OptimizationBallard Asare-Bediako, Wil L. Kling and Paulo F. Ribeiro, Eindhoven University OF Technology

Ken Kuroda, Yuichi Matsufuji, Tetsuya Kashiwagi and Tomiyasu Ichimura, Fujitsu Limited, Ryuichi Yokoyama, Waseda University

ISGT391 Design of a MAS as Cloud Computing Service to control Smart Micro GridSilvia Bertagna De Marchi, Ferdinanda Ponci and Antonello Monti, E.ON ERC at RWTH Aachen

ISGT363 Event Detection for Load Disaggregation in Smart Metering





ISGT447 An Approach of Distribution Systems Stabilization for a Large-scale PV Systems Installation Environment



Poster A10

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Myriam Neaimeh, Robin Wardle, Phil Taylor, Phil Blythe, Graeme Hill and Jialiang Yi, Newcastle University

ISGT453 Power Quality Monitoring Use Case in Real Low Voltage Network

Philip Kjaer and Rasmus Lærke, Vestas Wind Systems

ISGT480 Experimental Performance Characterization of a Meshed Network for the Smart GridDavide Della Giustina, A2A Reti Elettriche SpA, Lars Andersson, Ormazabal CURRENT CTI, Guillermo J. Ravera Iglesias, Enel Energy Europe

ISGT38 Integrating Smart Meter and Electric Vehicle Charging Data to Predict Distribution Network Impacts

Neal Wade, Newcastle University, Kunpeng Wang, Durham University, Matthieu Michel and Tom Willis, UK Power Networks

ISGT94 Demonstration of a Low-cost Fault Detector for Sum Current Measurement of Overhead MV LinesHenry Rimminen, VTT Technical Research Centre of Finland, Antti Kostiainen, ABB, Heikki Seppä, VTT Technical Research Centre of Finland

ISGT134 Experience with primary reserve supplied from energy storage


Experiences from field tests and large-scale demonstrations



ISGT82 Demonstration of a 200 kW/200 kWh Energy Storage System on an 11kV UK Distribution Feeder



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Marko Pikkarainen, Tampere University of Technology, Atte Löf, Technical Research Centre of Finland, Shengye Lu, Timo Pöhö and Sami Repo, Tampere University of Technology, Davide Della Giustina, A2A Reti Elettriche SpA

Poster B1

Contributions

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Alexandra von Meier and David Culler, University of California, Alex McEachern, Power Standards Laboratory

ISGT325 Reserve Requirements in AC Power Systems with Uncertain GenerationVahab Rostampour, Kostas Margellos and Maria Vrakopoulou, ETH Zurich, Maria Prandini, Politecnico di Milano, , Göran Andersson and John Lygeros, ETH Zurich

Jose Morillo Carrillo, University of the Andes , Juan Pérez Bernal, Imperial College London, Angelá Cadena Monroy, University of the Andes

ISGT620 Low Voltage Network Monitoring in RTDS EnvironmentAtte Löf, Technical Research Centre of Finland, Marko Pikkarainen, Shengye Lu, Timo Pöhö and Sami Repo, Tampere University of Technology

ISGT307 Micro-Synchrophasors for Distribution Systems

Traian Preda and Kjetil Uhlen, Norwegian University of Science and Technology, Dag Eirik Nordgård, SINTEF Energy

ISGT361 Distributed Constraint Optimisation For Flexible Network ManagementDimitrios Athanasiadis, Ivana Kockar and Stephen McArthur, University of Strathclyde

ISGT443 Dynamic Multi-objective Planning for Distribution Systems with Distributed Generation





ISGT565 Clustering Distributed Generation Using the Instantaneous Euclidean Distance in Polar Coordinates



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Antti Mutanen, Sami Repo and Pertti Järventausta, Tampere University of Technology, Atte Löf, VTT Technical Research Centre of Finland, Davide Della Giustina, A2A Reti Elettriche Spa

ISGT366 The Development of an Active Network Management testbed using Communications EmulationCraig Breaden and Adam Dysko, University of Strathclyde, Euan M. Davidson, Neil McNeill and Michael J. Dolan, Smarter Grid Solutions

ISGT690 Testing Low Voltage Network State Estimation in RTDS

Poster B2

Contributions

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Minas Patsalides and George Georghiou, University of Cyprus, Andreas Stavrou and Venizelos Efthymiou, Electricity Authority of Cyprus

Maria Aigner, Ernst Schmautzer and Christoph Sigl, Graz University of Technology

ISGT472 Impacts of Dynamic Line Rating on Power Dispatch Performance and Grid Integration of Renewable Energy SourcesBolun Xu, Andreas Ulbig and Göran Andersson, ETH Zurich

ISGT505 Thevenin Equivalent Circuit for the Study of High Photovoltaic Penetration in Distribution Grids

Mario Laera, Sara Roggia, Maria Dicorato, Giuseppe Forte and Michele Trovato, Politecnico di

ISGT405 Comparison of Regionalization Methods for Network Development PlanningJan Teuwsen, Volker Liebenau and Christian Rehtanz, TU Dortmund University

ISGT688 Fault loop impedance determination in low-voltage distribution systems with non-linear sources





ISGT481 A procedure for day-ahead optimal operation planning of a



Poster B3

Contributions

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M. Shafie-khah and Joao Catalao, UBI, M. P. Moghaddam, M.K. Sheikh-El-Eslami and E. Heydarian-Forushani, TMU

ISGT586 Plug-in Vehicles and Renewable Energy Resources Integration with Unit Commitment in Smart GridMahmoud Mohie, Schneider Electric Egypt s.a.e, Rania Swief, Ain Shams University

Hiroyuki Hatta, Wataru Shima, Tomonori Kawakami and Hiromu Kobayashi, Central Research Institute of Electric Power Industry, Naohiko Sueyoshi, Hirofumi Nakama, Yuji Oshiro and Masayoshi Toguchi, The Okinawa Electric Power Co., Inc.

ISGT122 EV Charging Schedule for Load Leveling by Non-linearly-distributed Start TimeMasaaki Takagi, Naoto Tagashira and Hiroshi Asano, Central Research Institute of Electric Power Industry

ISGT308 Optimal Behavior of PIEV Aggregator by Participating in Intraday Demand Response Exchange Markets

Rakesh Sinha, Eloy Rodriguez Moldes, Arsalan Hussain Zaidi, Pukar Mahat and Jayakrishnan Radhakrishna Pillai, Aalborg University, Peter Hansen, Danish Energy Association

ISGT278 Demand Response Program for Electric Vehicle Service with Physical AggregatorsClaudia Battistelli, University of Waterloo

ISGT145 Demonstration Test of PV Output Reduction Method using Battery Energy Storage System and Customer Equipment


Integration of electric vehicles and storages



ISGT255 An Electric Vehicle Charging Management and its Impact on



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Morris Brenna, Federica Foiadelli and Dario Zaninelli, Politecnico di Milano

Seyedmostafa Hashemi Toghroljerdi, Guangya Yang, Jacob Østergaard, Shi You and Seung-Tae Cha, Technical University of Denmark

ISGT167 The Effect of Mobility Forecasts for Stochastic Charge Scheduling of Aggregated PEVIlan Momber, KTH, Tomás Gómez, Comision Nacional de Energia

ISGT260 Voltage Sags Compensation through a DVR supplied by V2G Vehicles Charging Stations

ISGT588 Storage Application in Smart Grid with High PV and EV

Poster B4

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Venkatachalam Lakshmanan, Mattia Marinelli, Anna Magdalena Kosek, Fabrizio Sossan and Per Bromand Nørgård, Technical University of Denmark

Vincenzo trovato, Simon Tindemans and Goran Strbac, imperial college london

ISGT127 Demand Side Management through Electricity Pricing in Competitive EnvironmentsTerhi Rautiainen, Jarmo Lunden, Stefan Werner and Visa Koivunen, Aalto University

ISGT473 Domestic Refrigerators Temperature Prediction Strategy for the Evaluation of the Expected Power Consumption

Daphne Geelen, Delft University of Technology, Manon Vos-Vlamings, HanzeHogeschool Groningen, Faidra Filippidou, Delft University of Technology, Albert van den Noort, DNV KEMA, Maike van Grootel, Essent, Henk Moll, University of Groningen, Angèle Reinders and David Keyson, Delft University of Technology

ISGT452 Cost-Effective Optimization of Load Shifting in the Industry by Using Intermediate StoragesPriit Uuemaa and Imre Drovtar, Tallinn University of Technology, Allan Puusepp, Eesti Energia, Jako Kilter, Argo Rosin and Juhan Valtin, Tallinn University of Technology

ISGT78 Demand Response Contribution to Effective Inertia for System Security in the GB 2020 Gone Green Scenario


Customer aspects, user behavior and flexible demand



ISGT408 An end-user perspective on smart home energy systems in the PowerMatching City demonstration project



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Adriana Chis, Jarmo Lunden and Visa Koivunen, Aalto University

ISGT654 Sharing Lessons Learned on Developing and Operating Smart Grid Pilots with HouseholdsCharlotte Kobus, Elke Klaassen, Jaap Kohlmann, Joris Knigge and Sarah Boots, Enexis B.V.

Sereen Althaher, Pierluigi Mancarella and Joseph Mutale, University of Manchester

ISGT190 Potential for Demand Side Management in Automotive ManufacturingSoner Emec and Maren Kuschke, Technische Universität Berlin, Moritz Chemnitz, Fraunhofer IPK, Kai Strunz, Technische Universität Berlin

ISGT102 Scheduling of Plug-in Electric Vehicle Battery Charging with Price Prediction

ISGT585 End User Models for Residential Demand ResponseOndrej Holub and Marek Sikora, Honeywell

ISGT604 Optimal Management of Domestic Appliances with Dynamic Pricing and Automated Demand Response

Poster B5

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Dominik Nowak, Åukasz Krzak and Cezary Worek, AGH University of Science and Technology

ISGT349 Load Control Timescales Simulation in a Multi-Agent Smart Grid PlatformPedro Oliveira, Luis Gomes, Tiago Pinto, Pedro Faria, Zita Vale and Hugo Morais, Polytechnic of Porto

Federico Ibanez, Javier Vadillo, José Martín Echeverría and Luis Fontán, CEIT

ISGT552 H¡Þ Robust Control of APF Considering the Parameter Perturbation of the Grid-connected ReactorShengzhou Ke, Ying Chen and Shaowei Huang, Tsinghua University, Xiuqiong Huang, Guangxi Power Grid Co., LTD.

ISGT375 Integration of ZigBee and IEC 61850 networks for a substation automation system

Na Deng, Xiao-Ping Zhang and Puyu Wang, University of Birmingham, XinXin Gu, Nanjing GWDR Relays Technologies Co., Ming Wu, China Electric Power Research Institute

ISGT28 A Novel Method of Impulsive Noise Cancellation in Powerline CommunicationsKhaled Rabie and Emad Alsusa, The University of Manchester

ISGT57 Design Methodology of a balancing network for supercapacitors


Components smart grid readiness and asset management



ISGT422 A Converter-Based General Interface for AC Microgrid Integrating to the Grid



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Jagabondhu Hazra, Kaushik das, Ashok Pon Kumar, Balakrishnan Narayanaswamy and Deva P. Seetharam, IBM Research, Nis Jesperson, IBM Denmark

ISGT609 Parallel Varistors as a Snubber-Circuit for Solid-State DC-breakersJesper Magnusson, Royal Institute of Technology, Robert Saers and Zichi Zhang, ABB, Ara Bissal, Royal Institute of Technology, Lars Liljestrand, ABB, Göran Engdahl, Royal Institute of

ISGT470 Optimal Utilization of Power Transformers Through Virtual

Poster B6

Contributions

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Silas Harbo, Danish Energy Association, Benjamin Biegel, Aalborg University

ISGT490 Enabling Demand Response by Extending the European Electricity Markets with a Real-Time Market

Ashkan Sadeghi Mobarakeh, Sharif University of Technology, Aydin Zahedian, Power and Water University of Technology, Abbas Rajabi-Ghahnavieh, Sharif University of Tech

ISGT345 Bidding in the Frequency Restoration Reserves (FRR) Market for a Hydropower UnitYonas Gebrekiros, Norwegian University of Science and Technology (NTNU), Stefan Jaehnert and Hossein Farahmand, SINTEF Energy Research, Gerard Doorman, Norwegian University of Science and Technology (NTNU)

ISGT101 Contracting Flexibility Services

Alessandro Burgio, Grazia Belli, Giovanni Brusco, Daniele Menniti, Anna Pinnarelli and Nicola Sorrentino, University of Calabria

ISGT150 A Flex-market Design for Flexibility Services through DERsChunyu Zhang, Technical University of Denmark, Niels Christian Nordentoft, Danish Energy Association, Yi Ding, Technical University of Denmark, Lars Henrik Hansen, Dong Energy, Jacob Østergaard, Technical University of Denmark, Poul Brath and Peder Dybdal Cajar, Dong Energy, Henrik W. Bindner, Technical University of Denmark

ISGT667 A Game Theoretic Framework for DG Optimal Contract Pricing





ISGT523 A feed-in tariff to favorite photovoltaic and batteries energy storage systems for grid-connected consumers



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Kristina Östman and Mohammad Hesamzadeh, KTH Royal Institute of Technology

Antonio Giannitrapani, Simone Paoletti, Antonio Vicino and Donato Zarrilli, Universita' degli Studi di Siena

ISGT560 Incentive based Smart Pricing Scheme Using Scoring RuleShantanu Chakraborty, NEC Corporation, Takayuki Ito and Keisuke Hara, Nagoya Institute of Technology

ISGT528 Pricing electric-power transmission: The Swedish methodology and a new approach

Preben Nyeng, Energinet.dk, Koen Kok, TNO, Salvador Pineda, DTU, Ove Grande, SINTEF, Jonathan Sprooten and Bob Hebb, Elia, Frans Nieuwenhout, ECN

ISGT327 Exploiting weather forecasts for sizing photovoltaic energy bids

Poster B7

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Gerwin Hoogsteen, Albert Molderink, Vincent Bakker and Gerard Smit, University of Twente

ISGT662 Smart Grid ADR Aggregation Delay Model on Large-Scale Distributed Building HVAC FacilitiesKeita Suzuki, Chuzo Ninagawa and Hiroki Yoshida, Gifu University, Seiji Kondo, Junji Morikawa, Taiga Kanbe and Takao Aoki, Mitsubishi Heavy Industries, Ltd.

Eduardo Mojica-Nava, National University of Colombia, Nicanor Quijano, Universidad de Los Andes, Andres Pavas, National University of Colombia

ISGT386 Inferring Low Voltage Transformer State using only Smart Metering DataQipeng Chen and Dritan Kaleshi, University of Bristol, Zhong Fan, Toshiba Research Europe Limited

ISGT525 Integrating LV Network Models and Load-Flow Calculations into Smart Grid Planning

Kai Heussen, Daniel Esteban Morales Bondy, Junjie Hu and Oliver Gehrke, Technical University of Denmark, Lars Henrik Hansen, DONG Energy

ISGT579 A Formal Model for Agent-Based Coalition Formation in Electricity MarketsSebastian Beer and Hans-Jürgen Appelrath, OFFIS

ISGT446 Dynamic Population Games for Hierarchical Microgrid





ISGT694 A Clearinghouse Concept for Distribution-Level Flexibility



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Davide Della Giustina, A2A Reti Elettriche SpA, Roberto Faranda, Politecnico di Milano, Giovanni Accetta and Stefano Zanini, A2A Reti Elettriche SpA, Gabriele D'Antona, Politecnico

ISGT683 The impact and opportunities of smart appliances on distribution networksSilviu Nistor and Jianzhong Wu, Cardiff University, Mahesh Sooriyabandara, Toshiba Research Europe Limited

ISGT580 SmartDomoGrid: Reference Architecture and Use Case Analyses for a Grid-Customer Interaction

Poster B8

Contributions

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Tokhir Gafurov, Institute IMDEA Energy, Julio Usaola, Universidad Carlos III de Madrid, Milan Prodanovic, Institute IMDEA Energy

ISGT230 Real-Time Simulation of Energy Management in a Domestic Filipe Fernandes, Marco Rios, Pedro Faria, Hugo Morais, Zita Vale and Carlos Ramos, Polytechnic of Porto

Lucian Mihet-Popa, DTU, Jens Pihl-Andersen, SEAS-NVE, Jasmin Mehmedalic, Dansk Energi, Xue Han and Henrik Bindner, DTU

ISGT250 Hardware-in-the-loop testing for tidal energy power conversion systemsCarlos Villegas and Simon Cawthorne, OpenHydro Technology Ltd

ISGT501 PV system model reduction for reliability assessment studies

Tetiana Bogodorova, KTH Royal Institute of Technology, Marc Sabate and Gladys León, Aplicaciones Avanzadas de Informática (AIA), Luigi Vanfretti, KTH Royal Institute of Technology, Milenko Halat, Aplicaciones Avanzadas de Informática (AIA), Jean Baptiste Heyberger and Patrick Panciatici, RTE

ISGT537 Column Generation Based Planning in Smart Grids Using TRIANAHermen Toersche, Albert Molderink, Johann Hurink and Gerard Smit, University of Twente

ISGT682 Grid Modeling, Analysis and Simulation of Different Scenarios for a Smart Low-Voltage Distribution Grid





ISGT510 A Modelica Power System Library for Phasor Time-Domain



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Paul Stursberg and Philipp Ahlhaus, TU München

ISGT238 Transmission Capacity Expansion: An Improved Transport Model

Poster B9

Contributions

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Maximilian Dauer and Johann Jäger, University of Erlangen, Thomas Bopp and Rainer Krebs, Siemens AG

ISGT448 Rapid Tracking of Bus Voltages Using Synchro-Phasor Assisted State EstimatorAli Abur and Murat Gol, Northeastern University, Floyd Galvan, Entergy Services

Evgenia Dmitrova, Hjörtur Jóhannsson and Arne Hejde Nielsen, Technical University of

ISGT605 Neural-Network-Based Maximum Loading Approximator Applied in Decision Making for Real-Time Grid OperationRicardo Fernandes, Federal University of Sao Carlos, Guilherme Lage and Geraldo da Costa, University of Sao Paulo

ISGT404 Protection Security Assessment â€“ System Evaluation Based on Fuzzification of Protection Settings

Martin Wittrock and Hjörtur Jóhannsson, Technical University of Denmark, Rodrigo Garcia-Valle, Consultant

ISGT426 Comprehensive approach for prediction and assessment of power system transient stability in real-timeDiego Echeverria, CENACE, Jose Rueda, University Duisburg-Essen, Jaime Cepeda, CENACE, Delia Colome, Universidad Nacional de San Juan, Istvan Erlich, University Duisburg-Essen

ISGT616 Fast Assessment of the Effect of Preventive Wide Area Emergency Control.





ISGT521 An Implementation and Test Platform for Wide Area Stability Assessment Methods



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Walter Kuehn, FH FFM University of Applied Sciences, Frankfurt am Main, Daniel Mueller, FH FFM University of Applied Sciences Frankfurt am Main, Mathias Rabe, FH FFM University of Applied Sciences, Frankfurt am Main

ISGT699 System Security Assessment in Real-Time using synchrophasor measurementsHjörtur Jóhannsson, DTU Electrical Engineering, Markus Wache, Siemens AG

ISGT626 Stabilizing Control for HVDC ConnectedOffshore Wind Farm

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