CONFÉRENCE 2014 Programme Introduction Letter’s from SmartGrid Canada p.4-5 Agenda (English) p. 2 Grid Resiliency and the Active Customer. p. 8-9 Annexe (Français) p. 3 Speakers p. 10-21 (English) pg 21 - 29 (Français) pg 30 - 39 1 Agenda WEDNESDAY, OCTOBER 1ST, 2014 16:00—17:30 SmartGrid Canada Members’ Meeting 1730—19:00 Opening Reception (Bar Reporter) THURSDAY, OCTOBER 2ND, 2014 8:30—8:45 Welcome & Introduction: Jean Lessard (Hydro-Québec), Alex Bettencourt (SmartGrid Canada) 8:45—9:30 Keynote Speech: Thierry Vandal (President & CEO, Hydro-Québec) with introduction by Thierry Godart (President - Utilities, Schneider Electric) 9:30—10:15 On-line implementation of an Energy Management System for microgrids with renewable generation 10:15-11:00 Break 11:00-11:45 High-efficiency high-reliability Energy Storage System from Hydro-QuébecSony 11:45—13:15 Consumer Research 3.0 – How have consumers’ perceptions of smart grid changed over the last year ? 13:15—14:00 How can energy storage become a grid balancing game changer? 14:00-15:00 Break 15:00—16:00 Mega Session A – Key Learnings from EPRI Smart Grid Demonstration Project 16:00—17:00 Mega Session B – Utility of the Future Case Study: Precision Customer Voltage Control with AMI; Planning, Managing, and Validation AMI-Enabled Customer Conservation Engagement Smart Grid Metrics Pilot and Research Results How Guelph Hydro is using compelling visuals to engage customers and drive energy savings Maintaining Correct Electrical GIS Data A Novel Approach to Loss Mitigation Using Grid Analytics and Energy/Load Balance Surveys FRIDAY, OCTOBER 3RD, 2014 2 8:30—9:00 Keynote Speech: Scott Henneberry (VP — Smart Grid Strategy, Schneider Electric) 9:00-9:45 LTE - Technology For Critical Infrastructure Applications The Need for Interoperability in the Smart Grid Hydro One: Bring Your Own Thermostat Pilot 9:45—10:30 Hydro-Québec’s Special Protection Schemes : Present and Future Scaling up global EV infrastructure through vehicle-grid integration Demand Response: Marrying Energy Management Applications and Operations Research 10:30-11:00 Break 11:00-11:45 Field trial of power electronics low voltage power regulators in a utility distribution system Smart Grid Solutions for the Yukon Electrical Grid Embracing the Future Through Data and the Changing Customer Expectations 11:45—13:15 View from the Top: Lessons learned & the path forward for SmartGrid 13:15—14:00 Case Study of Economic Benefits from Integrated Dynamic Line Ratings 14:00 End of Conference Selection and Placement of Sensors for Smart Grid Applications Consumer-driven potential for new energy markets in the microgrid sector Annexe LE MERCREDI 1ER OCTOBRE 16:00—17:30 Réunion des membres de SGC (sur invitation seulement) 1730—19:00 Réception d’ouverture de la conférence (Bar Reporter) LE JEUDI 2 OCTOBRE 8:30—8:45 Mot de bienvenue et allocution d’ouverture : Jean Lessard (Hydro-Québec), Alex Bettencourt (SmartGrid Canada) 8:45—9:30 Discours principal : Thierry Vandal (Président et PDG, Hydro-Québec) avec une introduction de Thierry Godart (Président – Services publics, Schneider Electric) 9:30—10:15 Implantation en ligne d’un système de gestion de l’énergie pour microréseaux produisant de l’énergie renouvelable 10:15-11:00 Pause 11:00-11:45 Système de stockage d’énergie (SSE) à rendement élevé et à haute fiabilité de HQ-Sony 11:45—1315 Panel d’étude de consommation 3.0 – Comment les perceptions des consommateurs vis-à-vis du réseau intelligent ont évolué depuis un an? 13:15—14:00 Comment le stockage d’énergie peut-il changer la donne dans l’équilibrage du réseau? 14:00-15:00 Pause 15:00—16:00 Mégaséance A – Importantes leçons tirées du projet de démonstration de réseau intelligent de l’EPRI 16:00—17:00 Mégaséance B – Service de l’avenir Étude de cas : Contrôle de la tension de précision pour les clients grâce à l’infrastructure de mesure avancée (IMA); planification, gestion et validation L’engagement de conservation des clients rendu possible grâce à l’IMA Projet pilote sur les paramètres de réseaux intelligents et résultats de la recherche Comment Guelph Hydro utilise des illustrations attrayantes afin de faire participer les clients et de générer des économies d’énergie. L’importance de l’exactitude des données du système de distribution dans le domaine des réseaux intelligents Nouvelle approche pour une atténuation des pertes grâce aux analyses du réseau et aux études d’équilibre énergétique LE VENDREDI 3 OCTOBRE 8:30—9:00 Dicours principal : Scott Henneberry (V.-P. – Stratégie Des Réseaux Intelligents, Schneider Electric) 9:00-9:45 LTE - Technologie pour les infrastructures critiques Applications L’exigence de l’interopérabilité dans les réseaux intelligents Réponse à la demande : Allier les applications de la gestion de l’énergie à la recherche opérationnelle 9:45—10:30 Les régimes spéciaux sur la protection des données d’Hydro-Québec : présent et futur Étendre l’infrastructure mondiale des VE grâce à l’intégration au réseau des véhicules Hydro One : Projet pilote Apportez votre propre thermostat 10:30-11:00 Pause 11:00-11:45 Essai sur le terrain de régulateurs électroniques de puissance sous basse tension dans un réseau public de distribution Solutions de réseau intelligent pour le réseau électrique du Yukon L’avenir prometteur des données et l’évolution des attentes des clients 11:45—13:15 Vision du panel au sommet 13:15—14:00 Étude de cas des avantages économiques à partir des valeurs dynamiques intégrées de ligne Étude de cas des avantages économiques à partir des valeurs dynamiques intégrées de ligne Sélection et positionnement de capteurs pour les applications de réseau intelligent 14:00 Fin de la conférence 3 SMARTGRID CANADA INTRODUCTION LETTER Alex Bettencourt, Managing Director, SmartGrid Canada T his year will mark the fourth annual SmartGrid Canada Conference and our first gathering in Montréal. I would like to extend our deepest appreciation to HydroQuébec for being the host utility this year, and to their executives for imparting their knowledge and guidance. Our founding Executive Director, Ralph Zucker of BC Hydro, had a vision that our annual conference would become a cornerstone of our national association, providing an opportunity for the Canadian industry to come together and share their learnings. Over the years, the conference has grown to be the leading smart grid event in Canada. This year’s event focuses on two major and connected themes: grid resiliency and the active customer. With more devastating natural disasters and customers increasingly dependent on reliable electricity, utilities face pressures to ensure grid resiliency in the face of unexpected disruptions - utilities need to act quickly and efficiently, and keep all stakeholders informed along the way. Smart grid is an opportunity to maintain power and restore it faster. This leads us to the second theme of our conference: the active customer. Having been part of the smart grid transformation since 2009, I have witnessed countless debates, inside utilities and within industry, on how to convince consumers that “the smart grid is good”. Many people think that calling it “smart” tainted the concept, as it created confusion by its association to smart meters. Many people believe that the smart grid should not be invisible to consumers. However, when we look at the technologies that utilities here, and around the world, are looking to deploy, we see more and more consumer involvement in the grid. The transition of the electricity industry from having passive consumers to the active ones is occurring, and will accelerate as solar panel prices fall and electric vehicle adoption ramps up. Therefore, we focused the 2014 consumer research initiative on helping the industry understand how to encourage the “active customer”. We also delved deeper to understand if “smart grid” (as a term) should not be used, and what its meaning and real benefits are. Having engaged one of Canada’s leading research firms to answer these questions, you will get the first opportunity to see the results. We welcome you to the 2014 SmartGrid Canada Conference. We thank you for attending and look forward to a fruitful exchange of ideas. We hope the program we have put together is insightful yet practical, and you have an excellent opportunity to expand your network nationally and internationally. Enjoy! THE SPONSORS THAT MADE IT POSSIBLE: awesense HOST UTILITY 4 PREMIERE SPONSOR LETTER FROM THE CHAIR OF SMARTGRID CANADA Chuck Filewych, Chair, SmartGrid Canada & Partner, Utility Operations, Deloitte W elcome to all who are joining us from around the country and internationally in Montréal for our conference this year. As always, the agenda is stacked with great topics, case studies and many ‘take aways’ for all who are dedicated to improving the electrical network. SmartGrid Canada has been on the forefront of several key themes that you will see in this year’s conference. First, we continue to move beyond the meter and to leverage information in a more important context – modernizing the distribution grid. I have worked with several utilities this year to help develop a Grid Modernization Plan that “brings it all together,” with a drive to earn shareholder value in a deliberate, well-orchestrated manner based on the key priorities of the service area. Executing the plan in context, whether for storm hardening, distributed renewables, or safety, is critical to making investments relevant. Another key focus is on the customer and their expectations. In our annual survey, customers have made it clear they expect the utilities to figure out how to make the grid smarter and to provide benefits such as getting the lights back on (if they have to go off at all). In June of this year, we held a member symposium to examine how to make improvements in restoration and communicate effectively with customers. This means communicating on their channel, which more and more requires well-designed mobile applications and the inclusion of social media. In many respects, the game has just begun with respect to the use of smart grid technologies to improve utility performance and the customer experience. I hope you will join me in the innovative thinking that will drive changes in the coming months. Thank you for taking the time to re-tool and making a difference. 5 SMARTGRID CANADA 2014 ABOUT Board of Directors SmartGrid Canada Member Companies »» Chuck Filewych (Chair), Deloitte Utilities »» Sandy Aivaliotis, Nexans »» BC Hydro »» Michael Owen, University of Ontario »» Fortis BC Institute of Technology »» Enmax »» Ron Zimmer, Continental Automated »» Powerstream Building Association »» Hydro Quebec »» Eric Deschenes, Schneider Electric »» Hydro One »» Ravi Seethapathy, At-large »» John Mulrooney, PowerStream »» André van Dijk, ENMAX Industrial & Commercial »» Alstom »» Giuliana Rossini, Hydro One »» Jean Lessard, IREQ Hydro-Québec »» Kip Morison, BC Hydro »» Vipin Kakkar, GE Digital Energy »» Awesense Wireless »» General Electric »» Nexans »» Schneider Electric »» Siemens RuggedCom »» Vizimax Conference Staff SmartGrid Canada »» Alex Bettencourt, Managing Director Academic »» Iuliana Calin, Communications Director »» British Columbia Institute of Technology »» Charlotte Candea, Analyst »» Continental Automated Building Association »» McGill University Smart Grid Road Show »» Steven Desrochers, Conference Producer »» University of British Columbia »» University of Toronto »» Ryerson University »» University of Ontario Institute of Technology PulledIn PR »» Anne-Marie Enns, Conference Marketer »» Cameron Kuc, Web & Print *Some pg7 icons under cc3.0 courtesy Freepik BECOME A MEMBER OF SMARTGRID CANADA SmartGrid Canada continues to grow and we are always looking for new members who can join in our mandate of promoting a smart grid for the benefit of all Canadians. As a member, you share in exclusive benefits including: »» The opportunity to share information and connect with other industry peers at several events we hold throughout the year. »» Detailed data and insights from the most comprehensive consumer research initiative in Canada dedicated to smart grid and consumer benefits. »» The ability to expand your horizons globally through participation in the Global Smart Grid Federation and international trade missions. If you are interested in becoming a member, please contact our Communications Director, Iuliana Calin, at iuliana.calin@sgcanada.org. 6 OCTOBER 5-7, 2015 HILTON MARKHAM SUITES, MARKHAM, ONTARIO We are pleased to announce PowerStream as our 2015 Host Utility. We look forward to hosting you all at next years conference in Ontario. Please visit our website for updates. 7 2014 Themes GRID RESILIENCY AND THE ACTIVE CONSUMER GRID RESILIENCY: Storms, natural disasters and their impacts are more devastating. We have witnessed increased severity and frequency of weather related events across North America. Hurricane Sandy in New York in 2012, unexpected rainfalls leading to flooding in Calgary and Toronto in 2013, and the worst winter we have weathered in 35 years, are just some examples. Now more than ever it is critical for utilities to be prepared with effective outage management plans and a reliable power infrastructure. 8 GRID RESILIENCY: GRID RESILIENCY: Smart grid is an opportunity to maintain power or restore it faster. Extreme weather can severely affect our economies. Efforts to strengthen the electric grid must focus on three elements: prevention, recovery and survivability. Smart grid technology can be used to predict the impact of storms and restore power remotely. Communication with customers is critical. Keeping in constant communication with customers all along the power restoration process, getting involved in community building and getting the power up fast have become key expectations for utilities. Insights regarding crisis communication best practices and best digital media tools are explored. GRID RESILIENCY: THE ACTIVE CUSTOMER: Customers are more dependent on reliable power, and they expect it. Extreme weather can severely affect our day-to-day lives. As Canadians become more dependent on a safe, reliable and resilient power system, its absence is felt more intensely. In unexpected outages, utilities’ reputations can be adversely affected when they cannot restore power fast enough. Bringing customers into grid planning has become essential. As customers become active participants in producing power and selling it, integrating them into grid planning effectively and efficiently is important, yet challenging. GRID RESILIENCY: THE ACTIVE CUSTOMER: Manage increased political risks. Failing to respond effectively and quickly to power outages creates political risks for the utilities. In the aftermath of Hurricane Sandy in New York, discussions about Long Island Power Authority’s possible privatization occurred. Energy efficiency with a focus on demand response programs is more important. Learn how customer loads can be actively managed for demand response programs, for the benefit of the customers, utilities and the environment. 9 SPEAKERS AT SMARTGRID CANADA 2014 RESEARCH ENGINEER, IREQ HYDRO-QUÉBEC SVP - OPERATIONS, TECH & BUSINESS DEV, NEXANS POWER SYSTEMS ENGINEER SMART GRID, HYDRO-QUÉBEC Chad Abbey Sandy Aivaliotis Adile Ajaja Chad Abbey received his degree in electrical engineering from the University of Alberta in 2002. He received the M.Eng. and Ph.D. degrees from McGill University, Montréal, in 2004 and 2009, respectively. Since 2009, he has worked at the Hydro-Québec Research Institute (IREQ) in the area of integration of smart grid technologies and distributed generation. Among other responsibilities, he forms part of the IREQ distribution test line team and conducts research on various aspects related to the integration of renewable energy. He is an active member of the IEEE and CIGRE. Sandy Aivaliotis has been Senior Vice President of Operations, Technology and Business Development at The Valley Group, Inc. since March 2007. He leads technology development and commercialization of dynamic line ratings for overhead transmission lines to meet the evolving needs of the smart grid. Adile Ajaja is a power systems engineer working for Hydro-Québec since 2008. He has a bachelor’s degree from Concordia University and a master’s degree from McGill University, both in electrical engineering. He contributed to HQD mainly with his involvement in the planning and development of a volt and var control system (CATVAR project), including for the deployment of 800 capacitor banks and the establishment of a distributiontransmission integrated control for reactive power. 10 PROFESSOR & CANADA RESEARCH CHAIR, TROTTIER INSTITUTE FOR ENERGY, POLYTECHNIQUE MONTRÉAL Miguel F. Anjos Miguel F. Anjos is Full Professor and Canada Research Chair in the Department of Mathematics & Industrial Engineering of Polytechnique Montréal, and is the Founding Director of Polytechnique’s Trottier Institute for Energy. He received his degrees from McGill University, Stanford University, and the University of Waterloo. He is Editor-in-Chief of Optimization and Engineering and a member of the editorial boards of several other international scientific journals. He currently serves on the Council of the Mathematical Optimization Society. He is also a member of the Research Review Committee of Mitacs. He received the Meritas Teaching Award from Ecole Polytechnique in 2012. He was awarded a Humboldt Research Fellowship for Experienced Researchers in 2009, and the Queen Elizabeth II Diamond Jubilee Medal for significant contributions to mathematical optimization and its industrial applications. DIRECTOR - INNOVATION TECHNOLOGIES, IREQ HYDROQUÉBEC, JEAN LESSARD PRESIDENT, POWERSTREAM, BRIAN BENTZ CEO - AREVA RENEWABLES, LOUISFRANCOIS DURRET VP - SYSTEM OPERATIONS, ENMAX, ANDRÉ VAN DIJK VP - SMART GRID STRATEGY, SCHNEIDER ELECTRICSCOTT HENNEBERRY SVP - ENGINEERING & CONSTRUCTION, HYDRO ONE, MIKE WINTERS VP - PUBLIC AFFAIRS, VISION CRITICAL, STACEY KINLEY PRESIDENT, POWERSTREAM MANAGING DIRECTOR, SMARTGRID CANADA Brian Bentz Alex Bettencourt Brian Bentz is the President and CEO of PowerStream Inc., a municipallyowned energy company that provides power and related services to more than 365,000 residential and business customers residing or owning a business in communities located immediately north of Toronto and in Central Ontario. Alex Bettencourt is a management consultant with over 12 years of extensive experience in the utility industry, gained through his tenure at a large global management consulting firm, and as Managing Director of his own utilityfocused consulting company, Elletrica. Consulting for various utility clients around North America, Alex has deep expertise in the electric utilities business as a whole and has specialized in Transmission & Distribution Operations, with a focus on control room operations and the Distribution Management Systems. Alex is currently engaged in Canada’s leading smart grid project at Hydro One and has responsibility for its business case and rate case. Mr. Bentz’s strong leadership abilities, combined with his extensive background in the industry, has been key to PowerStream becoming one of Ontario’s leading energy companies. PowerStream has successfully implemented several Smart Grid technologies and has been involved in developing and operating renewable generation assets. This includes building a Micro Grid at the company’s head office in Vaughan andestablishing a solar generation business. PowerStream has also been recognized for its environmental stewardship by a number of prominent organizations including the Ontario Ministry of the Environment. SMART GRID OFFER CREATION DIRECTOR, SCHNEIDER ELECTRIC Trinidad Chardin-Segui Trinidad Chardin-Segui is the Energy Expertise Director at Schneider Electric where she involved in cutting-edge offer creation for Power Systems, Safety, Cyber Security and Energy Efficiency with a particular focus on Energy Storage and Micro Grid Solutions for Utilities. Mrs. Chardin-Segui has 18 years of experience in the electricity sector. VENTEEA PROJECT MANAGER, ELECTRICITÉ RÉSEAU DISTRIBUTION FRANCE Didier Colin Didier Colin – VENTEEA project manager The VENTEEA project bringing together eight industrial partners and two French universities is a member of the IGreenGrid European project. Didier started his career in an engineering consulting firm and the steel industry before joining ErDF where he has held a number of position in distribution network operations and in HSE management before becoming Operations & Customers Manager and then Deputy Customers Supply Director. He also handles local economic development in the Aube region. 11 SPEAKERS AT SMARTGRID CANADA 2014 Smart Grid Lead, Capgemini Global Smart Energy Services Tom Crawford Tom is a member of Capgemini’s Global Smart Energy Services team and is based out of Toronto, Canada. One of Tom’s primary roles with the team is advising and supporting utilities in the design and delivery of utility transformation projects and providing expertise in areas of next generation smart grid architecture and programs, distribution operations and outage management. Tom works with many of Capgemini’s partners in the development of solutions that combine industry leading technology, services and unrivalled experience for a global customer base. prior to starting with Capgemini, Tom had a 32 year career with Hydro One Networks focused on field and grid operations. In his most recent position with Hydro One as the Manager of Distribution Operations at the Ontario Grid Control Centre (OGCC), Tom was responsible for the leading a safe and effective 7 x 24 hour outage management operation. Tom was a key participant on the Hydro One Smart Meter and Smart Grid strategy teams. EVP - GLOBAL SALES & ALLIANCES Rudi Carolsfeld Rudi joined Awesense in 2013 as Excecutive Vice President of Global Sales & Alliances, defining and guiding the sales, marketing, and customer advocacy efforts for the expansion of the company’s portfolio of revenue assurance product and services globally. Rudi has more than 20 years of technical sales and marketing experience through his engagements with two other outstanding companies solving Smart Grid problems that were both market leaders in their respective fields. At Power Measurement Ltd. From 1993 to 2007, Rudi held numerous roles in engineering, marketing and domestic & international sales, holding the title of Sales Director for Europe when the company was acquired by Schneider Electric in 2005. While at RuggedCom Inc. from 2007 to 2013 he had responsibility for sales, holding the position of Vice President Asia Pacific when the company was acquired by Siemens in 2012. VICE PRESIDENT OF SYSTEM OPERATIONS, ENMAX André van Dijk Andre van Dijk is the Vice President – System Operations at EMMAX Power Corporation. Andre has over 20 years’ experience working in electrical utilities, having spent time in the generation, transmission and distribution sectors of the industry, with an emphasis on the transmission and distribution sectors. Andre is registered as a Professional Engineer in Alberta and in South Africa, and as a Chartered Engineer in the United Kingdom. He holds the degrees B.Eng. (Electrical) and MBA (Executive) as well as a Diploma in Datametrics (Computer Science and Information Systems). He joined the SmartGrid Canada Board of Directors in 2014. MANAGING DIRECTOR, ADVANCED ENERGY CENTRE ENGINEER, HYDRO-QUÉBEC Ron Dizy Manuela Dobrescu Ron is the Managing Director of the Advanced Energy Institute at MaRS, focusing on two priorities. First, by fostering the adoption of innovative energy technologies in Ontario and Canada, the Advanced Energy Centre is helping our energy systems become more cost effective, more reliable and more resilient to change and opportunity. The second priority is to leverage and share those successes and experiences into global markets to drive international opportunities for Ontario and Canadian energy innovators. Manuela Dobrescu received a B.Eng. (1989) in Electrical Engineering from Craiova University, Romania and a M.Sc.(2003) from École Polytechnique de Montréal, Canada. In 1989, she joined RENEL – Romania, where she was involved in the control and protection field. She joined Hydro-Québec Research Institute in 2001, where she was involved in the field of power system dynamic performance and is now working for the TransÉnergie Division in Power System Planning and special protection systems design. She is also a member of the Québec Order of Engineers. He was previously the President and CEO of ENBALA Power Networks, a smart grid technology company that offers grid optimization services to utilities and system operators to increase the overall efficiency and reliability of the power system. Ron is viewed as a thought-leader on innovation opportunities that lie within the evolution of the modern power system. Based on his well-respected perspective on the smart grid, he was recruited to the executive committee of the board for the Ontario Energy Association and the Association for Demand Response and Smart Grid. He was also elected chair of the Corporate Partners Committee of the Ontario Smart Grid Forum. His entire career has been focused on bringing new technologies to evolving markets, including spending nearly ten years as a venture capitalist (both as a direct investor and as a pension fund manager), co-founding a company specializing in artificial intelligence and gathering experience in major consulting firms. Ron holds a degree in Industrial Engineering from the University of Toronto. 12 CEO, AREVA RENEWABLES ENGINEER - DIMA SMART GRID PROJECT, HYDRO-QUÉBEC Louis-Francois Durret Daniel Fournier Since December 2011, Louis-François Durret is CEO of the AREVA Renewables Business Group, which encompasses four business units: Offshore Wind, Solar, Bioenergy, and Hydrogen & Storage Daniel Fournier received a Bachelor in Engineering Physics from the Ecole Polytechnique de Montreal in 1980. He later earned a M.Sc. and Ph.D. in Energy INRS Energy in 1985 and 1988 respectively. He worked at the Institut de recherche d’Hydro-Québec (IREQ) from 1990 to 2004 and was involved in various research and development related to expert diagnostic systems (infrared thermography and partial discharges) for Distribution equipments. Since 2004, he worked for Hydro-Québec Distribution as a senior engineer in the field of smart grid applications. Since 2010, he has been representing Hydro-Quebec Distribution as advisor for the EPRI Smart Grid Demo Host Site Project. He is also in charge of the Distribution Automation Telecom modernization project. He is a member of the Order of Engineers of Quebec. Louis-François Durret started his career in the Pechiney Group. He was Vice President of Comurhex from 1990 -1993. He then joined COGEMA and held various responsibilities in international business development. In 1999, he was appointed Vice President of Finance, in charge of the organization and cost optimization of COGEMA. In 2001, he created the AREVA Audit Department and, in 2004, became Executive Vice President Head of the Enrichment Business Unit of AREVA. From 2008 to 2011, he was Executive Vice President of the Fuel Business Unit of AREVA. Louis-Francois has a background in civil engineering and economics. PRESIDENT OF UTILITIES, SCHNEIDER ELECTRIC Thierry Godart Thierry Godart is President of the Utility Segment of Schneider Electric. The Schneider Electric Utility portfolio includes automation technology and information technology for the generation and distribution of electricity. Under Thierry’s leadership, Schneider Electric offers products, systems and complete solutions to help utilities around the world transform their processes and modernize their assets to adapt to the new energy paradigm with smart grids, renewable generation and distributed resources like microgrids. Thierry has more than 25 years of experience in the application of technology to the power industry. He joined Schneider Electric from Siemens and has held several senior management positions at Areva T&D, ABB and General Electric. Thierry earned his Ph.D. in Electrical Engineering from the Georgia Institute of Technology in Atlanta, USA. He is a graduate from the Ecole Supérieure d’Electricité (SUPELEC) in Paris, France. Thierry resides in the US with his wife Pascale and two children. PROFESSOR & CANADA RESEARCH CHAIR, TROTTIER INSTITUTE FOR ENERGY, PO CHAIRMAN, CTO AND CO-FOUNDER, ENERNEX AND IEEE FELLOW Erich W. Gunther Erich W. Gunther is Chairman, CTO and Co-Founder of EnerNex, where he helps clients define their strategic direction in basic R&D, technology, and product development. Erich has 30 years of experience in the design and development of innovative solutions to a wide array of power system problems, most notably in ways to take advantage of communications networks and technology to improve the efficiency, operating practices, and security of the electric power system. Since 2004, Erich has been a member of the U.S. Department of Energy (DOE) GridWise Architecture Council, serving as Chairman from 2010-2012. He also serves on the IEEE PES Governing Board as member-at-large for Smart Grid, is past-chair of the PES Intelligent Grid Coordinating Committee, and is a member of the IEEE Smart Grid Steering Committee. Erich also serves on the Smart Grid Interoperability Panel (SGIP) board of directors, the UTC Smart Networks Council board, and is the Chairman of the Board of the Utility Communications Architecture International Users Group (UCAIug). Erich received his BSEE from Gannon University in 1980 and his Master of Engineering degree in Electric Power Engineering from Rensselaer Polytechnic Institute in 1984. 13 SPEAKERS AT SMARTGRID CANADA 2014 VP — CORPORATE & EMPLOYEE RELATIONS, IESO, TERRY YOUNG DIRECTOR- ETO OPERATIONS AND PROJECTS, DUKE ENERGY Jason Handley Jason Handley is Director of Operations and Projects in the Emerging Technology Office at Duke Energy. Jason has over 18 years of electric utility experience specializing in the smart grid, distribution automation, and operations management. He is responsible for the day-to-day operations and pilot projects in the research and development group at Duke. His team installs, tests, and evaluates new technologies for the grid. Jason works with his business unit stakeholders to transfer new technologies into the mainstream business. He is a registered professional engineer and received his electrical contractors unlimited license in 2009. 14 PRESIDENT - UTILITIES, SCHNEIDER ELECTRIC, THIERRY GODART PRESIDENT & CEO, HYDRO-QUÉBEC, THIERRY VANDAL MANAGING DIRECTOR, SMARTGRID CANADA, ALEX BETTENCOURT VP OF SMART GRID STRATEGY, SCHNEIDER ELECTRIC Scott Henneberry Scott Henneberry has 30+ years of experience in the electrical industry. During the first 20 years of his career, he worked for Siemens in both Raleigh, NC and Orlando, FL. This period encompassed various Marketing and Operational management positions in the Switchgear and Power Quality fields, including Marketing Director for the Substation Automation and Protective Relaying Division. The next five years were spent as an Executive Officer at Power Measurement, Inc., a small high-tech company in the electrical industry bringing turnkey hardware and software solutions to utility and industrial customers in the Power Monitoring field. Here, he was responsible for all aspects of Marketing, Business Development, Strategy and M&A. Since acquisition of PMI by Schneider Electric in 2005, Mr. Henneberry has focused on the strategic aspects of the Power Monitoring & Control business for Schneider, and most recently has been assigned to the Global Corporate Strategy Department of Schneider Electric, where he is responsible for defining and coordinating the implementation of the Schneider Electric Smart Grid Strategy. RESEARCHER - POWER SYSTEMS AND MATHEMATICS, IREQ HYDRO-QUÉBEC Annissa Heniche Annissa Heniche (M’02) received the B.Eng. degree in electrical engineering from École Nationale desIngénieurs et Techniciens d’Algérie in 1985 and the Master’s and Ph.D. degrees from Paris 11 University,Paris, France, in 1992 and 1995, respectively. She joined the Hydro-Québec Research Institute, in 2001, where she is involved as a researcher in the Power System and Mathematics Department. Her research activities are in the field of power system dynamic performance, SPS and control systems design. Dr. Heniche is a member of IEEE Power Engineering Society and also a member of the Québec Order of Engineers. INDUSTRY & SOCIETY UNIT, ERICSSON VP NORTH AMERICA - UTILITY INNOVATIONS & INFRASTRUCTURE SOLUTIONS, ALSTOM S&T ADVISOR, NRCAN / CANMET ENERGY Manish Jindal Lawrence Jones Jen Hiscock Mischa Steiner-Jovic is the founder and CEO of Awesense. Mischa brings product development and management experience in the embedded electronics, wireless, and industrial sectors. Prior to starting Awesense, Mischa held various engineering, consulting and project management roles in companies such as ECO Fuel Systems, Newpoint Thermal and the Okanagan Research & Innovation Centre. Dr. Jones joined Alstom Grid Inc. in 2000 and is currently North America Vice President for Utility Innovations and Infrastructure Resilience, serving on the company’s global business development team for smart grids and smart cities consulting. He was previously Vice President for Regulatory Affairs, Policy and Industry Relations. He also served as Director of Strategy and Special Projects, Worldwide, in the Network Management Systems business and led its global Renewable Energy Integration activities. In September 2010, Dr. Jones was appointed by the United States Department of Commerce’s National Institute of Standards and Technology (NIST) to a three-year term on the 15-member Federal Smart Grid Advisory Committee. In 2013, he was reappointed to serve another three-year term, which ends in 2016. Jen Hiscock works with the CanmetENERGY research labs at Natural Resources Canada on smart grid development and the integration of renewable and distributed energy resources. She represents Canada as a national expert, and facilitates knowledge-sharing and collaboration on smart grid projects in Canada as Manager of the Canada Smart Grid Action Network. With engineering and business degrees, Jen studies the dynamics of innovation surrounding the technology and policy development of smart grid and distributed energy resources. Mischa is a frequent speaker and panelist at industry conferences, university programs and government events on the smart grid and the innovation potential of technology to transform business and society. He also represents Awesense as a voting and participating member within the Smart Grid Interoperability Panel (SGIP) led by National Institute of Standards and Technology (NIST). Dr. Jones is a recognized advocate for the use of smart, clean, and renewable energy technologies enabled by resilient infrastructures around the world. He is Editor of the new book “Renewable Energy Integration: Practical Management of Variability, Uncertainty and Flexibility in Power Grids.” He received the Renewable Energy World Network 2012 Excellence in Renewable Award for Leadership in Technology and the Utility Variable Generation Integration Group 2012 Achievement Award. Dr. Jones received his MSc, Licentiate and PhD degrees in Electrical Engineering from the Royal Institute of Technology in Stockholm, Sweden. He is a Senior Member of the IEEE. CEO & FOUNDER - AWESENSE SENIOR VICE PRESIDENT, GREENLOTS Mischa Steiner-Jovic Lin-Zhuang Khoo Mischa Steiner-Jovic is the founder and CEO of Awesense. Mischa brings product development and management experience in the embedded electronics, wireless, and industrial sectors. Prior to starting Awesense, Mischa held various engineering, consulting and project management roles in companies such as ECO Fuel Systems, Newpoint Thermal and the Okanagan Research & Innovation Centre. Lin-Zhuang Khoo is Senior Vice President at Greenlots, a global provider of open standards-based technology solutions for electric vehicle (EV) networks and grid management. Mr. Khoo oversees product and market development, operations, and global sales for the company, most recently spearheading the company’s design, commercialization, and launch of its SKY cloud-based software and mobile platform for EV charging stations. Mischa is a frequent speaker and panelist at industry conferences, university programs and government events on the smart grid and the innovation potential of technology to transform business and society. He also represents Awesense as a voting and participating member within the Smart Grid Interoperability Panel (SGIP) led by National Institute of Standards and Technology (NIST). During his tenure at Greenlots, he has brokered multimillion dollar deals across ten countries. Lin forges partnerships with utilities, site hosts, governments, automakers, and technology partners to deliver end-to-end solutions for Greenlots’ next generation charging platform. A thought leader in the electric vehicle charging industry, Mr. Khoo is an active voice in the policy dialogue around EV charging technology. Prior to joining Greenlots, Lin led technical business operations for Conergy Renewable Energy Singapore where he developed and executed market entry strategies for the Asian solar and telecom markets. He has also served as a research analyst at Dow Jones VentureOne. Lin holds a Bachelor of Science degree in Economics from Purdue University and is trilingual, speaking English, Malay, and Mandarin. VICE PRESIDENT - PUBLIC AFFAIRS, VISION CRITICAL Stacey Kinley Stacey currently runs the Public Affairs team at Vision Critical – the world’s leading provider of Insight Community technology and solutions. Stacey brings more than 15 years of marketing, communications and public opinion research experience working with some of North America’s biggest brands and organizations. She takes great pride in the relationships that her team has built with energy sector clients including Direct Energy, the IESO and Epcor as well as leading organizations across a variety of sectors such as Aeroplan, Rogers, Metrolinx, and the Toronto 2015 Pan Am Games. Her strong background in brand and marketing research allows Stacey to bring fresh insights and methodological rigour to public sector and not-for-profit projects. She is also a RIVAtrained focus group moderator and seasoned interviewer who packs a wide range of online, offline and mobile quantitative and qualitative techniques in her toolkit. Stacey’s mission is to provide well-informed, strategic, datadriven guidance and insights that are rooted in sound research practice. 15 SPEAKERS AT SMARTGRID CANADA 2014 VP – RESIDENTIAL ENERGY SOLUTIONS, SCHNEIDER ELECTRIC Yann Kulp Yann leads the team that created the Wiser Home Management System, focusing on providing energy efficient, reliable & consumer-centric solutions for utilities, builders and contractors. He is also the strategist for connected & efficient home topics for North America. Prior to this role he was based at the Schneider Electric HQ in Paris as Director of Communication for the LifeSpace business EMEAS (65 countries) driving a significant transformation to consumer and digital tools. Before joining Schneider Electric in 2004 he spent 12 years with Legrand in Europe and USA in sales & product management. After undergraduate studies in France, he completed his MBA at Syracuse University. He is now based in Chicago. PRÉSIDENT-DIRECTEUR GÉNÉRAL CHEZ ASSOCIATION DE L’INDUSTRIE ÉLECTRIQUE DU QUÉBEC ENGINEER, MILSOFT Daniel Laplante Brian A. Lassiter received the B.Sc. degree in Computer Science from North Carolina State University, Raleigh, North Carolina in 2003. He gained experience in distribution system planning studies, protection studies, system modeling, and utility integration while working at Booth & Associates Inc. in Raleigh, NC, for three years as an Engineering Technician. He joined Milsoft Utility Solutions Inc. Abilene, TX, in 2004 as an Engineering Support Specialist, was Director of Engineering analysis for 5 years, and currently acts as the Technical Sales Engineer. Throughout his career, Mr. Laplante has served as advisor to several ministers, as economist, as press secretary and chief of staff. As a general manager and managementconsultant, he then promoted the development and business interests of several associations and government enterprises. In his role as Director, Economic Services & Government Affairs of l’Association des professionnels de la construction et de l’ habitation du Québec, he contributed his experience to lobby provincial and federal governments. Mr. Laplante is quite familiar with the challenges of associations and very passionate about the economic development issues in Quebec. Brian Lassiter DIRECTOR - INNOVATION TECHNOLOGIES, IREQ HYDROQUÉBEC PRODUCT MANAGER - DATA INSIGHTS & BUSINESS INTELLIGENCE, OPOWER CHIEF ENGINEER, CENTRAL LINCOLN PUD Jean Lessard Meghann Lomas Jean Lessard began his career with Hydro-Québec some 25 years ago as a scientist at IREQ. In 2001, he became Manager of Automation and Measurement Systems. In his capacity as Director – Technology Innovation since January 2008, Mr. Lessard oversees the Institute’s innovation portfolios with respect to generation, transmission and distribution of electricity. The Smart Grid Innovation Program is one of Hydro-Québec’s major innovation initiatives under his leadership. Meghann Lomas is a Product Manager in Data Insights and Business intelligence at Opower. Opower combines a cloud-based platform, big data, and behavioral science to help utilities around the world reduce energy consumption and improve their relationship with their customers. Meghann has a M.S.E. and Ph.D. from the University of Pennsylvania and a B.S.E from Princeton University, all in mechanical engineering. Bruce Lovelin is Chief Engineer and Manager, Systems Engineering. Bruce led the implementation of the AMI and VVO projects, and was awarded a US DOE Smart Grid Investment Grant for Central Lincoln’s Smart Grid project. Mr. Lessard holds a Bachelor’s degree in electrical engineering from Université Laval. He was appointed to the Board of Directors of SmartGrid Canada in 2011. He is also a founding member of SERI – Smarter Energy Research Institute in partnership with IBM Watson and is a member of the Governance Committee. 16 Bruce Lovelin GENERAL MANAGER - GRID AUTOMATION, GE DIGITAL ENERGY Juan Macias Juan Macias is General Manager of Grid Automation for GE’s Digital Energy business. Digital Energy is an industry leading provider of advanced products and services that modernize the grid from the power plant to the power consumer. In his role, Juan leads protection & control, substation automation, industrial communications and monitoring & diagnostics. Juan previously served as General Manager of Digital Energy’s Protection & Control business. He joined GE in June 2005 as Product General Manager for GE Consumer & Industrial’s electrical distribution construction products group. Prior to joining GE, Juan worked for ABB Inc. for 15 years where he held positions in sales, marketing, product and general management in both the U.S. and Mexico. Juan holds a BSc Degree in Industrial Engineering from New Mexico State University and an MBA from Rollins College in Florida. SR. CDM STRATEGIC PLANNER, HYDRO ONE VP - DISTRIBUTION ELECTRICAL SYSTEMS, GREATER SUDBURY HYDRO CANADIAN SMART GRID SOLUTION LEADER, IBM CANADA Mernaz Malozewski Brian McMillan Bruce Orloff Mernaz Malozewski is an Acting Senior CDM Strategic Planner at Hydro One. She received her Bachelor of Business Administration from Ryerson University and is a Project Management Professional. Mernaz’s focus is currently on implementation of Energy Conservation and Demand Management pilots, leveraging Hydro One’s Smart Grid. Mernaz has held a number of leadership positions in Hydro One for the past 25 years. In her previous role as Manager of Project Reporting for Major Engineering and Construction projects, she won the President’s Award for Excellence in 2010 for her work in developing implementation processes for Distributed Generation Projects. Brian McMillan has enjoyed more than 34 years in the Ontario electrical distribution sector. A Professional Engineer, he has had the pleasure of working with some of the best and brightest in the industry while employed at Ontario Hydro, North Bay Hydro and Greater Sudbury Hydro. Brian’s career has included experiences in customer service, regulatory affairs, operations and engineering. Bruce is the Canadian Smart Grid Solution Leader in IBM’s Energy & Utilities practice with over 25 years experience in the utilities and telecommunications industries. He has extensive knowledge and experience managing, developing and implementing advanced solutions in competitive electricity and telecommunications de-regulated markets globally. Bruce is also one of the founding members and past board member of SmartGrid Canada, a national organization dedicated to promoting a more modern and efficient electricity grid for the benefit of all Canadians through education, collaboration, promotion, and action. Bruce has also published articles and presented at numerous key industry conferences. VP - POWER DELIVERY & UTILIZATION, EPRI Mark McGranaghan Mark McGranaghan is Vice President of Power Delivery and Utilization for the Electric Power Research Institute (EPRI). He leads the teams responsible for EPRI’s research involving technologies, systems, and practices for power delivery systems from the generator to the plug and for the devices and technologies that use the electricity. From 2003 to 2010, McGranaghan was Director of Research in the Distribution and Smart Grid areas for EPRI. Priorities during this period were restructuring of the distribution research program, coordinating EPRI research in the smart grid area with government and industry efforts, creating the smart grid demonstration initiative, and increasing the technical strength of the EPRI research team. Prior to joining EPRI, McGranaghan was Vice President at Electrotek Concepts (19982003), where he helped develop a new business area around power quality and power system studies into a world leader. From 1978 to 1988 McGranaghan was a Manager at McGraw-Edison/Cooper Power in Canonsburg, Pennsylvania. He managed studies for the utility industry and internal studies for application of McGraw-Edison products (power transformers, circuit breakers, arresters, distribution switchgear, capacitors) and directed a wide range of power system studies. McGranaghan has Bachelor of Science, Electrical Engineering and Master of Science, Electrical Engineering degrees from the University of Pittsburgh. He has taught seminars and workshops around the world and is very active in standards development and industry activities (IEEE, CIGRE, IEC). He is a member of the NIST Smart Grid Interoperability Panel Governing Board and he is the Vice-Chairman of the CIRED U.S. National Committee. VP – STRATEGIC PARTNERSHIPS, CEIVA ENERGY Wannie Park Wannie Park serves as Vice President of Strategic Partnerships and Business Development at CEIVA Energy, a smart grid solutions company that helps utilities capitalize on smart meter investments to engage customers, implement demand response programs and comply with regulations. Wannie manages partnerships with utilities, regulators and technology partners to implement CEIVA’s integrated ecosystem of hardware, software and creative services for the Home Area Network (HAN) and make it easy for consumers to reduce energy use. Prior to this role, Wannie spent 10 years in corporate development, private equity and consumer electronics. He holds a MS in Organizational Development from USC. SMART ENERGY, HYDROQUÉBEC Christian Perreault Christian Perreault joined HydroQuébec in 1985 as a HydroQuébec Distribution electrical engineer. He also completed a Masters degree in engineering management. Now, he is gradually shifting from a technical job toward a manager job. In the last five years, Christian has worked on a variety of projects, including distribution automation, volt and var control systems, green house gas reduction evaluations, EV charging station, telecommunications for the smart grid, and energy storage. 17 SPEAKERS AT SMARTGRID CANADA 2014 2014 Speakers What sets the SmartGrid Canada conference apart is its focus on developing a well-curated program. We invite each of our speakers based on their industry knowledge as well as their acumen as a speaker. The core of the conference is our speakers and we want to thank them for the knowledge and energy that they bring to the conference. PRESIDENT, JP PINARD CONSULTING DIRECTEUR AND SUPERVISOR OF NETWORK PLANNING DIRECTOR - GRID INNOVATIONS, DVI PH.D. CANDIDATE, MCGILL UNIVERSITY JP Pinard André Potvin Phil Powell Michael Ross Dr. JP Pinard is a researcher on the development of community wind and other renewable energy sources in the Yukon and Canada’s North. JP is a professional engineer (BSc. mechanical engineering at University of Waterloo, 1992) and a PhD recipient (University of Alberta, 2008) on the subject of wind climate in the Yukon’s mountainous terrain. Since 1996, he has measured, assessed, and reported on the wind energy potential in many communities across northern Canada. JP’s primary focus is to help build a renewable energy future for the Yukon and Canada’s remote communities. André Potvin is Director of Distribution Network Standards and Planning at Hydro-Québec. In this role, André is responsible for the technical standards of the distribution network, including engineering, maintenance and construction methods, safety, automation, operation and vegetation management related to the network. In sum, he performs the asset management of the distribution method. Phil Powell is Director of Grid Innovations at DVI, and a near 40 year veteran of Dominion. He has worked in System Protection, Power Supply, Transmission Planning, and System Reliability. Phil has authored and presented at numerous technical conferences in the utility industry. Phil is an Electrical Engineer. Michael Ross received his M.Eng. degree from McGill University, Montréal, Canada, in 2010 and his B.A.Sc. degree in Electrical Engineering from the University of Toronto, Toronto, Canada, in 2008. He has worked at CEATI International as a technical editor between 2009 and 2010, and has been a Ph.D. Student Intern at the Hydro-Québec Research Institute (IREQ) since 2011. He is currently a Ph.D. candidate in electrical engineering at McGill University in the area of renewable energy and Microgrid control, and is an active researcher in the NSERC Smart Microgrid Network. 18 André has held this position since 2012, but has a long history in technical management and maintenance at Hydro-Québec Distribution. His background is in electrical engineering, and he is a member of the Ordre des ingénieurs du Québec. DIRECTOR - STRATEGY & CONSERVATION, HYDRO ONE Giuliana Rossini Giuliana Rossini is Director – Customer Strategy & Conservation Officer at Hydro One, responsible for developing a corporate-wide customer strategy that will result in Hydro One achieving its customer satisfaction goals and improve the customer experience. Giuliana is also responsible for developing new and innovative Conservation and Demand Management (CDM) initiatives that prepare for customers’ future needs. In her over 20 years at Ontario’s largest electricity utility, Giuliana has held key roles in Asset Management, Business Controllership, Corporate Finance and Strategic Planning, with a particular focus on Finance. In 2005, Giuliana transitioned to Energy Management and successfully developed Hydro One’s CDM suite of programs. She has since directed the design, development and delivery of both demand response and energy efficiency programs, across industrial, commercial and residential customer segments. Giuliana is on the Board of Directors for the Canadian Energy Efficiency Alliance. She holds an Hon. B.Com. from McMaster University, and a C.P.A. C.M.A. professional accounting designation. PRESIDENT & CEO, AZTECH ASSOCIATES Geoff Salter Geoff P. Slater, President and CEO of Aztech Associates Inc., is a driven innovator and entrepreneur. After founding Aztech in 1993 to commercialize electronic products for such clients as Schlumberger, General Motors and the Biomedical Engineering Unit at Queens University in Kingston, he led the company to develop a family of rugged asset tracking and monitoring devices for the resource extraction and shipping sectors, and in 2005, a clean technology division specializing in energy CDM products for the home. Aztech has rapidly become one of North America’s leading designers and manufacturers of simple-to-use smart grid accessories. CTO, GRIDCO SYSTEMS James Simonelli Jim Simonelli is Chief Technology Officer of Gridco Systems, responsible for the company’s technical vision and strategy. Previously, Jim served as SVP and CTO of American Power Conversion (APC), a Schneider Electric company and global provider of end-to-end AC and DC-based back-up power products and services. At APC, Jim also held senior management roles as VP, System and Platform Architecture and VP, Solutions Delivery Group. Jim holds 10 U.S. patents and is a member of IEEE, International Council on Systems Engineering (INCOSE), and the System Dynamics Society. He received his BSEE and MSEE degrees from Worcester Polytechnic Institute. PRESIDENT AND CEO, HYDRO-QUÉBEC Thierry Vandal Thierry Vandal has been involved in the North American energy sector for more than 30 years, having worked in oil, petrochemicals and natural gas. He joined Hydro-Québec in November 1996 and was named President and Chief Executive Officer in April 2005. He had served as Vice President – Strategic Planning and Business Development, and then in 2001 became President of Hydro-Québec Production. Mr. Vandal holds an engineering degree from Polytechnique Montréal and an MBA from HEC Montréal. In 2007, the Université de Montréal awarded him an honorary doctorate to underscore his outstanding professional contribution to the energy sector. DR. LAWRENCE JONES, VP NORTH AMERICA - UTILITY INNOVATIONS & INFRASTRUCTURE RESILIENCE, ALSTOM RON DIZY, MANAGING DIRECTOR, ADVANCED ENERGY CENTRE Mr. Vandal is Chairman of the Board of the Société d’énergie de la Baie James. He sits on the boards of The Conference Board of Canada, HEC Montréal, and McGill University, where he also acts as President of the Finance Committee. In 2012, Mr. Vandal was named Canadian Energy Person of the Year by the Energy Council of Canada. This award pays tribute to Canadian leaders who have made a significant contribution to the energy sector, either on a national or global scale. 19 SPEAKERS AT SMARTGRID CANADA 2014 GLOBAL SMART GRID SEGMENT LEADER MEDIUM VOLTAGE PRODUCTS, ABB DIRECTOR - METERING & CONSERVATION, GUELPH HYDRO Doug Voda Matt Weninger As Global Segment Leader for Medium Voltage Smart Grid, at ABB, Doug is actively involved in strategic and tactical activities delivering solutions for utilities globally. Doug joined ABB in 2002, and has over 18 years of experience in digital electronics design and assembly, and transmission tower design and construction experience. Prior to joining ABB, Doug was Vice President of Sales and Marketing, Substation Systems Engineering, Manufacturing at Schweitzer Engineering Laboratories. Doug holds a B.Sc. degree in Mechanical Engineering from the University of Nebraska, and an MBA from HBU in Houston Texas. He currently makes his home in Lake Mary Florida. Mr. Weninger has more than 20 years of electrical utility engineering and operating experience at Guelph Hydro Electric Systems Inc. A graduate of the University of Waterloo, he has been a licensed Professional Engineer since 1990. Mr. Weninger currently has responsibility for metering, including the smart metering initiative, supervisory control and data acquisition (SCADA) and related field communications technology, as well as the development and delivery of the Company’s portfolio of Conservation and Demand Management programs. Mr. Weninger has been actively involved in the development of Guelph Hydro’s smart grid plan, and serves on various industry committees and working groups including Ontario’s Green Button Pilot Project Working Group. SVP - ENGINEERING & CONSTRUCTION, HYDRO ONE Mike Winters Mike leads engineering, project delivery and construction work for the Corporation. His mandate is to deliver the programs and projects necessary to maintain the core service that Hydro One provides to its customers across the province. Project delivery is accomplished by leveraging both internal and external expertise to design and construct using standard and repeatable methods that lead to safe, reliable and cost effective operations of those assets. Previous to his current role, Mike was the Senior Vice President and Chief Information Officer, where he led Hydro One’s Information Systems and Telecom groups spanning both Corporate and Power System. His work program consisted of core internal and outsourced operations as well as major project implementation with a focus on business process, data, systems, integration, network and security. Prior to joining Hydro One, Mike held management positions with systems integration firms where he focused on customer systems, business process management, application architecture and project delivery. Mike holds a bachelor’s degree in Mechanical Engineering from Queen’s University in Ontario, Canada. 20 T&D RESEARCH ENGINEER, NRCAN Steven Wong Steven Wong is a T&D Research Engineer with the Grid Integration of Renewable and Distributed Energy Resources Group at CanmetENERGY, Natural Resources Canada since 2010. Steven obtained a PhD in Electrical Engineering from University of Waterloo in 2009. His research background and interests lie in optimization and power system planning and modelling, including distributed generation; distribution and transmission systems; sustainable energy resources and storage; and innovative energy markets. He is currently working in the areas of smart grid development, demand response, remote communities, and renewable energy integration. DIRECTOR - CUSTOMER/CORPORATE SERVICES AND CONSERVATION, PETERBOROUGH UTILITIES David Whitehouse David Whitehouse is in his 30th year in the electric and water utility industry. David has held many positions in many roles from technical field work to Customer Service and Billing with Scarborough Utilities and then Toronto Hydro. In his current role as Director of Customer and Corporate Services and Conservation Officer with Peterborough Utilities, David has been instrumental in the integration of Smart Metering, time-of-use billing and leading edge Conservation and Customer engagement programs. David participates in many working groups in the energy industry, including the Ontario Power Authority Residential Working Group. VICE PRESIDENT OF CORPORATE & EMPLOYEE RELATIONS, IESO Terry Young Terry Young is Vice President – Corporate and Employee Relations, responsible for managing the IESO’s many external and internal relationships. His accountabilities include human resources, corporate strategy, government and regulatory affairs, customer relations, communications and marketplace training. He is responsible for the IESO’s stakeholdering processes, including the Stakeholder Advisory Committee, which provides advice and recommendations on market development and planning decisions. Mr. Young also acts as the IESO’s representative on the Ontario Smart Grid Forum. A well-known spokesperson with over 30 years of experience in the electricity industry, Mr. Young started his career as a journalist with Canadian Press-Broadcast News. He also serves as President, Ontario Branch of the Kidney Foundation of Canada. THANKS TO OUR SPONSORS Host Utility Premiere Sponsor Platinum Gold Silver awesense Bronze Media Sponsors 21 Thursday October 2 8:30— 8:45 MONTRÉAL A-B Welcome & Introduction: Jean Lessard (Hydro-Québec), Alex Bettencourt (SmartGrid Canada) People in this session: ⇓ »» JEAN LESSARD (DIRECTOR OF INNOVATION TECHNOLOGIES, IREQ HYDRO-QUÉBEC) »» ALEX BETTENCOURT (MANAGING DIRECTOR, SMARTGRID CANADA) »» CHUCK FILEWYCH (CHAIR, SMARTGRID CANADA) 8:45 — 9:30 MONTRÉAL A-B Keynote Speech: Thierry Vandal (President & CEO, Hydro-Québec), with introduction by Thierry Godart (President - Utilities, Schneider Electric) People in this session: ⇓ »» THIERRY GODART (PRESIDENT - UTILITIES, SCHNEIDER ELECTRIC) »» THIERRY VANDAL (PRESIDENT & CEO, HYDRO-QUÉBEC) 9:30 — 10:15 STE-HELENE 101 102 Case Study: Precision Customer Voltage Control with AMI: Planning, Managing, and Validation With the imminent integration of large amount of renewable energy through distributed generation, the detrimental effects of such a high penetration of volatile resources can be mitigated through a Microgrid Energy Management System (EMS). The EMS is implemented as a Multi-Objective Optimization (MOO) to optimize the multiple objectives and benefits that can accompany a microgrid with renewable generation, such as reduced power fluctuations, reduced peak power, minimized cost, improved reliability, and reduced greenhouse gas emissions. This presentation outlines the implementation of the MOO in an on-line hierarchical Multi-Agent System (MAS) controller, as well as details the performance as compared to the base-case off-line controller. The MAS controller is implemented with distributed intelligence, as well as a central dispatching agent, so the Microgrid is able to respond quickly to the highly fluctuating resources. Particular challenges of the on-line hierarchical controller that need to be addressed are identified, as well as proposed solutions with the goal of reducing communication requirements and computational complexity. The final product of this work is a Microgrid controller that can be implemented in an on-line system that addresses barriers and facilitates an increased penetration of distributed renewable energy within the Smart Grid framework.⇓ Central Lincoln People Utilities District in Newport Oregon has implemented a unique approach for Voltage Optimization (VO) utilizing near real-time premise level voltages with SCADA control to drive significant customer savings and utility benefits. With recent advances in AMI technology and communications, VO delivers significant improvements over traditional CVR. Central Lincoln’s VO methodology uses the AMI voltages to optimize the operation of the distribution system at the customer meter interface using a novel adaptive circuit control technique which minimizes the impact on AMI communications. The method uses linear voltage optimization to accomplish the Volt/Var/ CVR control. Central Lincoln’s objective is to constantly improve its customer reliability while reducing customer costs. The method enables a granular planning process that identifies specific reliability issues at the customer voltage level. These “fingerprints” of customer level issues provide a clear basis to improve reliability and reduce costs. In addition a novel method of applying paired t statistical analysis to the control area allows continuous tracking and validation of the voltage improvements while measuring the significant reductions in energy use per customer. This presentation will identify lessons learned, best practices, and actual results from the first year of operation. People in this session:⇓ »» CHAD ABBEY (RESEARCH ENGINEER, IREQ, HYDRO-QUÉBEC) »» MICHAEL ROSS (PH.D. CANDIDATE, MCGILL UNIVERSITY) 22 MCGILL On-line implementation of an Energy Management System for microgrids with renewable generation People in this session:⇓ »» BRUCE LOVELIN (CHIEF ENGINEER, CENTRAL LINCOLN PEOPLE UTILITIES DISTRICT) »» PHIL POWELL (DIRECTOR - GRID INNOVATIONS, DVI) VIGER 103 AMI-Enabled Customer Conservation Engagement How do we ensure a high rate of customer adoption and retention in conservation programs, and long-term incremental increases in conservation success? Peterborough Utilities Group (PUG) and Aztech Associates Inc. will share their story of the successful partnership (Aztech, PUG and Elster), which has enabled a successful roll out of the peaksaver PLUS Program in Peterborough, Ontario. Their story is one of entrepreneurial vision and determination that will challenge LDCs to envision conservation user interface beyond web portals, phone apps and suboptimal in-home energy displays. The presentation will speak to how the functionality of the AMI connected Aztech In-Home Display enables customer conservation engagement and customer satisfaction with both the utility and government conservation programs. The Peterborough deployment of over 9,000 Aztech In-Home Displays illustrates how the framework of a current conservation program can be used to develop an initiative to meet an LDCs unique challenges to maximize conservation outcomes, customer satisfaction and program deployment savings. People in this session:⇓ »» DAVID WHITEHOUSE (DIRECTOR – CUSTOMER/CORPORATE SERVICES AND CONSERVATION, PETERBOROUGH UTILITIES) »» GEOFF SALTER (PRESIDENT & CEO, AZTECH ASSOCIATES) 11:00 — 11:45 STE-HELENE 201 High-efficiency high-reliability Energy Storage System from Hydro-QuébecSony Hydro-Québec (HQ) is partnering with Sony for the production of a high-efficiency high-reliability Energy Storage System (ESS). This turnkey solution will include the battery system, the power conversion unit, transformers, protective devices and the control software and algorithms. The first prototype is under development and will be installed and tested at HQ’s research institute in the 4th quarter 2014. ESS are becoming part of the grid landscape, as more flexibility and energy managing alternatives are required for optimal network planning and operation. Some of the high value use cases are capital investment deferral and reserve supply. Demand for such systems is growing fast, with recently issued RFPs and legislations in Ontario, California and Hawaii. People in this session:⇓ »» ADILE AJAJA (POWER SYSTEMS ENGINEER - SMART GRID, HYDRO-QUÉBEC) »» CHRISTIAN PERREAULT (SMART ENERGY, HYDRO-QUÉBEC) MCGILL 202 Smart Grid Metrics Pilot and Research Results CanmetENERGY has been conducting a Smart Grid Metrics Pilot along with partners from utilities, governments and industry in Ontario, Québec and New Brunswick to develop a set of metrics for smart grid development and measured benefits for regions across Canada. The analysis and insight would inform decisions surrounding smart grid technology deployment, address knowledge gaps, support policy development, and better inform public discourse about smart grid development in Canada. This presentation will present some of the key findings from the pilot along with a comparative analysis of related efforts conducted in Europe and the USA on smart grid metrics. People in this session:⇓ »» JEN HISCOCK (S&T ADVISOR, NRCAN/ CANMETENERGY) VIGER 203 How Guelph Hydro is using compelling visuals to engage customers and drive energy savings. Ontario’s peaksaver PLUS program helps Ontarians save electricity by deploying in-home displays (IHD) that provide up-to-the-minute energy information. By making consumers more aware of their home’s energy use, the program empowers consumers to reduce energy use and shave peaks. Southwestern Ontario utility Guelph Hydro has taken a unique approach to the in-home-display: engaging customers with their own photos. Guelph partnered with CEIVA Energy, a home energy management systems provider, to deliver energy data via CEIVA’s Homeview platform. Homeview is the only display to blend real-time energy data from the smart meter with personal photos synced from sources like Facebook and Instagram via an IHD which resembles a digital picture frame. This frame gets prime real estate in the home, helping to capture attention, drive efficiency improvements and improve customer relations. In this presentation, Guelph and CEIVA Energy will provide an overview of the program, and discuss the initial deployment of IHD frames, accompanying phone and web apps, and backend creative services to deploy messages and visuals on the IHD that are critical to driving results. Guelph will explain how the program supports long-term utility goals around customer engagement and peak shavings. People in this session ⇓ »» MATT WENINGER (DIRECTOR - METERING & CONSERVATION, GUELPH HYDRO) »» WANNIE PARK (VP – STRATEGIC PARTNERSHIPS, CEIVA ENERGY) 11:45 — 13:15 MONTRÉAL A-B Consumer Research 3.0 – How have consumers’ perceptions of smart grid changed over the last year ? SmartGrid Canada has conducted its third annual survey of Canadian consumers on smart grid. At this panel, our research firm will unveil the results to the industry and Terry Young of the IESO will moderate a discussion with industry leaders on their reactions. The panel will provide insights into what Canadians think about smart grids and smart meters and provide recommendations to the industry on how they can engage consumers in the coming year. People in this session:⇓ »» MEGHANN LOMAS (PRODUCT MANAGER, OPOWER) »» TERRY YOUNG (VP - CORPORATE & EMPLOYEE RELATIONS, IESO) »» STACEY KINLEY (VP OF PUBLIC AFFAIRS, VISION CRITICAL) »» GIULIANA ROSSINI (DIRECTOR - STRATEGY & CONSERVATION, HYDRO ONE) 23 Thursday, October 2 13:15 — 14:00 STE-HELENE 301 How can energy storage become a grid balancing game changer? Grids are facing increasing volatility due to intermittent renewable energy integration, whether at the distribution or the transmission level. However, energy storage systems are becoming a realistic way to manage networks and are a cost-effective alternative to improving grid stability, adding value and creating revenue streams. Schneider Electric, with Electricité Réseau Distribution France (ErDF) and eight other partners, are developing and deploying practical storage solutions as part of the VENTEEA demonstration project. This project is focused on increasing renewable integration at the local distribution grid level through a number of initiatives. The storage solution being tested as part of the project also aims at ensuring both Distribution and Transmission System Operators can balance spinning, non-spinning and supplemental reserves to maintain network stability at all levels to optimize supply and demand. The ErDF and Schneider Electric’s joint presentation will include: the VENTEEA project storage solution covering; the project’s storage application and additional services provided; the definition of operational storage architectures; and additional storage possibilities envisioned, including the scaling of storage systems based on both technical and economical criteria, and additional storage technologies dedicated to specific applications such as renewable integration, T&D deferral, energy time shifts, etc. MCGILL 302 Utilities make large investments in data collection and the creation of GIS systems. However, once those projects are complete, the data must be properly maintained and updated in order to keep the system relevant. If GIS systems are not properly maintained, employees lose confidence in them resulting in the eventual demise of the system. This presentation will cover specific processes and tools related to the proper maintenance of GIS data and best practices to ensure that new features added to the GIS system are properly represented and existing features are properly maintained. Utilities are faced with more than $200B in annual losses and theft, which are steadily increasing by 2.5% per year, yet are under pressure to reduce losses and increase efficiency across the grid. There is rarely enough monitoring in place to pinpoint the cause of these losses, making it difficult to find overloaded transformers, illegal bypasses and metering errors that compromise grid reliability, public safety, and financial performance. This presentation will describe a technology-based approach to providing situational awareness of grid operating conditions based on actual line measurements and predictive analytics to provide insight into the operating condition of the distribution grid. Bringing visibility to an otherwise invisible network improves the ability to predict overloads and avoid outages. Actual line data reduces financial risk by truing up conventional billing and smart meter data to the actual consumption on the lines, pinpointing theft as well as metering/bill errors. People in this session:⇓ »» BRIAN LASSITER (ENGINEER - MILSOFT) »» BRIAN MCMILLAN (VP – ENGINEERING, SUDBURY HYDRO) MONTRÉAL A-B Mega Session A – Key Learnings from EPRI Smart Grid Demonstration Project EPRI, one of the leading research institutions in power, has gathered a group of leading utilities for an ambitious Smart Grid Demonstration Initiative. The initiative includes research in distributed generation, storage, renewables, and demand response technology into a “virtual power plant”. This panel will discuss the key findings to date from this initiative and explore how these findings will impact utility business models and investments in the coming years. People in this session:⇓ »» CHAD ABBEY (VP POWER SYSTEMS, SMARTER GRID SOLUTIONS) »» DANIEL FOURNIER (ENGINEER - DIMA SMART GRID PROJECT, HYDRO-QUÉBEC) »» GALE R. HORST (SR. PROJECT MANAGER, EPRI) »» MARK MCGRANAGHAN (VP - POWER DELIVERY & UTILIZATION, EPRI) 24 303 A Novel Approach to Loss Mitigation Using Grid Analytics and Energy/Load Balance Surveys People in this session:⇓ »» DIDIER COLIN (VENTEEA PROJECT MANAGER, ELECTRICITÉ RÉSEAU DISTRIBUTION FRANCE) »» TRINIDAD CHARDIN-SEGUI (SMART GRID OFFER CREATION DIRECTOR, SCHNEIDER ELECTRIC) 15:00 — 16:00 VIGER The Importance of Correct Distribution System Data in the Smart Grid World People in this session ⇓ »» RUDI CAROLSFIELD (EVP - GLOBAL SALES & ALLIANCES, AWESENSE) »» MISCHA STEINER-JOVIC (CEO, AWESENSE) 16:00 — 17:00 MONTRÉAL A-B Mega Session B – Utility of the Future Thought leaders from the electricity industry will offer their vision on how the utility business will evolve in the coming years. This panel will discuss the new business realities for utilities due to the impact of renewable integration and the rise of distributed generation. The audience will gain insights in how the industry will evolve and what are the opportunities and challenges associated with the transition. People in this session:⇓ »» LOUIS-FRANCOIS DURRET (CEO, AREVA RENEWABLES) »» ERICH W. GUNTHER (MEMBER OF GOVERNING BOARD, IEEE PES) »» SCOTT HENNEBERRY (VP - SMART GRID STRATEGY, SCHNEIDER ELECTRIC) »» DR. LAWRENCE JONES (VP NORTH AMERICA - UTILITY INNOVATIONS & INFRASTRUCTURE SOLUTIONS, ALSTOM Help Us Grow the Smart Grid in Canada Become a Member Make a Difference + ONLY SMART GRID ACTIVE GOVERNEMENT ADVOCACY NATIONAL INFORMATION SHARING NATIONAL CONSUMER RESEARCH VALUE FOR MONEY INTERNATIONAL COLLABORATIONS SmartGrid Canada is the only national, smart grid-focused industry association in Canada with large utility, industry and academic members from across the country. Our members include BC Hydro, PowerStream, GE and HydroQuébec. We facilitate the information exchange within the industry through the Canadian Smart Grid Repository. Developed in 2012 the public repository helps utilities deploy the most effective technologies and promote Canada’s smart grid industry nationally and internationally. We are the only organization in Canada that has performed a national primary research into the consumer and their attitudes toward the smart grid, smart meter and the smart home. We offer great value for our membership fee. The advocacy work we’ve done, and the consumer research alone, would cost a company well over $100,000 if performed individually, by employing government relations and market research firms. We organize international missions to facilitate trade opportunities for Canadian smart grid organizations, partnering with the government and other stakeholders. Our members have priority. We advocate for a smarter grid with both provincial and federal governments, in order to implement the necessary policy and regulation to advance the smart grid development. sgcanada.org COLLABORATIONS 25 Friday, October 3 8:30 — 9:00 MONTRÉAL A-B Keynote Speech: Scott Henneberry (VP - Smart Grid Strategy, Schneider Electric) People in this session:⇓ SCOTT HENNEBERRY (VP - SMART GRID STRATEGY, SCHNEIDER ELECTRIC) 9:00 — 9:45 STE-HELENE 401 MCGILL VIGER 403 LTE - Technology For Critical Infrastructure Applications The Need for Interoperability in the Smart Grid Hydro One: Bring Your Own Thermostat Pilot With the Smart Grid evolution that places high demands on the telecommunication network to support and manage the Grid, Utilities need to rely on robust and affordable network technology. The Grid is the backbone Country’s Critical Infrastructure and this asset needs to be protected and kept functional at the time of national emergency to allow Public Safety entities to perform their duty to save lives and property. With support from equipment and device manufacturers, the LTE (Long Term Evolution) technology is becoming a sustainable technology for the future, being a standardized technology used by the world’s mobile network operators. For these reasons, Utilities around the world are increasingly deploying their own LTE networks over existing choices of technology. This session will cover the potential use of the Public Safety network, as an ideal spectrum for low cost and superior coverage deployment that Utilities could leverage. Just like your laptop can operate with devices from many manufacturers interchangeably, the electrical grid of the future needs to be able to exchange data with different devices from many manufacturers locally in the field with very low latency. Unfortunately, many utilities are “siloed” by proprietary technologies that backhaul data to a centralized hub such as a head end server. Without cross-industry collaboration and tactile evaluation of device interoperability in the field, support for the technology requirements to realize the potential interoperability benefits will never occur. Duke Energy has initiated research projects to build and deploy low-cost controllers in the lab and in the field to better manage the electric grid. This requires building a field message bus to exchange data between assets. This data exchange can only happen if these devices are connected either through wired or wireless technologies. Once connected, the data exchange is facilitated by non-proprietary protocols and open standards – always keeping data privacy and security at the forefront. So how do we make the grid simpler to operate, and less costly? Open up data at the edge of the grid to allow for true interoperability. Market research shows that the popularity of Wi-Fi enabled Smart Thermostats is on the rise. These thermostats allow customers to monitor and control their central heating and cooling for comfort and price, as well as allow the thermostat to perform other energy savings optimizations. In an effort to leverage our smart grid investments to the mutual benefit of customers and the utility, Hydro One will be launching the Bring Your Own Thermostat pilot in late 2014. This pilot shows a shift from the “traditional” thermostat demand response program, as Hydro One will no longer be procuring the physical thermostat or arranging the installation. As well, given the emphasis on an aggressive energy efficiency target in Ontario by 2020, a critical objective of the pilot will be to evaluate the energy savings that can be obtained by some of the leading smart thermostats. This presentation will take you through the drivers and considerations that led us to the Bring Your Own Thermostat model, a detailed look at the pilot’s objectives and design, and many of the key lessons learned so far as Hydro One prepares for kick-off and participant enrolment. People in this session ⇓ »» MANISH JINDAL (INDUSTRY & SOCIETY UNIT , ERICSSON) People in this session ⇓ »» JASON HANDLEY (DIRECTOR - ETO OPERATIONS AND PROJECTS, DUKE ENERGY) 26 402 People in this session ⇓ »» MERNAZ MALOZEWSKI (SR. CDM STRATEGIC PLANNER, HYDRO ONE) 9:45 — 10:30 STE-HELENE 501 MCGILL 502 Hydro-Québec’s Special Protection Schemes : Present and Future Scaling up global EV infrastructure through vehicle-grid integration Recent cascading failures in several power systems worldwide have highlighted the necessity to develop new automatic protection systems. Furthermore, economic and environmental considerations strictly limit the addition of new transmission lines, which implies that the more the power system develops, the more it becomes stressed. Consequently it is necessary to re-evaluate the performance of automatic protection systems in their new environment to ensure their effectiveness in order to maintain power system reliability and security. This work presents new Special Protection Schemes (SPSs) that will be incorporated into Hydro-Québec’s current defense plan as a means to maintain its performance and satisfy all the design criteria of its future network. As EVs enter the mainstream market, utilities and their customers will seek new ways to integrate these smart devices into the energy ecosystem. Canada in particular has led the way in its adoption of open standards-based EV infrastructure, spurring a dialogue on how to effectively scale vehicle-grid integration (VGI) infrastructure. People in this session:⇓ »» MANUELA DOBRESCU (ENGINEER, HYDRO-QUÉBEC) »» ANNISSA HENICHE (RESEARCHER POWER SYSTEMS AND MATHEMATICS, IREQ, HYDRO-QUÉBEC) In response to the inherent flaws of proprietary charging networks, open charging standards such as those used in pilots at BC Hydro & Powertech Labs and the West Coast Green Highway have gained global momentum. Canada and leading utility BC Hydro have again taken a bold stance here to future-proof utility assets, while embracing demand response and grid integration opportunities. A universal set of standards provides a vendor-agnostic charging infrastructure to drivers and prevents utilities from wading through dozens of charge technology “languages” in an attempt to integrate EVs and demand response programs. Brett Hauser, President of charging technology provider Greenlots and Co-founder of Open Charge Alliance, will discuss how utilities such as BC Hydro are utilizing open standards to future-proof EV charging infrastructure and how the concept of OpenADR (Automated Demand Response) incorporates dynamic pricing models into innovative and price-competitive customer offerings. People in this session:⇓ »» LIN-ZHUANG KHOO (SVP, GREENLOTS) VIGER 503 Demand Response: Marrying Energy Management Applications and Operations Research The value provided by the Demand Response system, an essential element of the smart grid, is widely accepted, but the mechanisms to fully realize this value are not all in place. Schneider Electric and the École Polytechnique de Montréal’s joint presentation will go into the details of how the treatment and analysis of large amounts of data combined with operations research techniques and energy management applications can lead to Demand Response maximizing power reliability and reducing peak usage costs. The presentation will look at Energy Management Applications for: (1) Residential solutions (for utilities and consumers), and the convergence of single source of energy data aggregation and analytics, command and control, and demand-side management that engages customers to reduce energy use through intuitive technology; and (2) Small buildings solutions, specifically power controls for electric heat and temperature controllers. The presentation will also cover optimal peak shaving using new operations research methods. People in this session:⇓ »» YANN KULP (VP – RESIDENTIAL ENERGY SOLUTIONS, SCHNEIDER ELECTRIC) »» MIGUEL F. ANJOS (PROFESSOR & CANADA RESEARCH CHAIR, TROTTIER INSTITUTE FOR ENERGY, POLYTECHNIQUE MONTRÉAL) 27 Friday, October 3 11:00 — 11:45 STE-HELENE 601 Field trial of power electronics LV power regulators in a utility distribution system A new class of power electronics based low voltage (LV) power regulators, scaled for use in the secondary portion of the distribution grid, offers multi-function capability for managing power, providing dynamic voltage regulation, reactive power compensation, and harmonic cancellation. This utility-owned and controlled actuation capability integrates into existing utility communications and SCADA systems for management of distribution circuits and visibility at grid edge. This presentation summarizes a field trial in the Greater Sudbury Hydro local distribution utility environment. Primary objectives of the trial are to demonstrate real-time, continuous voltage regulation in a field deployment, define key integration points between the power regulator and the operations systems and to understand the overall economic benefits. The presentation highlights solar PV integration and Volt-VAR Optimization (VVO) applications. Technical operation and performance characteristics of the new regulator are explained as they relate to these applications. Preparation for the field trial included defining objectives and scope, system load flow modeling, integration planning, and vendor acceptance testing. Field performance results for the power electronics regulator are reported and compared to models and project objectives. Implications of device performance on system operations and opportunities for future work are also discussed. MCGILL 602 Smart Grid Solutions for the Yukon Electrical Grid Currently, the Yukon electrical grid in Whitehorse relies primarily on hydro power for electricity, with less than 1% coming from other sources such as diesel and wind. Wind energy, brought in from the Yukon mountaintops, has the potential to supply clean energy to new loads, including that from homes switching from oil to electric heating. However, wind is a variable resource and while it has good winter output potential, additional resources beyond hydro are required for balancing. To meet both peak and growing demands and avoid reliance on non-renewable generation, smart grid solutions will be needed. This presentation demonstrates the role of electric thermal storage and electric water heaters can play in balancing the renewable energy and keeping diesel use to a minimum. It will introduce why smart grid implementations must be used to manage these loads, thereby increasing load factor, and avoid the trappings of more traditional implementations such as the need for additional capacity assets. The benefits and costs needed to employ such a system will play a prominent role in this discussion. VIGER This presentation will discuss how predictive analytics and optimization is changing the way utilities operate and manage their grid (including predictive maintenance and smart meter data analytics) and how to leverage the influx of smart meter and smart grid data to improve operations and to engage customers. Social Media Analytics will be explored in terms of the changing customer expectations and how to make customers a participant in the network. People in this session:⇓ »» BRUCE ORLOFF (CANADIAN SMART GRID SOLUTION LEADER, IBM CANADA) People in this session:⇓ »» JP PINARD (PRESIDENT, JP PINARD CONSULTING) »» STEVEN WONG (T&D RESEARCH ENGINEER, NRCAN) People in this session:⇓ »» JAMES SIMONELLI (CTO, GRIDCO SYSTEMS) »» BRIAN MCMILLAN (VP - DISTRIBUTION ELECTRICAL SYSTEMS, GREATER SUDBURY HYDRO) 11:45 — 13:15 MONTRÉAL A-B View from the Top Panel This marque panel of senior utility executives from across the country will discuss their vision for smart grids in Canada. This panel is an excellent opportunity for the industry to hear firsthand from some of its key leaders. This moderated discussion will explore the business and strategic issues that utilities face in making their smart grid transformation. These leaders will also discuss the opportunities that smart grid can provide the modern utility, be it new revenue streams from enhanced services or increased load from the propagation of electric vehicles. People in this session:⇓ 28 603 Embracing the Future Through Data and the Changing Customer Expectations »» INTRODUCTION: DANIEL LAPLANTE (PRÉSIDENT-DIRECTEUR GÉNÉRAL, ASSOCIATION DE L’INDUSTRIE ÉLECTRIQUE DU QUÉBEC) »» BRIAN BENTZ (PRESIDENT, POWERSTREAM) »» JUAN MACIAS (GENERAL MANAGER - GRID AUTOMATION, GE DIGITAL ENERGY) »» ANDRÉ POTVIN (DIRECTEUR AND SUPERVISOR OF NETWORK PLANNING, HYDRO-QUÉBEC) »» ANDRE VAN DIJK (VP - SYSTEM OPERATIONS, ENMAX) »» MIKE WINTERS (SVP - ENGINEERING & CONSTRUCTION, HYDRO ONE) 13:15 — 14:00 STE-HELENE 701 MCGILL 702 Case Study of Economic Benefits from Integrated Dynamic Line Ratings Selection and Placement of Sensors for Smart Grid Applications Oncor, a regulated transmission and distribution utility in Texas, recently completed a U.S. Department of Energy Smart Grid Demonstration Project (SGDP). The project deployed Dynamic Line Ratings on several lines, which were then integrated into the economic dispatch of ERCOT. This presentation quantifies the economic costs of thermally constrained lines; compares traditional line rating methodology with real time monitoring methods; summarizes the operational breakthroughs of the SGDP; and explores how the DLR is being used to increase flexibility in transmission planning and capital expenditures. Determining sensor type, accuracy, and location on the distribution circuit maximizes the benefit of sensors and minimizes unnecessary sensor purchases, installation and maintenance. This presentation describes how to select current and voltage accuracy class, and provides examples where use of non-traditional sensors will be deployed in distribution circuits for auto restoration, voltage optimization, asset health, non-technical losses. Finally, this presentation provides an outlook of future sensors for distribution grid modernization and Smart Grid applications. Examples of benefits/costs will presented from actual deployments. People in this session:⇓ »» SANDY AIVALIOTIS (SVP - OPERATIONS, TECH & BUSINESS DEV, NEXANS) People in this session:⇓ »» DOUG VODA (GLOBAL SMART GRID SEGMENT LEADER - MEDIUM VOLTAGE PRODUCTS, ABB) VIGER 703 Consumer-Driven potential for new energy markets in the microgrid sector Microgrids are a solution to challenges in energy supply access, reliability, and quality, offering consumers a future of power supply autonomy. Understanding what motivates consumers to support microgrid implementation is key to driving the market forwards. Using two case studies, this investigation examines the consumer profiles of both grid-tied and off-grid microgrid users. A grid-tied microgrid was developed by Capgemini on the island of Texel, an initiative that was propagated by consumer enthusiasm for energy independence, conservation, sustainability, and security. In contrast, off-grid systems are often implemented in areas where grid augmentation is either economically or physically infeasible, or where reduction in diesel use or diesel-use subsidies are required. Off-grid customers are motivated by necessity for power rather than independence from a central grid. The move towards renewables has also opened up a vast market for off-grid microgrids. To this end, Capgemini, partnered with the Advanced Energy Centre, is producing an easily implemented microgrid-ina-box solution aimed at remote communities. In summary, microgrids are gaining traction among different types of customers, an exciting and fundamental advancement in the evolution towards smart grids. Our presentation addresses the difference in these customer profiles that are advancing this growing market. People in this session:⇓ »» TOM CRAWFORD (SMART GRID LEAD, CAPGEMINI GLOBAL SMART ENERGY SERVICES) »» RON DIZY (MANAGING DIRECTOR, ADVANCED ENERGY CENTRE) 14:00 End of Conference 29 Le Jeudi 2 Octobre 8:30— 8:45 MONTRÉAL A-B Mot de bienvenue et allocution d’ouverture : Jean Lessard (Hydro-Québec), Alex Bettencourt (SmartGrid Canada) Participants à cette session: ⇓ »» JEAN LESSARD (DIRECTEUR INNOVATION TECHNOLOGIQUE, IREQ HYDRO-QUÉBEC) »» ALEX BETTENCOURT (DIRECTEUR GÉNÉRAL, SMARTGRID CANADA) 8:45 — 9:30 MONTRÉAL A-B Discours principal : Thierry Vandal (Président et PDG, Hydro-Québec) avec une introduction de Thierry Godart (Président – Services publics, Schneider Electric) Participants à cette session: ⇓ »» THIERRY GODART (PRÉSIDENT – SERVICES PUBLICS, SCHNEIDER ELECTRIC) »» THIERRY VANDAL (PRÉSIDENT ET PDG, HYDRO-QUÉBEC) 30 9:30 — 10:15 STE-HELENE 101 Implantation en ligne d’un système de gestion de l’énergie pour microréseaux produisant de l’énergie renouvelable Avec l’intégration prochaine de grandes quantités d’énergie renouvelable au moyen de la production décentralisée, les effets adverses d’un taux de pénétration aussi élevé des ressources volatiles peuvent être atténués grâce au système de gestion de l’énergie des microréseaux (SGE). Le SGE est implanté dans le cadre de l’optimisation à objectifs multiples (OOM), qui vise à optimiser les objectifs et avantages pouvant aller de pair avec un microréseau et un système de production d’énergie renouvelable, comme la réduction des fluctuations d’énergie, la réduction de la puissance de crête, la réduction des coûts, l’amélioration de la fiabilité, ainsi que la réduction des émissions de gaz à effet de serre. Dans cette présentation, nous décrirons les grandes lignes de l’implantation de l’OOM dans un système multiagents (SMA) en ligne à contrôleur hiérarchisé, de même que le rendement en détail par rapport au contrôleur de base hors ligne. Le contrôleur SMA est implanté avec l’intelligence distribuée, ainsi qu’avec un agent de répartition centrale, de sorte que le microréseau est en mesure de réagir rapidement aux importantes fluctuations des ressources. Les défis spécifiques au contrôleur hiérarchisé en ligne qui doivent être relevés sont présentés, de même que des propositions de solutions visant à réduire les exigences en matière de communication et la complexité algorithmique. Le produit final de ce travail est un contrôleur de microréseau pouvant être implanté dans un système en ligne qui tient compte des obstacles et contribue à atteindre un taux plus élevé de pénétration de l’énergie renouvelable décentralisée à l’intérieur du réseau électrique intelligent. Participants à cette session:⇓ »» CHAD ABBEY (INGÉNIEUR DE RECHERCHE, IREQ HYDRO-QUÉBEC) »» MICHAEL ROSS (CANDIDAT AU DOCTORAT, UNIVERSITÉ MCGILL) MCGILL 102 Étude de cas : Contrôle de la tension de précision pour les clients grâce à l’infrastructure de mesure avancée (IMA); planification, gestion et validation Central Lincoln People Utilities District à Newport, Oregon, a mis en application une approche unique d’optimisation de la tension (OT) au moyen de niveaux de tension en temps quasi réel avec le système de contrôle SCADA afin de réaliser des économies importantes pour les clients et d’apporter des avantages au service. Avec les récents progrès dans le domaine de la technologie et des communications de l’IMA, l’OT présente des améliorations importantes par rapport à la réduction de tension de conservation (RTC) traditionnelle. La méthode de l’OT de Central Lincoln utilise la tension de l’IMA afin d’optimiser le fonctionnement du réseau de distribution sur l’interface du compteur des clients en utilisant une nouvelle technique adaptative de contrôle de circuit qui minimise l’incidence sur les communications de l’IMA. La méthode se sert de l’optimisation de la tension linéaire pour effectuer le contrôle de la tension/VAR/RTC. L’objectif de Central Lincoln est d’améliorer constamment la fiabilité tout en réduisant les coûts pour les clients. La méthode permet d’effectuer un processus de planification des ressources granulaires qui détermine les problèmes de fiabilité particuliers par rapport à la tension au niveau des clients. Ces « empreintes » des problèmes au niveau des clients fournissent une base précise pour améliorer la fiabilité et réduire les coûts. De plus, une nouvelle méthode appliquant l’analyse statistique d’échantillons appariés à la zone de contrôle permet d’effectuer un suivi et une validation continus des améliorations de la tension, tout en mesurant les diminutions importantes de la consommation d’énergie par client. Dans cette présentation, nous exposerons les enseignements tirés, les meilleures pratiques et les résultats réels obtenus au cours de la première année de fonctionnement. VIGER 103 L’engagement de conservation des clients rendu possible grâce à l’IMA Comment assurer un taux élevé d’adhérence et de conservation des clients dans les programmes de conservation et des augmentations d’échelon de salaire à long terme en cas de succès de la conservation? Peterborough Utilities Group (PUG) et Aztech Associates Inc. partageront l’histoire de leur partenariat fructueux (Aztech, PUG et Elster), qui a rendu possible le succès de la mise en œuvre du programme Peaksaver PLUS à Peterborough, Ontario. Leur histoire est celle d’une vision entrepreneuriale et d’une détermination qui mettra les sociétés de distribution locale au défi d’imaginer une interface utilisateur de conservation allant au-delà des portails Web, des applications de téléphone et de l’écran d’affichage énergétique à domicile sous-optimal. Dans cette présentation, nous discuterons de la manière dont la fonctionnalité de l’IMA, alliée à l’écran d’affichage énergétique à domicile Aztech, rend possible l’engagement de conservation des clients [point-virgule supprimé], ainsi que leur satisfaction, à la fois par rapport à l’appareil et aux programmes de conservation du gouvernement. L’installation de plus de 9000 écrans d’affichage énergétique à domicile par Peterborough illustre de quelle façon le programme de conservation actuel peut être employé afin de mettre sur pied une initiative visant à répondre aux défis uniques que rencontrent les sociétés de distribution locale pour maximiser les résultats de conservation, la satisfaction des clients et la planification de l’investissement des économies. Participants à cette session:⇓ »» DAVID WHITEHOUSE (DIRECTEUR – SERVICES AUX CLIENTS ET AUX ENTREPRISES ET CONSERVATION, PETERBOROUGH UTILITIES) »» GEOFF SALTER (PRÉSIDENT ET PDG, AZTECH ASSOCIATES) Participants à cette session:⇓ »» BRUCE LOVELIN (INGÉNIEUR EN CHEF, CENTRAL LINCOLN PEOPLE UTILITIES DISTRICT) »» PHIL POWELL (DIRECTEUR – GRID INNOVATIONS, DVI) 31 Le Jeudi 2 Octobre 11:00 — 11:45 11:45 — 13:15 STE-HELENE 201 MCGILL 202 Système de stockage d’énergie (SSE) à rendement élevé et à haute fiabilité de HQ-Sony Projet pilote sur les paramètres de réseaux intelligents et résultats de la recherche Hydro-Québec (HQ) travaille en partenariat avec Sony pour produire un système de stockage d’énergie (SSE) à rendement élevé et à haute fiabilité. Cette solution clé en main inclura le système de batterie, l’unité de conversion d’énergie, les transformateurs, les dispositifs de protection et le logiciel de contrôle, ainsi que les algorithmes. Le premier prototype est en cours de conception; il sera installé et testé à l’Institut de recherche d’HQ au cours du quatrième trimestre de 2014. Les SSE commencent à s’imposer dans le domaine des réseaux, étant donné que davantage de flexibilité et d’options de gestion de l’énergie sont nécessaires à l’optimisation de la planification et du fonctionnement des réseaux. Certains des cas d’utilisation à valeur élevée sont le report d’investissement de capitaux et l’approvisionnement de réserve. La demande pour de tels systèmes est en rapide croissance et de récentes DP et lois ont été émises en Ontario, en Californie et à Hawaï. CanmetENERGY a mené un projet pilote au sujet des paramètres de réseaux intelligents, en collaboration avec des partenaires dans le domaine des services, du gouvernement et de l’industrie en Ontario, au Québec et au NouveauBrunswick. Ce projet pilote vise à définir un ensemble de paramètres pour la conception de réseaux intelligents et a mesuré les avantages dans différentes régions partout au Canada. L’analyse et l’aperçu permettront de prendre des décisions éclairées quant à l’utilisation de la technologie des réseaux intelligents, de combler les écarts des savoirs, de soutenir l’élaboration des politiques et de mieux informer le discours public au sujet du développement des réseaux intelligents au Canada. Dans cette présentation, nous exposerons certaines des conclusions importantes du projet pilote, de même qu’une analyse comparative des efforts pertinents menés en Europe et aux États-Unis concernant les paramètres des réseaux intelligents. Participants à cette session:⇓ »» ADILE AJAJA (INGÉNIEUR DE SYSTÈMES D’ÉNERGIE – RÉSEAU ÉLECTRIQUE INTELLIGENT, HYDRO-QUÉBEC) »» CHRISTIAN PERREAULT (ÉNERGIE INTELLIGENTE, HYDRO-QUÉBEC) Participants à cette session:⇓ »» JEN HISCOCK (CONSEILLÈRE EN S et T, NRCAN/CANMETENERGY) MONTRÉAL A-B Panel d’étude de consommation 3.0 SmartGrid Canada a mené sa troisième enquête annuelle auprès des consommateurs canadiens au sujet des réseaux électriques intelligents. Au cours de cette présentation, notre firme de recherche dévoilera ses résultats à l’industrie. Terry Young de l’IESO présidera une discussion au cours de laquelle les chefs de file de l’industrie feront part de leurs réactions. Le panel offrira un aperçu de ce que pensent les Canadiens au sujet des réseaux électriques intelligents et des compteurs intelligents, et donnera des recommandations à l’industrie quant à la manière dont ils peuvent favoriser la participation des consommateurs au cours de l’année qui vient. 32 Participants à cette session:⇓ »» STACEY KINLEY (VP – RELATIONS D’ENTREPRISE ET DE TRAVAIL, IESO) »» MEGHANN LOMAS (CHEF DE PRODUIT, OPOWER) »» GIULIANA ROSSINI (DIRECTRICE – STRATÉGIE ET CONSERVATION, HYDRO ONE) »» TERRY YOUNG (VP - CORPORATE & EMPLOYEE RELATIONS, IESO) VIGER 203 Comment Guelph Hydro utilise des illustrations attrayantes afin de faire participer les clients et de générer des économies d’énergie. Comment Guelph Hydro utilise des illustrations attrayantes afin de faire participer les clients et de générer des économies d’énergie. Le programme Peaksaver PLUS de l’Ontario aide les Ontariens à économiser l’électricité en installant des écrans d’affichage énergétique à domicile (EAED) qui fournissent les toutes dernières informations énergétiques. En sensibilisant les consommateurs à la consommation énergétique de leur domicile, le programme leur permet de réduire celle-ci, de même que l’écrêtement de la demande de pointe. Le service public du Sud-Ouest de l’Ontario, Guelph Hydro, a adopté une approche unique par rapport aux écrans d’affichage énergétique à domicile : faire participer les clients en leur permettant d’utiliser leurs propres photos. Guelph, en collaboration avec CEIVA Energy, un fournisseur de systèmes de gestion de l’énergie domestique, afin d’acheminer les données énergétiques par le biais de la plateforme Homeview de CEIVA. Homeview est le seul écran d’affichage énergétique qui conjugue les données énergétiques en temps réel et les photos personnelles synchronisées depuis des sources telles que Facebook et Instagram sur un EAED semblable à un cadre de photos numériques. Ce cadre constitue un article de premier choix dans le domicile, contribue à attirer l’attention, encourage les améliorations de l’efficience et améliore les relations avec les clients. Dans cette présentation, Guelph et CEIVA Energy offriront un aperçu du programme et discuteront du déploiement initial des cadres EAED, des applications connexes pour le Web et les téléphones, de même que des services administratifs créatifs de transmission de messages et d’images sur l’EAED, essentiels pour produire des résultats. Guelph expliquera comment le programme soutient les objectifs des services publics à long terme en ce qui a trait à la participation des clients et à l’écrêtement de la demande de pointe. Participants à cette session ⇓ »» MATT WENINGER (DIRECTEUR – COMPTAGE ET CONSERVATION, GUELPH HYDRO) »» WANNIE PARK (VP – PARTENARIATS STRATÉGIQUES, CEIVA ENERGY) 13:15 — 14:00 STE-HELENE 301 Comment le stockage d’énergie peutil changer la donne dans l’équilibrage du réseau? Les réseaux sont confrontés à une volatilité croissante en raison de l’intégration de sources d’énergies renouvelables intermittentes, que ce soit au niveau de la distribution ou de la transmission. Toutefois, les systèmes de stockage d’énergie deviennent une façon réaliste de gérer les réseaux et représentent une alternative efficiente à l’amélioration de la stabilité du réseau, ajoutant de la valeur et générant des sources de revenus. Schneider Electric, en collaboration avec Électricité Réseau Distribution France (ERDF) et huit autres partenaires, conçoit et installe des solutions de stockage pratiques dans le cadre du projet de démonstration VENTEEA. Ce projet se concentre sur l’amélioration de l’intégration de l’énergie renouvelable au niveau d’un réseau de distribution local grâce à de nombreuses initiatives. La solution de stockage testée dans le cadre de ce projet a également pour but d’assurer que les opérateurs du système de distribution et de transmission peuvent à la fois équilibrer les réserves supplémentaires tournantes et arrêtées, afin d’assurer la stabilité du réseau à tous les niveaux pour optimiser les réserves et la demande. La présentation conjointe de l’ERDF et de Schneider Electric inclura : la solution du projet de stockage VENTEEA, la mise en œuvre du projet de stockage et les services additionnels fournis, la définition d’architectures de stockage opérationnelles et les possibilités de stockage additionnelles envisagées, incluant l’expansion des systèmes de stockage en se basant sur des critères à la fois techniques et économiques, et des technologies de stockage additionnelles dédiées à des utilisations spécifiques, comme l’intégration de l’énergie renouvelable, le report de la transmission et de la distribution, les décalages d’énergie, etc. MCGILL 302 VIGER 303 L’importance de l’exactitude des données du système de distribution dans le domaine des réseaux intelligents Nouvelle approche pour une atténuation des pertes grâce aux analyses du réseau et aux études d’équilibre énergétique Les services publics investissent largement dans la collecte de données et la création de systèmes SIG. Toutefois, une fois ces projets terminés, les données doivent être correctement entretenues et mises à jour afin que le système conserve sa pertinence. Si les systèmes SIG ne sont pas correctement entretenus, les employés perdent confiance en ceux-ci, en conséquence de quoi le système tombe en désuétude à la longue. Dans cette présentation, nous discuterons des processus et des outils spécifiquement liés à la maintenance adéquate des données SIG, ainsi que des meilleures pratiques visant à assurer que les nouvelles caractéristiques ajoutées au système SIG sont correctement représentées et que les caractéristiques existantes sont maintenues de façon adéquate. Les services publics sont confrontés à des pertes et des fraudes s’élevant à plus de 200 milliards de dollars chaque année. Et ce chiffre est en augmentation constante, malgré une forte pression pour réduire les pertes et augmenter l’efficacité du réseau. La surveillance mise en place est rarement suffisante pour identifier la cause de ces pertes. Il est difficile de détecter les transformateurs en surcharge, les détournements illégaux et les erreurs de comptage qui compromettent la fiabilité du réseau, la sécurité publique et la performance financière. Nous décrivons ici une approche qui s’appuie sur des moyens technologiques pour obtenir une meilleure connaissance de la situation des conditions du réseau. Cette approche est basée sur des mesures effectives du réseau et une analyse prédictive, permettant d’obtenir des données sur les conditions de fonctionnement du réseau de distribution. Des informations invisibles sont ainsi mises à jour, ce qui permet d’améliorer notre capacité à prévoir les surcharges et éviter les pannes. Avoir des chiffres concrets réduit le risque financier en rectifiant la facturation traditionnelle et les données des compteurs intelligents au vu de la consommation réelle qui a été relevée, permettant ainsi de détecter les fraudes, aussi bien que les erreurs de comptage ou de facturation. Participants à cette session:⇓ »» BRIAN LASSITER (INGÉNIEUR – MILSOFT) »» BRIAN MCMILLAN (VP – INGÉNIERIE, SUDBURY HYDRO) Participants à cette session »» RUDI CAROLSFIELD (VICE PRÉSIDENT EXÉCUTIF - GLOBAL SALES & ALLIANCES, AWESENSE) »» MISCHA STEINER-JOVIC (PRÉSIDENT DIRECTEUR GÉNÉRAL, AWESENSE) Participants à cette session:⇓ »» DIDIER COLIN (CHEF DE PROJET DE VENTEEA, ÉLECTRICITÉ RÉSEAU DISTRIBUTION FRANCE) »» TRINIDAD CHARDIN-SEGUI (DIRECTEUR DE LA CRÉATION DE L’OFFRE DE RÉSEAUX INTELLIGENTS, SCHNEIDER ELECTRIC) 33 Le Jeudi 2 Octobre 15:00 — 16:00 MONTRÉAL A-B Mégaséance A – Importantes leçons tirées du projet de démonstration de réseau intelligent de l’EPRI L’EPRI, un institut de recherche figurant parmi les principales autorités, a réuni un groupe des principaux chefs de file pour lancer une ambitieuse initiative de démonstration de réseau intelligent. L’initiative inclut la recherche en production décentralisée, en stockage, en énergies renouvelables et en technologie d’adaptation de la demande dans une « centrale virtuelle ». Dans ce panel, nous aborderons les résultats importants de cette initiative obtenus à ce jour et examinerons de quelle manière ces résultats influenceront les modèles de gestion des services, de même que les investissements au cours des prochaines années. Participants à cette session:⇓ »» CHAD ABBEY (RESEARCH ENGINEER, IREQ HYDRO-QUÉBEC) »» DANIEL FOURNIER (INGÉNIEUR – PROJET DE RÉSEAU INTELLIGENT, HYDRO-QUÉBEC) »» GALE R. HORST (EPRI) »» MARK MCGRANAGHAN (VP – APPROVISIONNEMENT ET UTILISATION DE L’ÉNERGIE, EPRI) 16:00 — 17:00 MONTRÉAL A-B Mégaséance B – Service de l’avenir Les chefs de file de l’industrie de l’électricité partageront leur vision de l’évolution du secteur des services publics au cours des prochaines années. Dans ce panel, nous discuterons des nouvelles réalités du marché des services publics dus à l’impact de l’intégration de l’énergie renouvelable et l’essor de la production décentralisée. L’auditoire obtiendra un aperçu de la manière dont l’industrie évoluera ainsi que des possibilités et des défis associés à la transition. Participants à cette session:⇓ »» ERICH W. GUNTHER (MEMBRE DU CONSEIL D’ADMINISTRATION, IEEE PES) »» LOUIS-FRANCOIS DURRET (PDG, AREVA RENEWABLES) »» SCOTT HENNEBERRY (VP - STRATÉGIE DES RÉSEAUX INTELLIGENTS, SCHNEIDER ELECTRIC) »» LAWRENCE JONES (V.-P. AMÉRIQUE DU NORD – INNOVATIONS DES SERVICES ET RÉSILIENCE DES INFRASTRUCTURES, ALSTOM) 34 Le Vendredi 3 Octobre 8:30 — 9:00 MONTRÉAL A-B Dicours principal : Scott Henneberry (V.-P. – Stratégie des réseaux intelligents, Schneider Electric) Participants à cette session:⇓ SCOTT HENNEBERRY (V.-P. – STRATÉGIE DES RÉSEAUX INTELLIGENTS, SCHNEIDER ELECTRIC) 9:00 — 9:45 STE-HELENE 401 MCGILL 402 VIGER 403 LTE - Technologie pour les infrastructures critiques Applications L’exigence de l’interopérabilité dans les réseaux intelligents Hydro One : Projet pilote Apportez votre propre thermostat Consultez le site Web pour la mise à jour sur cette session De même que votre ordinateur portatif est compatible avec des appareils provenant de nombreux fournisseurs de façon interchangeable, le réseau électrique du futur doit être capable d’échanger des données avec différents appareils provenant de nombreux fournisseurs locaux dans le domaine avec un très faible temps de latence. Malheureusement, plusieurs services sont « cloisonnés » par des technologies brevetées qui effectuent la liaison des données vers un raccordement centralisé, comme un serveur de tête de réseau. Sans la collaboration entre les industries et l’évaluation tactile de l’interopérabilité de l’appareil sur le terrain, jamais les exigences en matière de technologie ayant pour objectif de réaliser le potentiel des avantages de l’interopérabilité n’obtiendraient le soutien nécessaire. Duke Energy a entrepris des projets de recherche visant à concevoir et à installer des contrôleurs peu coûteux en laboratoire et sur le terrain, dans le but de mieux gérer le réseau électrique. Cela exige de créer un bus de champ texte pour échanger des données entre les dispositifs. Cet échange de données peut uniquement se produire si ces appareils sont connectés, soit au moyen d’une technologie par câble ou sans fil. Une fois connecté, l’échange de données est facilité par des protocoles non brevetés et des normes ouvertes – toujours en gardant en tête la confidentialité des données et la sécurité. Donc, comment faciliter le fonctionnement du réseau et le rendre moins coûteux? En rendant les données accessibles en périphérie du réseau pour permettre une véritable interopérabilité. Les études de marché démontrent que la popularité des thermostats intelligents équipés de la technologie Wi-Fi est à la hausse. Ces thermostats permettent aux clients de surveiller et de régler leurs systèmes de chauffage et de climatisation centraux en fonction de paramètres de confort et de coût; il est aussi possible d’autoriser le thermostat à optimiser d’autres facteurs d’économie d’énergie. Dans le cadre d’un effort visant à maximiser nos investissements dans le réseau intelligent dans l’intérêt mutuel des clients et du service, Hydro One lancera son projet pilote Apportez votre propre thermostat vers la fin de l’année 2014. Ce projet pilote marque une transition par rapport au programme de réponse de la demande du thermostat « traditionnel », car Hydro One ne fournira plus les thermostats physiques, ni n’en fera l’installation. De plus, compte tenu de l’accent qui a été mis sur l’objectif ambitieux en regard de l’efficacité énergétique en Ontario d’ici 2020, un objectif essentiel du projet pilote sera d’évaluer les économies d’énergie qui peuvent être réalisées par certains des principaux thermostats intelligents. Dans cette présentation, nous exposerons les motivations et considérations qui ont mené à l’élaboration du modèle Apportez votre propre thermostat, décrirons en détail les objectifs et la conception du projet pilote, ainsi que les nombreux enseignements importants tirés jusqu’à présent, alors qu’Hydro One se prépare au lancement et à l’inscription des participants. Participants à cette session: »» MANISH JINDAL ( ERICSSON) Participants à cette session: ⇓ »» JASON HANDLEY (DIRECTEUR – OPÉRATIONS ET PROJETS ETO, DUKE ENERGY) Participants à cette session:⇓ »» MERNAZ MALOZEWSKI (PLANIFICATRICE STRATÉGIQUE PRINCIPALE DE LA GESTION DE LA CONSERVATION ET DE LA DEMANDE [GCD], HYDRO ONE) 35 Le Vendredi 3 Octobre 9:45 — 10:30 STE-HELENE 501 MCGILL 502 603 Étendre l’infrastructure mondiale des VE grâce à l’intégration au réseau des véhicules Réponse à la demande : Allier les applications de la gestion de l’énergie à la recherche opérationnelle Les récentes défaillances en cascade dans plusieurs réseaux électriques partout dans le monde ont souligné le besoin de créer de nouveaux systèmes de protection automatiques. De plus, les considérations économiques et environnementales limitent strictement l’addition de nouvelles lignes de transport d’énergie, ce qui implique que plus un système électrique se développe, plus celui-ci est soumis à de fortes tensions. En conséquence, il est nécessaire de réévaluer le rendement des systèmes de protection automatiques dans leur nouvel environnement afin d’assurer leur efficacité dans le cadre de la maintenance du système électrique et de la sécurité. Ce travail introduit les régimes de protection spéciaux (RPS) qui seront incorporés au plan de défense actuel d’Hydro-Québec comme moyen de maintenir son rendement et de répondre à tous les critères de conception de son réseau futur. À l’heure où les véhicules électriques (VE) font leur entrée sur le marché grand public, les services publics et leurs clients cherchent de nouvelles façons d’intégrer ces appareils intelligents à l’écosystème énergétique. Le Canada en particulier a ouvert la voie en faisant l’adoption d’une infrastructure de VE basée sur des normes ouvertes, ce qui a encouragé le dialogue quant à la manière d’étendre efficacement l’infrastructure de l’intégration au réseau des véhicules (IRV). La valeur qu’apporte le système de réponse à la demande, un élément essentiel du réseau intelligent, est largement acceptée, mais les mécanismes permettant d’exploiter pleinement cette valeur ne sont pas tous en place. La présentation conjointe de Schneider Electric et de l’École Polytechnique de Montréal abordera en détail la façon dont le traitement et l’analyse de grandes quantités de données, alliés aux techniques de recherche opérationnelle, ainsi qu’aux applications de gestion de l’énergie, peuvent conduire, au moment de la réponse à la demande, à maximiser la fiabilité de l’énergie et à réduire les coûts d’utilisation en période de pointe. Dans cette présentation, nous examinerons les applications de gestion de l’énergie dans le domaine des : 1) solutions résidentielles (pour les services publics et les consommateurs) et la convergence d’une unique source d’agrégation et d’analyse des données énergétiques, le commandement et le contrôle, ainsi que la gestion du point de vue de la demande, qui encourage les clients à réduire leur consommation d’énergie à l’aide d’une technologie intuitive; et des 2) solutions pour les petits édifices, plus précisément le contrôle de l’intensité pour les régulateurs de chaleur électrique et de température. Nous discuterons également de la manière dont il est possible d’optimiser l’écrêtement de la demande de pointe grâce à de nouvelles méthodes de recherche opérationnelle. Participants à cette session:⇓ »» MANUELA DOBRESCU (INGÉNIEURE, HYDRO-QUÉBEC) »» ANNISSA HENICHE (CHERCHEUSE – RÉSEAUX ÉLECTRIQUES ET MATHÉMATIQUES, IREQ HYDRO-QUÉBEC) En réponse aux défauts inhérents aux réseaux de recharge privés, les normes de recharge ouvertes comme celles employées dans les projets pilotes de BC Hydro et Powertech Labs, et de West Coast Green Highway ont pris leur essor au niveau mondial. Le Canada et le service principal BC Hydro ont là encore adopté une position audacieuse, cette fois pour assurer la durabilité des éléments d’actif des services publics, tout en s’intéressant à la réponse à la demande et aux possibilités d’intégration au réseau. Un ensemble de normes universel offre aux conducteurs une infrastructure de recharge indépendante du fournisseur et épargne aux services publics la tâche laborieuse d’avoir à décrypter des dizaines de « langages » de la technologie de recharge dans leurs efforts pour intégrer les VE et les programmes de réponse à la demande. Brett Hauser, le président du fournisseur de technologie de recharge Greenlots et cofondateur d’Open Charge Alliance, discutera de la manière dont les services publics, comme BC Hydro, emploient les normes ouvertes pour assurer la durabilité de l’infrastructure de recharge des VE et de la façon dont le concept d’« Open ADR » (gestion automatisée de la demande) intègre les modèles dynamiques d’établissement des prix avec les offres de services aux clients à des prix concurrentiels. Participants à cette session :⇓ »» LIN-ZHUANG KHOO (V.-P. D., GREENLOTS) 36 VIGER Les régimes spéciaux sur la protection des données d’HydroQuébec : présent et futur Participants à cette session:⇓ »» MIGUEL F. ANJOS (PROFESSEUR ET TITULAIRE DE LA CHAIRE DE RECHERCHE DU CANADA, INSTITUT DE L’ÉNERGIE TROTTIER, ÉCOLE POLYTECHNIQUE DE MONTRÉAL) »» YANN KULP (V.-P. – SOLUTIONS ÉNERGÉTIQUES RÉSIDENTIELLES, SCHNEIDER ELECTRIC) 11:00 — 11:45 STE-HELENE 601 Essai sur le terrain de régulateurs électroniques de puissance sous basse tension dans un réseau public de distribution Une nouvelle classe de régulateurs électroniques de puissance sous basse tension (BT), adaptée pour être utilisée dans la deuxième portion du réseau de distribution, offre une capacité multifonctionnelle de gestion de l’énergie, procurant une régulation dynamique de la tension, une compensation de puissance réactive et une annulation harmonique. Cette capacité de contrôle de l’activation appartenant aux services publics intègre aux services en place les systèmes de communication et les systèmes SCADA pour la gestion des circuits de distribution et la visibilité en périphérie du réseau. Dans cette présentation, nous ferons le résumé d’un essai sur le terrain dans l’environnement d’un service de distribution locale de Grand Sudbury Hydro. Les principaux objectifs de l’essai sont de faire la démonstration de la régulation de la tension continue en temps réel et sur le terrain, de définir les points d’intégration importants entre la régulation de la puissance et des systèmes d’opérations, et de comprendre les avantages économiques en général. Nous mettons l’accent dans cette présentation sur l’intégration des systèmes photovoltaïques solaires et les applications d’optimisation de tension-VAR (OTV). Le fonctionnement technique et les caractéristiques de rendement du nouveau régulateur sont décrits puisqu’ils sont pertinents à ces applications. La préparation pour l’essai sur le terrain inclut la définition des objectifs et de l’étendue, la modélisation du débit de puissance dans le système, la planification de l’intégration et les tests d’acceptation du fournisseur. Les résultats du rendement sur le terrain pour le régulateur d’électronique de puissance sont exposés et comparés aux objectifs des modèles et du projet. Les conséquences du rendement de l’appareil sur le système d’opérations et les possibilités de futurs emplois seront également abordées. MCGILL 602 VIGER 603 Solutions de réseau intelligent pour le réseau électrique du Yukon L’avenir prometteur des données et l’évolution des attentes des clients Actuellement, le réseau électrique du Yukon à Whitehorse repose principalement sur l’énergie hydro-électrique pour la production de l’électricité; moins de 1 % de celle-ci provient d’autres sources telles que le diésel et l’énergie éolienne. Cette dernière, produite au sommet des montagnes du Yukon, a le potentiel d’approvisionner en énergie propre de nouvelles charges, incluant celles des domiciles opérant la transition du chauffage à l’huile au chauffage électrique. Toutefois, l’énergie éolienne est une ressource variable et bien qu’elle possède le potentiel de produire de bons résultats en saison hivernale, des ressources additionnelles autres que l’hydro-électricité seront nécessaires pour parvenir à un équilibre. Afin de répondre à la fois à la croissance de la demande et à la demande des périodes de pointe, tout en évitant de dépendre de la production d’énergie non renouvelable, des solutions de réseau intelligent seront requises. Au cours de cette présentation, nous démontrerons le rôle que les accumulateurs thermiques et les chauffe-eau électriques peuvent jouer dans l’équilibrage de l’énergie renouvelable et pour conserver la consommation de diésel à un minimum. Nous exposerons pourquoi l’implantation de réseaux intelligents peut être employée pour gérer ces charges, augmentant de ce fait le facteur de charge et évitant les pièges de l’implantation de systèmes plus traditionnels, comme le besoin d’aller chercher des capacités additionnelles. Les avantages et les coûts nécessaires à l’exploitation d’un tel système joueront un rôle prépondérant dans cette discussion. Le sujet de cette présentation portera sur la manière dont l’analyse prédictive et l’optimisation font évoluer le fonctionnement et la gestion du réseau des services publics (incluant la maintenance préventive et l’analyse des données des compteurs intelligents), de même que sur la façon d’augmenter l’afflux de données provenant des compteurs intelligents et des réseaux intelligents pour améliorer les opérations et faire participer les clients. L’analyse des médias sociaux sera abordée sur le plan de l’évolution des attentes des clients et de la manière de faire participer les clients au sein du réseau. Participants à cette session:⇓ »» BRUCE ORLOFF (RESPONSABLE DES SOLUTIONS POUR LE RÉSEAU INTELLIGENT CANADIEN, IBM CANADA) Participants à cette session:⇓ »» PRÉSIDENT, JP PINARD CONSULTING »» STEVEN WONG (INGÉNIEUR DE RECHERCHE EN T ET D, NRCAN) Participants à cette session:⇓ »» JAMES SIMONELLI (TECHNICIEN EN CHEF, GRIDCO SYSTEMS) »» BRIAN MCMILLAN (V.-P. – DISTRIBUTION DES SYSTÈMES ÉLECTRIQUES, GRAND SUDBURY HYDRO) 37 Le Vendredi 3 Octobre 11:45 — 13:15 MONTRÉAL A-B Vision du panel au sommet Dans la discussion de ce panel de marque constitué de cadres dirigeants dans le domaine des services publics provenant de différentes régions partout au pays, ceux-ci exposeront leur vision des réseaux intelligents au Canada. Ce panel représente une excellente chance pour l’industrie d’entendre de première bouche l’opinion de certains de ses principaux chefs de file. Au cours de ce panel modéré seront examinés les problèmes d’affaires et de stratégie que les services publics rencontrent au moment d’opérer la transition vers un réseau intelligent. Ces chefs de file discuteront aussi des possibilités que le réseau intelligent peut apporter aux services publics modernes, que ce soit de nouvelles sources de revenus générées au moyen de l’amélioration des services ou l’augmentation de la charge due à la multiplication des véhicules électriques. Participants à cette session:⇓ »» INTRODUCTION: DANIEL LAPLANTE (PRÉSIDENT-DIRECTEUR GÉNÉRAL, ASSOCIATION DE L’INDUSTRIE ÉLECTRIQUE DU QUÉBEC) »» BRIAN BENTZ (PRESIDENT, POWERSTREAM) »» ANDRE VAN DIJK (V.-P. – SYSTÈME D’OPÉRATIONS, ENMAX) »» JUAN MACIAS (DIRECTEUR GÉNÉRAL – AUTOMATISATION DE RÉSEAU, GE DIGITAL ENERGY) »» ANDRÉ POTVIN (DIRECTEUR ENCADREMENT RÉSEAU ET PLANIFICATION CHEZ HYDRO-QUÉBEC) »» ANDRE VAN DIJK (V.-P. – SYSTÈME D’OPÉRATIONS, ENMAX) »» MIKE WINTERS (V.-P. D. – INGÉNIERIE ET CONSTRUCTION, HYDRO ONE) 38 13:15 — 14:00 STE-HELENE 701 MCGILL 702 703 Le potentiel axé sur le consommateur pour les nouveaux marchés dans le secteur des microréseaux Le potentiel axé sur le consommateur pour les nouveaux marchés dans le secteur des microréseaux Déterminer le type de capteur, la précision et l’emplacement du circuit de distribution maximise les avantages des capteurs et permet d’éviter l’achat, l’installation et l’entretien de capteurs qui ne serviront pas. Nous décrivons dans cette présentation comment choisir la classe d’exactitude du courant et de la tension, et donnons des exemples où des capteurs non traditionnels sont installés dans des circuits de distribution pour être en mesure d’effectuer la restauration automatique, l’optimisation de la tension et de la santé des actifs, ainsi que la réduction des pertes non techniques. Finalement, nous offrirons un aperçu des futurs capteurs pour la modernisation de la distribution du réseau et les applications de réseau intelligent. Des exemples des avantages/coûts basés sur des utilisations réelles seront aussi présentés. Les microréseaux sont une solution aux défis que pose l’accès aux réserves d’énergie, de même que la fiabilité et la qualité de ces réserves. Les microréseaux offriront aux consommateurs une alimentation en électricité autonome dans l’avenir. Comprendre ce qui motive les consommateurs à soutenir l’implantation des microréseaux est essentiel pour stimuler l’évolution du marché. Cette enquête, basée sur deux études de cas, examine le profil des consommateurs : à la fois les utilisateurs de microréseau connecté au réseau et hors du réseau. Un microréseau connecté au réseau a été conçu par Capgemini sur l’île de Texel, une initiative qui s’est étendue en raison de l’enthousiasme des consommateurs envers l’indépendance énergétique, l’économie d’énergie, ainsi que la durabilité et la sécurité énergétiques. Par contre, les systèmes hors du réseau sont souvent implantés dans les régions où l’expansion du réseau est irréalisable, que ce soit pour des raisons économiques ou physiques, ou bien dans les régions où la réduction de la consommation de diésel ou des subventions pour la consommation de diésel est requise. Les clients hors du réseau sont motivés par la nécessité d’avoir accès à l’énergie, plutôt que par l’indépendance que procure un réseau central. La transition vers les énergies renouvelables a elle aussi ouvert un large marché pour les microréseaux hors du réseau. À cette fin, Capgemini, en partenariat avec Advanced Energy Centre, a produit une solution toute faite d’un microréseau facile d’implantation destiné aux communautés éloignées. En résumé, les microréseaux gagnent en popularité auprès de différents types de clients, un progrès fondamental et stimulant dans l’évolution vers les réseaux intelligents. Notre présentation aborde la différence entre ces profils de clients qui contribuent à l’évolution de ce marché en croissance. Les microréseaux sont une solution aux défis que pose l’accès aux réserves d’énergie, de même que la fiabilité et la qualité de ces réserves. Les microréseaux offriront aux consommateurs une alimentation en électricité autonome dans l’avenir. Comprendre ce qui motive les consommateurs à soutenir l’implantation des microréseaux est essentiel pour stimuler l’évolution du marché. Cette enquête, basée sur deux études de cas, examine le profil des consommateurs : à la fois les utilisateurs de microréseau connecté au réseau et hors du réseau. Un microréseau connecté au réseau a été conçu par Capgemini sur l’île de Texel, une initiative qui s’est étendue en raison de l’enthousiasme des consommateurs envers l’indépendance énergétique, l’économie d’énergie, ainsi que la durabilité et la sécurité énergétiques. Par contre, les systèmes hors du réseau sont souvent implantés dans les régions où l’expansion du réseau est irréalisable, que ce soit pour des raisons économiques ou physiques, ou bien dans les régions où la réduction de la consommation de diésel ou des subventions pour la consommation de diésel est requise. Les clients hors du réseau sont motivés par la nécessité d’avoir accès à l’énergie, plutôt que par l’indépendance que procure un réseau central. La transition vers les énergies renouvelables a elle aussi ouvert un large marché pour les microréseaux hors du réseau. À cette fin, Capgemini, en partenariat avec Advanced Energy Centre, a produit une solution toute faite d’un microréseau facile d’implantation destiné aux communautés éloignées. En résumé, les microréseaux gagnent en popularité auprès de différents types de clients, un progrès fondamental et stimulant dans l’évolution vers les réseaux intelligents. Notre présentation aborde la différence entre ces profils de clients qui contribuent à l’évolution de ce marché en croissance. Participants à cette session:⇓ »» SANDY AIVALIOTIS (V.-P. D. – OPÉRATIONS, DÉV. DE LA TECHNOLOGIE ET DES AFFAIRES, NEXANS) »» ERIC HSIEH (DIRECTEUR, NEXANS) Participants à cette session:⇓ »» DOUG VODA (CHEF DU SECTEUR DES RÉSEAUX INTELLIGENTS AU NIVEAU MONDIAL – PRODUITS À MOYENNE TENSION, ABB) 14:00 VIGER Sélection et positionnement de capteurs pour les applications de réseau intelligent Participants à cette session:⇓ »» TOM CRAWFORD (CHEF DES RÉSEAUX INTELLIGENTS, SERVICES ÉNERGÉTIQUES INTELLIGENTS AU NIVEAU MONDIAL DE CAPGEMINI) »» RON DIZY (DIRECTEUR GÉNÉRAL, ADVANCED ENERGY CENTRE) Fin de la conférence 39 1 a t ad , 20 s a an -3 tU C r1 si id e Vi Gr tob eal t c r ar • O nt Sm # 5 M o h ot Bo Efficient, flexible, and secure. Welcome to the smarter grid. 4 Secure Efficient Flexible Optimize your network load management and your grid’s efficiency. Integrate more green energy and upgrade your ageing network in a cost-effective way. 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Finally, you can upgrade your network to meet the challenges of today — as well as tomorrow. ‘Whether your concern is focused on operations, or you need to implement a comprehensive demandside program, Schneider Electric has the experience and expertise to help you achieve yourgoals’. Scott Henneberry, VP of Smart Grid Strategy, Schneider Electric Make the most of your energySM 40 MiCOM digital protection relay Flair 200c Intelligent Distribution Sensor Advanced Distribution Management System (ADMS) ©2014 Schneider Electric. All Rights Reserved. Schneider Electric is a trademark owned by Schneider Electric Industries SAS or its affiliated companies. All other trademarks are the property of their respective owners. Apple and iPad are trademarks of Apple Inc., registered in the U.S. and other countries. • www.schneider-electric.com/ca • 998-5903_CA-CTA2_A Enhance your automation network security and comply with the most advanced regulations .
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