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Achievements and Perspectives of smart grids projects and
deployments
M. de Nigris
PV POWER IN ITALY
INSTALLED POWER OF PV PLANTS NUMBER OF PV PLANTS
LOCATION OF PV PLANTS OVER THE ITALIAN TERRITORY
SOURCE GSE
2012 INSTALLED POWER IN ITALY: 16.420 MW
THE CONSEQUENCES ON POWER FLOW
Load curve as seen from the EHV nodes (380kV) on the day after Easter 2010 vs 2012
794 MW P.V. INSTALLED
3
PERFORMANCE OF ELECTRICITY SYSTEMS
2010-2011 data
T&D Losses 6.0%
SAIDI 310-930 min *
T&D Losses 4.5%
SAIDI 11 min
T&D Losses 6.0%
SAIDI 138 min
T&D Losses 3.6%
SAIDI 16 min
T&D Losses 6.1%
SAIDI 380 min
T&D Losses 16.6%
SAIDI 1080 min
T&D Losses 3.8-8.0%
SAIDI 15-100 min
* CSG – China Southern Grid Corporation
EU 12
GEOGRAPHY OF DRIVERS
5
Transmission overload & ageing infrastructure: • Blackouts • Critical peak situations • Cyber-security issues Technology: • Demand side response • Distributed automation • Volt/Var control • Energy efficiency
Deregulation & System adequacy: • Competition • Integration of renewables • Increasingly constrained network Technology: • Distributed automation • Renewable integration • Demand side response • Energy efficiency • EV management
Distribution infrastructure modernisation: • Growing consumption • Energy theft and losses • Generation and transmission modernization Technology: • Distributed automation • Substation automation • AMI • Energy efficiency
Growing energy demand… and losses: • Critical peak situations • Energy theft Technology: • Energy efficiency • Rural microgrids • Distributed automation • AMI • Demand side response
Growing energy demand: • Growing consumption • Transmission congestion • CO2-emissions
Technology: • Transmission grid • AMI • Distributed automation • Renewable integration • EV management
THE SOLUTIONS FROM SMART GRIDS
Smart Grids can be described as an upgraded electricity network characterized by a high level of flexibility and self-adaptability fostered by a two-way digital
communication between supplier and consumer, intelligent metering and monitoring systems.
SOURCE I.E.A.
TOP DRIVERS FOR INVESTING IN SG TECHNOLOGIES
Results from 19 countries: Australia, Austria, Belgium, Canada, China,
Finland, France, India, Ireland, Italy, Japan, Republic of Korea, Mexico,
The Netherlands, Russia, Spain, Sweden , Switzerland, United States
APPLICATIONS OF SG INTERNATIONAL PROJECTS
By Smart Grid Area of Focus
Some projects addressing more than one smart grid area of interest
0 5 10 15 20 25 30 35 40 45 50
Smart customers
Smart energymanagement
Smart integration
Smart distributionnetwork
Number of Projects
Distribution Level: Area of Focus
0 5 10 15 20
Grid architecture
Power technologies
Network managementand control
Market simulationtechniques
Number of Projects
Transmission Level: Area of Focus
• 3.15 b€ total • Average budget per project 7.5 M€ • Largest investors: UK, FR
SMART GRIDS PROJECTS IN EUROPE – THE BIG PICTURE
• More than 450 projects – 221 ongoing
• 578 Implementation sites • 1750 Organisations
• Good degree of application diversity • Smart network management and
smart consumers/homes are the most targeted
• New control/automation system consolidated
• Distributed ICT for DER/flexibility
SMART GRIDS PROJECTS IN EUROPE – THE BIG PICTURE
• Density of implementatiion sites weighed by budget
• EU 15 concentrated most of the activity
• Some interest on East side but small budget allocation
SMART GRIDS LANDSCAPE
•Projects not evenly distributed (EU15 doing most of the job)
•Many projects focus on integration of technologies and applications
•Fundamental role of the DSOs / TSOs
•Deployment cover most of investments (7% of projects – 60% of investments)
LARGE SCALE MULTIDISCIPLINARY DEMONSTRATORS
•Large scale demonstrators, involving high number of sites and communities needed to prove up-scaling and reliability of solutions
• Incresaed complexity of electricity system requires multidisciplinary consortia to integrate competences and share risks
SET UP OF MARKET PLATFORMS FOR THE PROVISION OF SERVICES
•Revise incentives model to accelerate innovation uptake and encourage to move towards a service-based business model
•Most of smart grids benefits are systemic in nature – service-based market platforms are essential to attract operators
EUROPE: LESSONS LEARNED
CONSUMERS
• Need to have trust to harvest benefits from smart grids technologies and applications;
• Consumer engagement is crutial to development of electricity services platforms;
• Consumer segmentation is very important to taylor energy services, target early adopters, guarantee different levels of engagement.
INTEROPERABILITY, DATA PROTECTION AND DATA SECURITY
• Open and secure ICT infrastruture is core for smart grids implementations;
• Convergence towards IP communications and other standard-based solutions;
• Energy and ICT communities need to work together to coordinate security measures, avoiding blind spots;
• Data protection and security not yet sufficiently addressed by the projects. Experience from other sectors is needed. Privacy-by-design approach
EUROPE: LESSONS LEARNED
USA: APPLICATIONS OF DOE «SGIG» PROGRAM
(SMART GRID INVESTMENT GRANT)
DOE SG private induced investments: $4500 million SGIG program: $3425 million
USA: IMPLEMENTATION SITES
USA: LESSONS LEARNED
Reliability
Automated feeder switching:
•Reduction of frequency of outages, number of customers affected by sustained outages and momentary interruptions, total amount of time without power
Automatic control
VVO: Voltage and VAR control Optimization:
•Reduction of line losses by 5-10%;
•Peak demand reduction by 1-2.5%.
Advanced Metering Infrastructure
•Cost reductions and productivity improvements related to reductions in labor and vehicle costs;
•Less problems between systems and customers for projects with preceding experience in smart meter deployment.
Demand
•Demand reductions from the application of Advanced Metering Infrastructure, pricing programs and customer-based systems.
Research and
Development
Energy
Efficiency
Government
Fund
Distribution 0.2% 0.5% 0.3%
Transmission 0.4% - 0.6%
Generation 0.4% - 0.6%
BRAZIL: APPLICATIONS OF SG PROJECTS
$60 billion 2010-2013
Projects of distribution utilities supported by government and regulator
• Smart metering and
AMI (concentrators)
• T&D automation (fault
detection, Volt / VAR
control, automatic
dispatchment)
• Demand response
• Electric vehicles
• Remote management
systems for residential
customers
income % to SG by law
BRAZIL: LESSONS LEARNED
Smart meters
• Important reductions in total losses through advanced metering systems (meters and concentrators).
Focus:
• Government heavily focused on investing in improving energy efficiency and sustainability.
Subsidies and incentives:
• National subsidies and incentives to assist Brazilian companies and technology institutes to develop innovative technologies for power sector (solar power, smart grids, energy-efficient vehicles, …).
Business:
• Great opportunity to R&D and to do business in Brazil in both energy sector and Smart Grids
CHINA: APPLICATIONS OF SGCC PROJECTS
STRONG AND SMART GRID PLAN
(SGCC-STATE GRID CORPORATION OF CHINA)
2009-2010
2011-2015
• 298 pilot projects concluded: 4.8 b€ invested.
• 70 GW wind; 16 GW PV
CHINA: RESULTS OF SGGC PROJECTS
Projects concluded:
• National Wind and Solar Power (first phase)
• Generation/Energy Storage/Transmission
Demonstration Project
• Shanghai World Expo Demonstration Project
• Integrated Demonstration Project of Smart
Grid in Sino-Singapore Tianjin Eco-City
Installation of :
• 65 110-750 kV substations (new or
refurbished)
• 243 EV charging stations
• 51 million in-home smart meters
• 28 smart communities, which serve 250000
households
• 23 pilot projects of distribution automation
in urban centers
• 25 provinces with energy consumption
information collection systems
• world's largest single solar roof (30000 sqm)
CHINA: LESSONS LEARNED
Motivations of the good results in network and SG development
RES:
•Acceleration of SG development to efficiently connect renewable powered electricity into the grid.
Timing:
•Advantage of building Smart Grid technology into transmission infrastructure from the outset.
Regulation:
•Facilitation of regulatory systems due to enormous size of state-owned transmission companies.
Economy of scale:
•Economy of scale that helps to reduce costs and spark domestic manufacturing of Smart Grid equipment.
Government support:
•Support of the government to efforts of domestic and foreign Smart Grid manufacturers through subsidies, R&D funding and major lines of credit.
CONCLUSIONS
Prominence
• in each country SG vital part in government strategy to achieve common goals of energy security and low carbon economic growth
Smart meters
• first measures used and deployed: present deployment level depends on development stage of the country
T&D control needs
• similarities in T&D control needs between more and less developed countries in integrating interconnections and distribution network for upgraded or new plants and lines
Advancement
• Japan and South Korea most advanced in SG development thanks to good performance of electricity systems, thus devoting efforts to customer side applications
Government support
• need for governments to put strong efforts and investments in development of SG applications, and mainly in demonstration projects, and that local authorities support start of initiatives
http://www.gridplus.eu/Documents/Deliverables/D%201.5%20-%20Map%20of%20smart%20grids%20initiatives-%20international%20outreach_final.pdf