nserc canadian wind energy strategic network (wesnet)
TRANSCRIPT
WESNet is funded under the NSERC Strategic Network Grants (SNG) Program which focuses on high-level strategic target areas of national importance with the following goals:
Create knowledge and expertise that can most effectively be attained through large-scale multidisciplinary research projects
Cultivate collaboration between university-based researchers and Canadian-based private sector and public organizations
Transfer knowledge and expertise to Canadian-based organizations Train highly qualified personnel (HQP) Provide social and/or economic benefits to Canada
Wind energy research conducted elsewhere has only limited application in Canada where we must deal with such concerns as icing events, heavy snow loads, inadequate wind forecasting techniques, and minimal data on local and regional wind resources. Consequently, an urgent need exists in Canada for a multi-disciplinary team to conduct large-scale, strategic R&D that will catalyze the Canadian wind sector and place Canada at the forefront of international wind energy production, research and innovation.
NSERC Strategic Networks Program Overview
WESNet Overview
The Wind Energy Strategic Network (WESNet) is a 5-year Canada wide research network funded by NSERC and institutional partners. The network is a strong partnership comprised of top researchers from universities across Canada with a broad spectrum of wind related expertise:
Dispatchable Distributed General Networks Wind Power Penetration in Power Systems Nordic Environment Aerodynamics of Wind Turbines Power Electronic Converter System for Direct-Drive Wind Power Systems Power Electronic Converters for Hybrid Wind Power and Energy Storage
The network will train over 150 Ph.D., M.Sc., and undergrad students over the 5 years. As well, the network has the benefit of supporting partners from the wind industry sector, wind institutes and associations, power companies and government.
WESNet Partners
• BC Gov’t.• UVic• BC Gov’t.• UVic
• Helimax• Wind Energy TechnoCentre• Hydro Quebec• ETS• Ecole Polytechnique• McGill• Laval• INRS• UQAC• UQAR
• Helimax• Wind Energy TechnoCentre• Hydro Quebec• ETS• Ecole Polytechnique• McGill• Laval• INRS• UQAC• UQAR
• CanWEA• Ryerson• Waterloo• UofT• UWO
• CanWEA• Ryerson• Waterloo• UofT• UWO
• Atlantic Hydrogen• NBSO• UdeM• UNB
• Atlantic Hydrogen• NBSO• UdeM• UNB
• Manitoba Hydro• UMan• Manitoba Hydro• UMan
• Sask Power• Sask Power
• WEICan• WEICan
• Nalcor• MUN• Nalcor• MUN
All of Canada:• NRCan• Environment Canada
All of Canada:• NRCan• Environment Canada
WESNet Objectives
Wind Energy is the world’s fastest growing energy source. The environmental, economic and social benefits of wind energy are particularly significant today given the mounting evidence linking greenhouse gas emissions and climate change.
Develop innovative solutions to key technical issues facing the wind industry, particularly cold climate issues;
Empower the Canadian wind manufacturing sector to become an international player;
Address the growing needs for highly qualified personnel in the wind energy sector; and
Promote wind energy as an economically competitive and environmentally beneficial supplement to energy portfolios.
Theme 2 Leader
École de technologie supérieure, Montréal, QC
University of Toronto Toronto, ON
Theme 4 Leader
University of Victoria Victoria, BC
Theme 1 Leader
Université de Moncton Moncton, NB
Scientific CommitteePrincipal Investigator
University of New Brunswick Fredericton, NB
Outreach Committee
McGill University Montreal, QC
Board of Directors
• Frontier Power Systems• Helimax• WESNet PI• NRCanada, Observer• Hydro Quebec• Wind Energy TechnoCentre
• NSERC• Can Wind Energy Association• Wind Energy Institute of Canada• New Brunswick System Operator• Rockwell Automation Canada• RISØ DTU
WESNet Organization
Network Manager
University of New Brunswick
Principal Investigator and
Theme Leaders
Theme 3 Leader
Research Overview
WESNet programs include multidisciplinary R&D spanning the entire value chain of wind energy in a Canadian setting involving 17 research projects (35 sub-projects) across 4 thematic areas
•Theme 1: Wind Resource Assessment Wind Resource Assessment and Forecasting in Canadian Climate and
Geography
•Theme 2: Wind Energy Extraction Wind Energy Extraction in Cold Climates, Wind Turbine and Wind Farm
Performance Assessment
•Theme 3: Wind Power Engineering Integration of Wind Power into Power Grids
•Theme 4: Wind Energy Techno-Economics Techno-Economic Modelling and Optimization of Wind Energy Systems
Theme 1: Wind Resource Assessment and Forecasting
Led byUniversité de Moncton
These tools work to eliminate barriers to development of wind industry by improving wind siting and wind power predictions.
Improved wind resource assessment Improved wind forecasting models and
methodology Development of instruments for wind
resource measurements in the Canadian environment
Theme 2: Wind Energy Extraction
Led byÉcole de technologie supérieure
These projects work to address the current underproduction of Canadian wind farms by providing tools to enhancing extraction of energy from wind turbines and farms across Canada
Wind-farm performance assessment in a Canadian setting
Advanced wind-turbine & component design for Nordic conditions
Wind turbine performance testing of large wind farms
Wind energy production forecasting (icing effects)
Theme 3: Wind Energy in Power Systems
Led byUniversity of Toronto
Innovations in this area aim to improve control and protection of wind energy systems integrated into the grid – currently viewed as a major obstacle to large scale deployment in Canada.
Next-Gen Power Electronic Converter Systems (PECS) for wind
Supervisory Control and Power Management of Grid interactive hybrid wind systems
Next-Gen Control/Protection of grid-integrated wind power
Grid integration of wind turbines as distributed generation units and interconnected power systems
Mathematical models and study tools
Theme 4: Techno-Economic Modelling and Optimization of Wind Energy Systems
Led byUniversity of Victoria
These projects lay the groundwork for optimizing wind energy systems in a Canadian setting, advancing its viability from a market and environmental perspective.
Transmission congestion management with wind integration
Optimal bidding strategies for wind generation
Hybrid wind energy systems for remote communities
Economics and environmental assessments of wind integration