The document discusses three waves of change transforming New England's electricity production and power system. The first wave was a shift to natural gas generation in the late 1990s. The second wave saw growth in renewable energy and demand reduction resources starting in the 2000s. The third emerging wave is distributed generation such as rooftop solar. These changes are driven by factors like innovation, public policies, economics, and consumer choices. While opportunities exist, challenges also arise from the region's increasing dependence on natural gas and intermittent renewable resources. ISO New England is working to ensure a reliable transition through grid operations, market design, and planning.
Remarks by ISO New England CEO Gordon van Welie on the role of natural gas and pipelines for that gas and their importance to the electricity market in New England.
A new report just issued by the New England Coalition for Affordable Energy says New England is at a much greater risk for higher energy costs in the short-term because of lack of new pipelines.
AR ENERGY & UTILITIES FEB17_KPMG_AUSTRALIA.PDFCassandra Hogan
The document summarizes recent trends in Australia's energy and utilities sector according to Cassandra Hogan of KPMG Australia. There has been a shift toward more customer-centric markets and increasing penetration of renewable energy. Recent policy reforms aim to facilitate competition in energy services. Major challenges for executives include managing changes in generation, demand management, and ensuring reliability amid climate policy uncertainty. Privatization, renewable projects, and gas infrastructure are driving M&A activity. Looking ahead, policy focus will be on system security, gas market reforms, and integrating energy and emissions reduction policies.
This Independent Review into the Future Security of the National Electricity Market Preliminary Report identifies the complex forces driving a rapid transition across the electricity sector. It seeks input on key questions to navigate the transition in line with consumer expectations for a secure and reliable service, at an affordable price, that delivers on our national emissions reduction commitments.
Dr Finkel and the Panel welcome submissions responding to the Preliminary Report. The submission period is open until 21 February 2017.
ScottMadden recently joined industry leaders as a sponsor and presenter at Infocast’s 19th Annual Transmission Summit. Here, Todd Williams, partner and fossil practice co-leader at ScottMadden, reviewed the generation landscape and the impacts of the Clean Power Plan.
To learn more, please visit www.scottmadden.com.
Distributed energy resources (DERs) can provide net benefits to the electric system (e.g., congestion relief) and broader society (e.g., emission reductions). However, despite these advantages, the deployment of high penetrations of DER has proved challenging. Against this backdrop, the electric utility is often singled out as a fundamental barrier to deployment of DER assets. To overcome the perceived electric utility shortcomings, many stakeholders conclude that a completely new model is needed for the electric industry.
ScottMadden disagrees with this assessment and instead believes electric utilities maintain natural advantages that can be leveraged to deploy renewables and DER assets as well or better than some models being offered. In our 51st Phase II Roadmap, ScottMadden proposes leveraging the natural advantages of the electric utility in order to accelerate the deployment and penetration of DER assets.
For more information, please visit www.scottmadden.com.
The Evolution Of The Australian Electricity MarketIan McLeod
The document summarizes the evolution of Australia's National Electricity Market over the past 25 years from its formation to current disruptions. Key events included the establishment of the competitive market in 1998, an economic boom that increased prices, and a "perfect storm" of factors from 2008-2010 such as carbon policies and subsidies that led to rising costs and security issues. While renewable energy is growing and costs declining, the lack of national coordination and different state policies have created inefficiencies and market distortions. Moving forward, distributed energy resources and demand response will increasingly influence the grid while ensuring security and an efficient transition to low emissions.
Remarks by ISO New England CEO Gordon van Welie on the role of natural gas and pipelines for that gas and their importance to the electricity market in New England.
A new report just issued by the New England Coalition for Affordable Energy says New England is at a much greater risk for higher energy costs in the short-term because of lack of new pipelines.
AR ENERGY & UTILITIES FEB17_KPMG_AUSTRALIA.PDFCassandra Hogan
The document summarizes recent trends in Australia's energy and utilities sector according to Cassandra Hogan of KPMG Australia. There has been a shift toward more customer-centric markets and increasing penetration of renewable energy. Recent policy reforms aim to facilitate competition in energy services. Major challenges for executives include managing changes in generation, demand management, and ensuring reliability amid climate policy uncertainty. Privatization, renewable projects, and gas infrastructure are driving M&A activity. Looking ahead, policy focus will be on system security, gas market reforms, and integrating energy and emissions reduction policies.
This Independent Review into the Future Security of the National Electricity Market Preliminary Report identifies the complex forces driving a rapid transition across the electricity sector. It seeks input on key questions to navigate the transition in line with consumer expectations for a secure and reliable service, at an affordable price, that delivers on our national emissions reduction commitments.
Dr Finkel and the Panel welcome submissions responding to the Preliminary Report. The submission period is open until 21 February 2017.
ScottMadden recently joined industry leaders as a sponsor and presenter at Infocast’s 19th Annual Transmission Summit. Here, Todd Williams, partner and fossil practice co-leader at ScottMadden, reviewed the generation landscape and the impacts of the Clean Power Plan.
To learn more, please visit www.scottmadden.com.
Distributed energy resources (DERs) can provide net benefits to the electric system (e.g., congestion relief) and broader society (e.g., emission reductions). However, despite these advantages, the deployment of high penetrations of DER has proved challenging. Against this backdrop, the electric utility is often singled out as a fundamental barrier to deployment of DER assets. To overcome the perceived electric utility shortcomings, many stakeholders conclude that a completely new model is needed for the electric industry.
ScottMadden disagrees with this assessment and instead believes electric utilities maintain natural advantages that can be leveraged to deploy renewables and DER assets as well or better than some models being offered. In our 51st Phase II Roadmap, ScottMadden proposes leveraging the natural advantages of the electric utility in order to accelerate the deployment and penetration of DER assets.
For more information, please visit www.scottmadden.com.
The Evolution Of The Australian Electricity MarketIan McLeod
The document summarizes the evolution of Australia's National Electricity Market over the past 25 years from its formation to current disruptions. Key events included the establishment of the competitive market in 1998, an economic boom that increased prices, and a "perfect storm" of factors from 2008-2010 such as carbon policies and subsidies that led to rising costs and security issues. While renewable energy is growing and costs declining, the lack of national coordination and different state policies have created inefficiencies and market distortions. Moving forward, distributed energy resources and demand response will increasingly influence the grid while ensuring security and an efficient transition to low emissions.
FEI Submission to EE Panel_26Jul2016_FinalKevin Heal
The document provides recommendations for Alberta's community energy strategy, including establishing a target of 1 GW of clean community energy by 2030. It recommends updating the Micro-Generation Regulation with best practice net metering and interconnection rules, implementing new community energy incentive programs, and creating a Community Energy Regulation to provide new community energy tariffs and evolve Alberta's electricity system towards a smart grid. The recommendations aim to learn from other jurisdictions and establish policies and programs to support the growth of distributed energy resources in Alberta.
U.S. Department of State, Office of International Information Programs Confer...Alliance To Save Energy
In his presentation, Castelli addresses The Role of Energy Efficiency in Energy Security and Climate Change. Taking into consideration the global energy concerns and the increasinly volatile geopolitical landscape, there is a great need to improve energy intensity across the world. Energy efficiency - which is at the nexus of economic objectives, energy security & foreign policy objectives, and environmental objectives - offers a great opportunity to achieve this. Castelli discussed the roles that the public and private sectors must play to sieze this potential in Russia and former Soviet Union countries. In this area of the world, he said, energy efficiency can significantly reduce consumer energy consumption, particularly in home heating.
See page 10 for Professor Jillian Anable's contribution on low carbon transport and air quality.
www.ukerc.ac.uk/news/ukerc-calls-for-urgent-action-on-uk-energy-during-this-parliament-.html
Copyright UKERC.
Rhone Resch, President & CEO of the Solar Energy Industries Association (SEIA), presented at the GW Solar Institute Symposium on April 19, 2010. For more information visit: solar.gwu.edu/Symposium.html
This document summarizes the key issues facing Pakistan's economy and energy security, specifically in the power sector. It identifies three main causes of the ongoing problems: (1) an unwillingness by many to pay the actual costs of electricity due to subsidies; (2) political pressure to maintain subsidies across all consumers; and (3) high transmission losses and theft due in part to weak accountability. The document reviews various proposals in Pakistan's new National Power Policy to address these issues through tariff reforms, curbing losses, and increasing competition in generation. Overall it argues comprehensive reforms are needed across regulatory bodies, state-owned companies, and the civil service to resolve the systemic problems plaguing the power sector.
This document provides an overview of the electric industry in Texas. It discusses the different market structures for electricity, including the competitive wholesale market in ERCOT versus regulated markets outside of ERCOT. In ERCOT, separate companies provide retail, transmission/distribution, and generation services, with wholesale and retail prices set by competitive market forces. Outside of ERCOT, a single company provides all services in each area, with retail rates set by the Public Utility Commission. The competitive wholesale market in ERCOT has brought greater efficiency through generators taking on risk to build new power plants.
This document summarizes the key findings of a report by Carbon Tracker that analyzes the future role of natural gas in the power sector. The report finds that:
1. A large portion of existing gas-fired power plants in Europe and the US are already unprofitable to operate, and this portion is expected to grow as renewables become cheaper over time.
2. If gas plants are forced to close earlier than planned to meet climate targets, it could strand over $10 billion of investments in Europe and $5.8 billion in the US. However, early closure of loss-making plants could save $8 billion and $7.9 billion in Europe and US respectively.
3. Contin
A Grid Dominated by Wind and Solar is Possible: South Australia Case StudyCatherineRizos
The document discusses lessons learned from South Australia's high renewable energy penetration grid. It notes that South Australia has reached 60% annual renewable electricity production, with periods of up to 100% solar power. It also discusses how reliability and security have been maintained in the high VRE grid through various mechanisms like synchronous condensers, battery storage, and market reforms. Wind and solar have also brought down electricity prices in South Australia. The document concludes that with further grid upgrades and innovations, even higher renewable penetrations can be accommodated while maintaining reliability.
The Texas Electric Industry: A History of Innovationaectnet
The document discusses the history and current state of the electric industry in Texas. It notes that Texas established a competitive electric market in 1999 that has led to innovation and customer choice. It summarizes the key players in the Texas market, including retail electric providers and transmission and distribution utilities. The document also discusses trends in electric generation, transmission infrastructure needs, and environmental performance to meet the growing demand of Texas's population and economy.
Renewable Energy Presentation - Joanne Howarduktila
The document discusses opportunities and challenges in the US renewable energy market. It notes that renewables could provide 635 GW of new capacity by 2025, with wind, solar and geothermal growing significantly. The new administration plans to invest over $150 billion in clean technology and renewables by 2050. However, the financial crisis has reduced tax equity financing and transmission challenges remain. Each renewable technology faces issues around costs, manufacturing, deployment and incentives.
The US solar market grew in 2009 despite the recession. Photovoltaic installations increased by 40% overall, with residential installations doubling and utility installations tripling. However, non-residential installations saw no growth. California remained the largest market, but many other states like New Jersey and Florida saw installations more than double. The outlook for continued growth in 2010 and beyond is positive due to policy incentives and new project announcements.
Investment in solar and wind generation in australia lessons learnedachanana
This document discusses lessons learned from the rapid investment in solar and wind generation in Australia's National Electricity Market (NEM). It notes that renewable energy has increased dramatically in recent years, with over 18,000 MW of wind and solar installed, connecting in remote low-voltage areas. This has changed generation flows and caused issues like network overloading, low system strength, and increased losses over long distances to load centers. The document examines challenges around coordinating generation and transmission investment, negotiating performance standards for multiple concurrent connections, and the impact on network losses and loss factors used for pricing.
The document introduces the new leadership team at the Association of Electric Companies of Texas (AECT), including Julia Rathgeber as President & CEO with 25 years of experience in government, and three Vice Presidents covering policy, communications, and government relations. It then provides updates on the competitive electric market in Texas including low prices compared to other states, and the restoration efforts after heavy rains and flooding in Houston where nearly 90% of customers were restored within 27 hours thanks to utility crews and smart grid technology. It concludes with information on how to stay updated on electric industry issues through AECT's website and social media channels.
This document provides an overview of renewable energy in Australia, with a focus on developments in South Australia and New South Wales. It discusses the growth of the global and Australian renewable energy markets. It notes that South Australia has seen renewable energy penetration approaching 40% of electricity generation, with accompanying declines in emissions and wholesale electricity prices. It also discusses policy options to facilitate further modernization and decarbonization of Australia's electricity system. The presenter concludes that there is significant momentum worldwide to decarbonize electricity, and that higher levels of renewable energy can be reliably achieved in Australia through emerging technologies.
The Overall Energy Ecosystem In Australia And How It Is TransformingIan McLeod
A cleaner, secure and affordable energy future is a balanced and achievable outcome for Australia. Can we move from the chaos of the past to an orderly transition.
Update on the Texas Electric Industry: Preparing for Summeraectnet
This document provides an update on preparations for summer in the Texas electric industry. It discusses how higher temperatures increase electricity consumption and bills. Retail electric providers have launched solutions to address common customer inquiries during the summer, such as providing energy efficiency tips and bill payment assistance options. Generators are prepared for increased demand during heat waves. Hurricane season also begins in June.
This document discusses Australian renewable energy policies. It provides background on Australia's reliance on fossil fuels for electricity generation and goals to increase renewable energy. Key policies that have been implemented to encourage renewable energy include the Renewable Energy Target scheme, carbon pricing, feed-in tariffs, and funding from the Australian Renewable Energy Agency. However, the document also notes there are ongoing policy challenges including instability, high costs, and lack of coordination between federal and state governments.
Transformers for Electric Arc-Melting Furnaces with Direct Voltage RegulationJuso Ikanovic
In modern metallurgical and chemical industry there is an
increasing need for electric arc-melting furnaces. Transformer
is also one of the vital parts by which power is supplied to furnaces.
Because of their technological aspects, Electric arcmelting
furnaces, need special transformers different from
usual distribution units. The main problem arises from the demand
for relatively wide range of regulation on the low voltage
side.
In this article one of the many principles of voltage
regulation is described, nomely, low voltage regulation by
means of magnetic flux variations.
FEI Submission to EE Panel_26Jul2016_FinalKevin Heal
The document provides recommendations for Alberta's community energy strategy, including establishing a target of 1 GW of clean community energy by 2030. It recommends updating the Micro-Generation Regulation with best practice net metering and interconnection rules, implementing new community energy incentive programs, and creating a Community Energy Regulation to provide new community energy tariffs and evolve Alberta's electricity system towards a smart grid. The recommendations aim to learn from other jurisdictions and establish policies and programs to support the growth of distributed energy resources in Alberta.
U.S. Department of State, Office of International Information Programs Confer...Alliance To Save Energy
In his presentation, Castelli addresses The Role of Energy Efficiency in Energy Security and Climate Change. Taking into consideration the global energy concerns and the increasinly volatile geopolitical landscape, there is a great need to improve energy intensity across the world. Energy efficiency - which is at the nexus of economic objectives, energy security & foreign policy objectives, and environmental objectives - offers a great opportunity to achieve this. Castelli discussed the roles that the public and private sectors must play to sieze this potential in Russia and former Soviet Union countries. In this area of the world, he said, energy efficiency can significantly reduce consumer energy consumption, particularly in home heating.
See page 10 for Professor Jillian Anable's contribution on low carbon transport and air quality.
www.ukerc.ac.uk/news/ukerc-calls-for-urgent-action-on-uk-energy-during-this-parliament-.html
Copyright UKERC.
Rhone Resch, President & CEO of the Solar Energy Industries Association (SEIA), presented at the GW Solar Institute Symposium on April 19, 2010. For more information visit: solar.gwu.edu/Symposium.html
This document summarizes the key issues facing Pakistan's economy and energy security, specifically in the power sector. It identifies three main causes of the ongoing problems: (1) an unwillingness by many to pay the actual costs of electricity due to subsidies; (2) political pressure to maintain subsidies across all consumers; and (3) high transmission losses and theft due in part to weak accountability. The document reviews various proposals in Pakistan's new National Power Policy to address these issues through tariff reforms, curbing losses, and increasing competition in generation. Overall it argues comprehensive reforms are needed across regulatory bodies, state-owned companies, and the civil service to resolve the systemic problems plaguing the power sector.
This document provides an overview of the electric industry in Texas. It discusses the different market structures for electricity, including the competitive wholesale market in ERCOT versus regulated markets outside of ERCOT. In ERCOT, separate companies provide retail, transmission/distribution, and generation services, with wholesale and retail prices set by competitive market forces. Outside of ERCOT, a single company provides all services in each area, with retail rates set by the Public Utility Commission. The competitive wholesale market in ERCOT has brought greater efficiency through generators taking on risk to build new power plants.
This document summarizes the key findings of a report by Carbon Tracker that analyzes the future role of natural gas in the power sector. The report finds that:
1. A large portion of existing gas-fired power plants in Europe and the US are already unprofitable to operate, and this portion is expected to grow as renewables become cheaper over time.
2. If gas plants are forced to close earlier than planned to meet climate targets, it could strand over $10 billion of investments in Europe and $5.8 billion in the US. However, early closure of loss-making plants could save $8 billion and $7.9 billion in Europe and US respectively.
3. Contin
A Grid Dominated by Wind and Solar is Possible: South Australia Case StudyCatherineRizos
The document discusses lessons learned from South Australia's high renewable energy penetration grid. It notes that South Australia has reached 60% annual renewable electricity production, with periods of up to 100% solar power. It also discusses how reliability and security have been maintained in the high VRE grid through various mechanisms like synchronous condensers, battery storage, and market reforms. Wind and solar have also brought down electricity prices in South Australia. The document concludes that with further grid upgrades and innovations, even higher renewable penetrations can be accommodated while maintaining reliability.
The Texas Electric Industry: A History of Innovationaectnet
The document discusses the history and current state of the electric industry in Texas. It notes that Texas established a competitive electric market in 1999 that has led to innovation and customer choice. It summarizes the key players in the Texas market, including retail electric providers and transmission and distribution utilities. The document also discusses trends in electric generation, transmission infrastructure needs, and environmental performance to meet the growing demand of Texas's population and economy.
Renewable Energy Presentation - Joanne Howarduktila
The document discusses opportunities and challenges in the US renewable energy market. It notes that renewables could provide 635 GW of new capacity by 2025, with wind, solar and geothermal growing significantly. The new administration plans to invest over $150 billion in clean technology and renewables by 2050. However, the financial crisis has reduced tax equity financing and transmission challenges remain. Each renewable technology faces issues around costs, manufacturing, deployment and incentives.
The US solar market grew in 2009 despite the recession. Photovoltaic installations increased by 40% overall, with residential installations doubling and utility installations tripling. However, non-residential installations saw no growth. California remained the largest market, but many other states like New Jersey and Florida saw installations more than double. The outlook for continued growth in 2010 and beyond is positive due to policy incentives and new project announcements.
Investment in solar and wind generation in australia lessons learnedachanana
This document discusses lessons learned from the rapid investment in solar and wind generation in Australia's National Electricity Market (NEM). It notes that renewable energy has increased dramatically in recent years, with over 18,000 MW of wind and solar installed, connecting in remote low-voltage areas. This has changed generation flows and caused issues like network overloading, low system strength, and increased losses over long distances to load centers. The document examines challenges around coordinating generation and transmission investment, negotiating performance standards for multiple concurrent connections, and the impact on network losses and loss factors used for pricing.
The document introduces the new leadership team at the Association of Electric Companies of Texas (AECT), including Julia Rathgeber as President & CEO with 25 years of experience in government, and three Vice Presidents covering policy, communications, and government relations. It then provides updates on the competitive electric market in Texas including low prices compared to other states, and the restoration efforts after heavy rains and flooding in Houston where nearly 90% of customers were restored within 27 hours thanks to utility crews and smart grid technology. It concludes with information on how to stay updated on electric industry issues through AECT's website and social media channels.
This document provides an overview of renewable energy in Australia, with a focus on developments in South Australia and New South Wales. It discusses the growth of the global and Australian renewable energy markets. It notes that South Australia has seen renewable energy penetration approaching 40% of electricity generation, with accompanying declines in emissions and wholesale electricity prices. It also discusses policy options to facilitate further modernization and decarbonization of Australia's electricity system. The presenter concludes that there is significant momentum worldwide to decarbonize electricity, and that higher levels of renewable energy can be reliably achieved in Australia through emerging technologies.
The Overall Energy Ecosystem In Australia And How It Is TransformingIan McLeod
A cleaner, secure and affordable energy future is a balanced and achievable outcome for Australia. Can we move from the chaos of the past to an orderly transition.
Update on the Texas Electric Industry: Preparing for Summeraectnet
This document provides an update on preparations for summer in the Texas electric industry. It discusses how higher temperatures increase electricity consumption and bills. Retail electric providers have launched solutions to address common customer inquiries during the summer, such as providing energy efficiency tips and bill payment assistance options. Generators are prepared for increased demand during heat waves. Hurricane season also begins in June.
This document discusses Australian renewable energy policies. It provides background on Australia's reliance on fossil fuels for electricity generation and goals to increase renewable energy. Key policies that have been implemented to encourage renewable energy include the Renewable Energy Target scheme, carbon pricing, feed-in tariffs, and funding from the Australian Renewable Energy Agency. However, the document also notes there are ongoing policy challenges including instability, high costs, and lack of coordination between federal and state governments.
Transformers for Electric Arc-Melting Furnaces with Direct Voltage RegulationJuso Ikanovic
In modern metallurgical and chemical industry there is an
increasing need for electric arc-melting furnaces. Transformer
is also one of the vital parts by which power is supplied to furnaces.
Because of their technological aspects, Electric arcmelting
furnaces, need special transformers different from
usual distribution units. The main problem arises from the demand
for relatively wide range of regulation on the low voltage
side.
In this article one of the many principles of voltage
regulation is described, nomely, low voltage regulation by
means of magnetic flux variations.
O documento resume uma assembleia geral com servidores do Judiciário e Ministério Público marcada para o dia 6 de dezembro com indicativo de greve por tempo indeterminado a partir do dia 7. A assembleia vai decidir sobre a greve em resposta ao não pagamento de reajustes salariais pelo governo e à demora na tramitação do projeto no Congresso e julgamento de mandado de segurança no STF sobre o assunto.
This document outlines a leadership and management course taught by Prof. Pulung Peranginangin. The course focuses on developing leaders who can create positive global impact and shape minds by being pioneering and inspiring others with a passion for excellence while embracing diversity.
how to make small Database basic steps screenshortShahbaz Khan
Shahbaz Khan is a student with roll number 2620 at AUST. The document provides his name, student identification number, and university. It indicates that he is starting a new project.
The document discusses strategies for the Bank of Moscow to help establish Moscow as an international financial center. It identifies target customer segments for the Bank based on a SWOT analysis, including young leaders, affluent middle-aged, active middle-aged, and rational youth. The strategy proposes focusing on increasing financial literacy, developing products tailored for each segment, and investing in personnel training to capture more customers and investments. Projections estimate the strategies could increase the Bank's investments in Moscow by over 150% by 2016.
O documento descreve o sistema de formação de adultos da União dos Escoteiros do Brasil (UEB), incluindo os processos de captação, formação e acompanhamento. A formação é composta por dois níveis (preliminar e básico) em duas linhas (escoteira e dirigente institucional). Cada nível inclui tarefas prévias, curso e prática supervisionada.
In this prentation cognitive radio is described, discussed
and compared with software defined radio (SDR). The two types
of cognitive radio are presented and examples on both spectrum
interweave and spectrum underlay cognitive radio antenna systems
are detailed. Reconfigurable filtennas are proposed as communicating
antennas in a MIMO setting for both cases of cognitive
radio. The benefits of resorting to filtennas as well as toMIMO
configuration is shown and discussed herein. The various antenna
examples are designed, tested and compared with each other. Conclusions
are drawn based on the presented results.
The document provides an overview and summary of the state of the electricity grid in New England in 2016 from ISO New England. Key points include:
1) Natural gas is the primary fuel used for electricity generation in the region, accounting for nearly 65% of new proposed generation, but gas pipeline constraints remain a reliability challenge.
2) Wholesale electricity prices are closely linked to natural gas prices, and winter prices are higher due to pipeline constraints.
3) Over 4,200 MW of generation has recently retired or will retire by 2020, signaling the need for new supply resources to replace them.
4) The region is shifting to renewable resources like wind and solar to meet state clean energy standards, but
The renewable energy target solar administrative reportLuiz Cruz
The document discusses the progress and developments of renewable energy in Australia in 2016. Some key points include:
- Investment in both small and large-scale renewable energy installations continued strongly in 2016, with increased confidence in the large-scale renewable energy target. Over $4 billion in new renewable energy projects were committed.
- The small-scale renewable energy scheme saw a continued rise in average system sizes, driven by strong growth in commercial solar installations. Overall installation rates were high in the fourth quarter of 2016.
- 2016 saw some new challenges in regulating the renewable energy market as technologies advanced and new business models emerged that were not anticipated when legislation was originally drafted.
- With only a few years until the 2020
The document discusses Britain's changing energy landscape and options for securing future energy supplies. It provides perspectives from industry on the following key points:
1) The energy industry views a mix of energy sources like nuclear, gas, and renewables as the best approach for long-term energy security.
2) While the Electricity Market Reform program is workable, the energy landscape is changing rapidly so long-term commitments may not be wise.
3) The government should do more to encourage demand-side initiatives and value flexibility from large customers in managing energy use.
IEA Technology roadmap solar photovoltaic energy 2014 Andrew Gelston
This document provides a summary and update of the International Energy Agency's 2014 technology roadmap for solar photovoltaic energy. It envisions solar PV providing up to 16% of global electricity by 2050, compared to 11% in the 2010 roadmap. Significant cost reductions have already been achieved, with further reductions possible through targeted research and development. Large-scale integration of variable solar PV will require measures to ensure grid stability and flexibility. Clear and predictable policy support is needed to continue driving down costs and overcoming non-economic barriers to deployment in order to achieve the roadmap's vision.
Why Policy Matters - Renewable Energy Market Momentum at Risk - June 2015Scott Clausen
The U.S. has implemented policies that have successfully attracted hundreds of billions of dollars in private investment to the renewable energy sector. This investment has enabled rapid scaling of the industry and significant cost reductions. However, continuing uncertainty around policies like the PTC and ITC is jeopardizing future investment and growth in the renewable energy sector by making long-term planning difficult. Extending these policies would provide certainty and allow the U.S. renewable energy momentum to continue.
Wind Power Regulatory Framework Survey 2016Stavros Thomas
In the first semester of 2016 a survey was conducted to holistically evaluate the effectiveness of the existing wind power regulatory framework and the related supporting mechanisms performance. The investigation included respondents from around the world spanning a broad range of stakeholders, wind power professionals, insurance providers and policy makers.
The survey conducted to assess the strengths and weaknesses of the existing regulatory framework for the wind energy (particularly offshore) and provide an indicative picture of the pragmatic needs and improvements in the path to a more sustainable energy system and democratic control over renewable energy.
The document discusses how new technologies could impact energy markets. It summarizes discussions from the 10th SITE Energy Day regarding wind energy, smart grids, and electromobility. Wind power is now competitive with fossil fuels and is pressuring energy prices down through increased supply. However, it also introduces more volatility. Smart grids make renewable integration and prosumer activity easier but require regulatory and legal frameworks. Electromobility could reduce transport emissions if supported by renewable electricity. New technologies may allow carbon neutrality by reducing oil and gas use, though cross-border cooperation and investment in new connections will be needed.
FUTURE RESILIENCE OF THE UK ELECTRICITY SYSTEM ARE WE RESILIENT TO MEET THE N...Peter Jones
The Energy Research Partnership (ERP) has brought together a range of stakeholders from across the energy sector to develop a common view on the future resilience of the UK Electricity System.
This work has identified a range of emerging trends that are changing the way we operate the electricity system and will need to be acted upon to assure we have a resilient electricity system in the future. In response to these trends a number of recommendations have been made that require action over the next decade to assure resilience of the electricity system in the future.
A number of factors are contributing to increases in renewable energy production in the United
States (and beyond). These factors include rapidly declining costs of electricity produced from
renewable energy sources, regulatory and policy obligations and incentives, and moves to reduce
pollution from fossil fuel-based power generation, including greenhouse gas emissions. While
not all renewable energy sources are variable, two such technologies – wind and solar PV –
currently dominate the growth of renewable electricity production. The production from wind
and solar PV tries to capture the freely available but varying amount of wind and solar
irradiance. As the share of electricity produced from variable renewable resources grows, so does
the need to integrate these resources in a cost-effective manner, i.e., to ensure that total
electricity production from all sources including variable renewable generation equals electricity
demand in real time. Also, a future electric system characterized by a rising share of renewable
energy will likely require concurrent changes to the existing transmission and distribution
(T&D) infrastructure. While this report does not delve into that topic, utilities, grid operators
and regulators must carefully plan for needed future investments in T&D, given the lead times
and complexities involved.
IChemE Energy Centre report - Transitions in electricity systems towards 2030...Alexandra Howe
1. Climate change mitigation efforts in the analyzed countries are implemented only if they promote economic growth objectives.
2. Energy security concerns drive diversification of electricity sources, with many countries investing in natural gas infrastructure and promoting renewable energy.
3. A key driver of capacity expansion is addressing shortages in electricity supply to fuel economic growth, with countries investing in new generation capacity and transmission infrastructure.
THE CHALLENGES AND OPPORTUNITIES FOR LOCAL AREA ENERGY SYSTEMS IN THE UK ENER...Peter Jones
In the summer of 2019, the Energy Research Partnership brought together key industry and government stakeholders to conduct a ‘state of the industry’ review of the potential role of local area energy in future UK energy systems.
Local and community level energy systems have been identified as being a significant enabler to achieving the 2050 net zero targets as well as offering improvements to local community transport systems, the environment and social care.
Dominique MINIERE, EDF Senior Vice President, Deputy Chief Operating Officer and SFEN President, opened the 4th edition of Atoms for the Future. He welcomed the 250 participants coming from 13 countries with the very good news of the UK project which will see two EPRs being built on the Hinkley Point site. He emphasized the global need for electricity, especially in developing countries, and therefore the high potential for further nuclear development.
The results of the global Energy Architecture Performance Index (EAPI) 2017 highlight key trends in the energy transition moving towards more sustainable, affordable and secure energy systems around the world, as well as the challenges countries continue to face, individually and as cohorts. Looking back at five years of data from the EAPI, this report also distils insights from countries that have shown significant improvements in performance or remained consistently high performers
:: CAPITAL RENOVABLE :: "Smart Energy Solutions"
--- 2014 Brochure -_________________________________________________
Capital Renovable is a company dedicated to the
development, construction and operation of projects for
generation and sale of electricity based on nonconventional
renewable energy (NCRE).
This document summarizes a study conducted by the Nuclear Energy Agency (NEA) on the system costs of decarbonizing electricity generation with high shares of nuclear power and renewables. The study models eight scenarios with different technology mixes to achieve a 50g CO2/kWh target by 2050. It finds that a balanced mix of variable renewables, nuclear, and other dispatchable generation results in the lowest system costs. High shares of variable renewables increase costs due to integration challenges, though these costs can be reduced through policies that value reliability and flexibility. The study provides policymakers with insights on cost-effectively achieving deep decarbonization of the electricity sector.
Roadmap for Indonesia's Power Sector - Summary for Policy MakersGandabhaskara Saputra
- The study models different pathways for Indonesia's power system to meet energy and climate targets from 2018-2027, focusing on Java-Bali and Sumatra where most people and electricity consumption are located.
- Analysis using PLEXOS power system modeling software finds that if PLN continues overestimating demand and building excess coal capacity, over $12 billion could be wasted. Doubling renewable energy through wind and solar is comparable in cost and would reduce emissions 36%.
- A high renewables scenario coupled with energy savings could save $10 billion over 10 years compared to current plans, requiring lower costs and a long-term strategic renewable energy expansion plan with clear targets. Even with 43% renewables, security of
Spencer Ogden is an energy recruitment specialist that represents energy professionals in sectors like oil & gas, nuclear, and renewables. It focuses solely on energy recruiting and offers permanent and contract positions. Spencer Ogden recruits for a range of clients in the energy sector and has extensive knowledge of different energy markets. Its consultants work across sectors to meet changing client and candidate needs in the transitioning energy industry.
Bristol Energy Cooperative Bond Offer July 2017Andy O'Brien
Bristol Energy Cooperative (BEC) launches a new crowdfund to continue its journey to become a major generator of community-owned clean energy.
The crowdfund target of £1,150,000 will enable BEC to repay previous loans and invest in new micro-renewable generation and storage schemes. These include a 100kW Tesla battery storage project at a new sustainable housing site.
This bond offer builds on the popularity of BEC’s energy schemes where surplus profits are reinvested into the community. BEC has a proven track record of funding and developing renewables, including raising the ambitious sum of £10m last year.
Find out more in Director Andy O'Brien's presentation detailing BEC's plans for the future.
Similar to ISO New England - 2016 Regional Electricity Outlook (20)
The document summarizes five key facts about the recovery of US shale oil production:
1) Rig counts have increased by 90% since bottoming out in May 2016 and are up 30% year-over-year, signaling increased drilling and production capacity.
2) While decline rates remain steep, production profiles have increased substantially due to technological advances, meaning aggregate supply will be stronger.
3) Preliminary data shows that net new shale supply turned positive in December 2016 for the first time since March 2015, recovering just 7 months after rig counts increased.
4) Increased drilling activity is supported by a large stock of drilled but uncompleted wells, demonstrating the recovery and expansion of the shale sector.
5)
Quarterly legislative action update: Marcellus and Utica shale region (4Q16)Marcellus Drilling News
A quarterly update from the legal beagles at global law firm Norton Rose Fulbright. A quarterly legislative action update for the second quarter of 2016 looking at previously laws acted upon, and new laws introduced, affecting the oil and gas industry in Pennsylvania, Ohio and West Virginia.
An update from Spectra Energy on their proposed $3 billion project to connect four existing pipeline systems to flow more Marcellus/Utica gas to New England. In short, Spectra has put the project on pause until mid-2017 while it attempts to get new customers signed.
A letter from Rover Pipeline to the Federal Energy Regulatory Commission requesting the agency issue the final certificate that will allow Rover to begin tree-clearing and construction of the 511-mile pipeline through Pennsylvania, West Virginia, Ohio and Michigan. If the certificate is delayed beyond the end of 2016, it will delay the project an extra year due to tree-clearing restrictions (to accommodate federally-protected bats).
DOE Order Granting Elba Island LNG Right to Export to Non-FTA CountriesMarcellus Drilling News
An order issued by the U.S. Dept. of Energy that allows the Elba Island LNG export facility to export LNG to countries with no free trade agreement with the U.S. Countries like Japan and India have no FTA with our country (i.e. friendly countries)--so this is good news indeed. Although the facility would have operated by sending LNG to FTA countries, this order opens the market much wider.
A study released in December 2016 by the London School of Economics, titled "On the Comparative Advantage of U.S. Manufacturing: Evidence from the Shale Gas Revolution." While America has enough shale gas to export plenty of it, exporting it is not as economic as exporting oil due to the elaborate processes to liquefy and regassify natural gas--therefore a lot of the gas stays right here at home, making the U.S. one of (if not the) cheapest places on the planet to establish manufacturing plants, especially for manufacturers that use natural gas and NGLs (natural gas liquids). Therefore, manufacturing, especially in the petrochemical sector, is ramping back up in the U.S. For every two jobs created by fracking, another one job is created in the manufacturing sector.
Letter From 24 States Asking Trump & Congress to Withdraw the Unlawful Clean ...Marcellus Drilling News
A letter from the attorneys general from 24 of the states opposed to the Obama Clean Power Plan to President-Elect Trump, RINO Senate Majority Leader Mitch McConnel and RINO House Speaker Paul Ryan. The letter asks Trump to dump the CPP on Day One when he takes office, and asks Congress to adopt legislation to prevent the EPA from such an egregious overreach ever again.
Report: New U.S. Power Costs: by County, with Environmental ExternalitiesMarcellus Drilling News
Natural gas and wind are the lowest-cost technology options for new electricity generation across much of the U.S. when cost, public health impacts and environmental effects are considered. So says this new research paper released by The University of Texas at Austin. Researchers assessed multiple generation technologies including coal, natural gas, solar, wind and nuclear. Their findings are depicted in a series of maps illustrating the cost of each generation technology on a county-by-county basis throughout the U.S.
Annual report issued by the U.S. Energy Information Administration showing oil and natural gas proved reserves, in this case for 2015. These reports are issued almost a year after the period for which they report. This report shows proved reserves for natural gas dropped by 64.5 trillion cubic feet (Tcf), or 16.6%. U.S. crude oil and lease condensate proved reserves also decreased--from 39.9 billion barrels to 35.2 billion barrels (down 11.8%) in 2015. Proved reserves are calculated on a number of factors, including price.
The document is a report from the U.S. Energy Information Administration analyzing oil and gas production from seven regions in the U.S. It includes charts and tables showing historical and projected production levels of oil and gas from each region from 2008 to 2017, as well as metrics like the average production per rig. The regions - Bakken, Eagle Ford, Haynesville, Marcellus, Niobrara, Permian, and Utica - accounted for 92% of domestic oil production growth and all domestic natural gas production growth from 2011-2014.
Velocys is the manufacturer of gas-to-liquids (GTL) plants that convert natural gas (a hyrdocarbon) into other hydrocarbons, like diesel fuel, gasoline, and even waxes. This PowerPoint presentation lays out the Velocys plan to get the company growing. GTL plants have not (so far) taken off in the U.S. Velocys hopes to change that. They specialize in small GTL plants.
PA DEP Revised Permit for Natural Gas Compression Stations, Processing Plants...Marcellus Drilling News
In January 2016, Gov. Wolf announced the DEP would revise its current general permit (GP-5) to update the permitting requirements for sources at natural gas compression, processing, and transmission facilities. This is the revised GP-5.
PA DEP Permit for Unconventional NatGas Well Site Operations and Remote Piggi...Marcellus Drilling News
In January 2016, PA Gov. Wolf announced the Dept. of Environmental Protection would develop a general permit for sources at new or modified unconventional well sites and remote pigging stations (GP-5A). This is the proposed permit.
Onerous new regulations for the Pennsylvania Marcellus Shale industry proposed by the state Dept. of Environmental Protection. The new regs will, according to the DEP, help PA reduce so-called fugitive methane emissions and some types of air pollution (VOCs). This is liberal Gov. Tom Wolf's way of addressing mythical man-made global warming.
The monthly Short-Term Energy Outlook (STEO) from the U.S. Energy Information Administration for December 2016. This issue makes a couple of key points re natural gas: (1) EIA predicts that natural gas production in the U.S. for 2016 will see a healthy decline over 2015 levels--1.3 billion cubic feet per day (Bcf/d) less in 2016. That's the first annual production decline since 2005! (2) The EIA predicts the average price for natural gas at the benchmark Henry Hub will climb from $2.49/Mcf (thousand cubic feet) in 2016 to a whopping $3.27/Mcf in 2017. Why the jump? Growing domestic natural gas consumption, along with higher pipeline exports to Mexico and liquefied natural gas exports.
This document provides an overview of the natural gas market in the Northeast United States, including New England, New York, New Jersey, and Pennsylvania. It details statistics on gas customers, consumption, infrastructure like pipelines and storage, and production. A key point is that the development of the Marcellus Shale in Pennsylvania has significantly increased domestic gas production in the region and reduced its reliance on other supply basins and imports.
The Pennsylvania Public Utility Commission responded to each point raised in a draft copy of the PA Auditor General's audit of how Act 13 impact fee money, raised from Marcellus Shale drillers, gets spent by local municipalities. The PUC says it's not their job to monitor how the money gets spent, only in how much is raised and distributed.
Pennsylvania Public Utility Commission Act 13/Impact Fees Audit by PA Auditor...Marcellus Drilling News
A biased look at how 60% of impact fees raised from PA's shale drilling are spent, by the anti-drilling PA Auditor General. He chose to ignore an audit of 40% of the impact fees, which go to Harrisburg and disappear into the black hole of Harrisburg spending. The Auditor General claims, without basis in fact, that up to 24% of the funds are spent on items not allowed under the Act 13 law.
The final report from the Pennsylvania Dept. of Environmental Protection that finds, after several years of testing, no elevated levels of radiation from acid mine drainage coming from the Clyde Mine, flowing into Ten Mile Creek. Radical anti-drillers tried to smear the Marcellus industry with false claims of illegal wastewater dumping into the mine, with further claims of elevated radiation levels in the creek. After years of testing, the DEP found those allegations to be false.
FERC Order Denying Stay of Kinder Morgan's Broad Run Expansion ProjectMarcellus Drilling News
The Federal Energy Regulatory Commission denied a request to stay the authorization of Tennessee Gas Pipeline Company's Broad Run Expansion Project. The Commission found that the intervenors requesting the stay did not demonstrate they would suffer irreparable harm if the project proceeded. Specifically, the Commission determined that the environmental impacts to forest and a nearby animal rehabilitation center would be insignificant. Additionally, conditioning authorization on future permits did not improperly encroach on state authority. Therefore, justice did not require granting a stay.
Youngest c m in India- Pema Khandu BiographyVoterMood
Pema Khandu, born on August 21, 1979, is an Indian politician and the Chief Minister of Arunachal Pradesh. He is the son of former Chief Minister of Arunachal Pradesh, Dorjee Khandu. Pema Khandu assumed office as the Chief Minister in July 2016, making him one of the youngest Chief Ministers in India at that time.
Here is Gabe Whitley's response to my defamation lawsuit for him calling me a rapist and perjurer in court documents.
You have to read it to believe it, but after you read it, you won't believe it. And I included eight examples of defamatory statements/
Essential Tools for Modern PR Business .pptxPragencyuk
Discover the essential tools and strategies for modern PR business success. Learn how to craft compelling news releases, leverage press release sites and news wires, stay updated with PR news, and integrate effective PR practices to enhance your brand's visibility and credibility. Elevate your PR efforts with our comprehensive guide.
13062024_First India Newspaper Jaipur.pdfFIRST INDIA
Find Latest India News and Breaking News these days from India on Politics, Business, Entertainment, Technology, Sports, Lifestyle and Coronavirus News in India and the world over that you can't miss. For real time update Visit our social media handle. Read First India NewsPaper in your morning replace. Visit First India.
CLICK:- https://firstindia.co.in/
#First_India_NewsPaper
2. ISO New England2
Our Mission
Reliability is the core of ISO New England’s
mission, fulfilled by three interconnected
and interdependent responsibilities:
Overseeing the day-to-day operation
of New England’s electric power
generation and transmission system
Managing comprehensive regional
power system planning
Developing and administering the
region’s competitive wholesale
electricity markets
About Us
ISO New England is the not-for-profit corporation
responsible for keeping electricity flowing across the
six-state New England region: Connecticut, Maine,
Massachusetts, New Hampshire, Rhode Island, and
Vermont. The company’s power system engineers,
economists, computer scientists, and other professionals
ensure the region has reliable, competitively priced
wholesale electricity today and into the future. The ISO
is independent—none of the ISO’s Board members,
officers, or employees has a financial interest in any
company doing business in the region’s wholesale
electricity marketplace. The Federal Energy Regulatory
Commission (FERC) regulates the ISO.
About This Report
ISO New England’s unique role gives it an objective,
bird’s-eye view of trends that could impact the region’s
power system. This report provides an update on ISO
actions to address grid challenges, as well as other ISO
efforts to improve its services and performance. The
Regional Electricity Outlook is one of the many ways
the ISO keeps stakeholders informed about the current
state of the grid, issues affecting its future, and actions
to address these issues. Contact ISO New England’s
Corporate Communications and External Affairs teams
at (413) 535-4309 for copies.
Please note: The facts and figures in
this report were current at publication
in January 2016. However, the ISO is
continually generating data and analyses.
For the most current information, please
visit www.iso-ne.com/reo.
3. 2016 Regional Electricity Outlook 1
2016
Regional
Electricity
Outlook
From the Board Chair 2
From the CEO 3
Weathering Waves of Change 6
Seeking Excellence and Innovation in Grid Operations 12
Putting Markets to Work for New England 20
In Focus: The Effects of Renewable Resources
28on Wholesale Electricity Markets
Planning for a Reliable Future 30
ISO Metrics 36
ISO Board of Directors 42
ISO Senior Management 43
Learn More Online
www.iso-ne.com
4. ISO New England2
These are exciting times in
the electricity industry. Here in
New England, we’re spearheading
the effort to build a bridge between
the power system of yesterday and
the promise—and complexity—of
tomorrow’s renewable, smart grid.
Strong cooperation between ISO New England and its
stakeholders is helping the region modernize its electricity
infrastructure, build a world-class marketplace for wholesale
electricity, and develop one of the most efficient power systems
in the country. As a testament to that stand the hundreds of
formal and informal meetings and discussions held in 2015
between ISO New England and state and federal policymakers
and regulators, attorneys general, market participants, electricity
consumers, and consumer advocates. That spirit of cooperation
will help the ISO ensure a reliable supply of electricity as the
region manages both the opportunities and challenges associated with the grid’s ongoing evolution. This year’s
Regional Electricity Outlook (REO) highlights related ISO efforts in each of its three areas of responsibility: grid
operations, marketplace design and operation, and long-term system planning.
ISO New England has led the regional power system through industry change and innovation while meeting
requirements set by the Federal Energy Regulatory Commission. This, along with satisfying the priorities of
stakeholders, has increased the volume and complexity of our work. We have undertaken these efforts while
seeking efficiency and cost savings wherever possible. However, we have also invested in critical resources.
That’s why we launched a new ISO cybersecurity control center in late 2015, which will be staffed around the
clock for better protection against cyber threats to ISO systems that could affect the operation of the grid or
marketplace. It’s also why the Board of Directors approved additional employees for the Internal Market Monitor
to help safeguard the open, competitive marketplace that has helped attract new investment in the region.
I am confident that together we will successfully keep New England’s power system finely tuned to the needs
of the region and on the leading edge of industry changes. I thank all regional stakeholders for their contributions
and support.
Sincerely,
Philip Shapiro joined the ISO Board
in 2010 and was named chair in 2014.
He has extensive experience in finance
and infrastructure. Read his full bio at
www.iso-ne.com/about.
From the Board Chair
Philip Shapiro
Board Chair
5. 2016 Regional Electricity Outlook 3
ISO New England finds itself in the
vanguard of a major transformation
in how electricity is produced and
delivered in the US.
The region’s fleet of power resources is changing:
Natural-gas-fired generation has displaced older coal, oil, and
nuclear plants. Weather-dependent renewable power resources and
energy-efficiency measures are multiplying. On the horizon comes a
“hybrid grid”—a combination of large power resources supplying the
regional system while smaller ones directly supply consumer sites.
These three waves of change are not unique to New England, but the
transformation began early here and is quickening, putting the ISO and
its stakeholders at the forefront of nationwide efforts to rethink nearly
every aspect of grid operations, markets, and system planning.
Now comprising the majority of New England’s generating capacity,
natural-gas-fired resources produce more electricity in a year than
any other single type of power resource—and only slightly less than all other resource types combined.
Our region’s natural-gas-fired power resources are among the newest, most efficient, and lowest-emitting plants
in the country. When their access to low-priced gas from the Marcellus shale is unrestricted, New England has
reliable, low-priced electricity.
However, wintertime access to natural gas has grown tight over recent years because the regional fuel
transportation network has not kept up with demand from both generation and heating sectors. These natural gas
constraints have led to grid reliability challenges, emission increases during winter, and spikes in wholesale electricity
prices. The situation is exacerbated by other market dynamics: low gas prices during most of the year except winter
are putting economic pressure on coal, oil, and nuclear resources. By 2020, resources representing about 30%
of regional capacity have committed to cease operation or are at risk of retirement. Taking their place are even
more natural-gas-fired units—currently, more than 60% of new generation being proposed by private investors
across the six states will be primarily or exclusively fueled by natural gas.
ISO New England has pioneered a number of tactics for managing the reliability risks associated with the region’s
growing dependence on natural gas. We’ve provided more flexibility in energy market offers to better reflect changing
fuel costs and shifted market timelines to better align with the natural gas markets. We’ve developed new tools and
processes for our system operators and increased communication with pipeline operators.
Most significantly, we’ve strengthened the financial incentives for power resources to perform as required. These
incentives will drive generators to invest in maintenance and capital improvements and, importantly, to assure that
they have fuel to operate when needed. Our analyses and experience to date indicate that gas-fired generators
will tend to select the most economic option available to them: installing “dual-fuel” capability, which allows them
to switch from gas to oil when the gas pipelines become constrained. Various ISO studies indicate that, ultimately,
Gordon van Welie has been
president and chief executive
officer of ISO New England
since 2001. Read his full bio
at www.iso-ne.com/about.
From the CEO
6. ISO New England4
improving the natural-gas-delivery infrastructure in New England—through added pipeline capacity, increased
supplies of liquefied natural gas (LNG), improved gas storage solutions, or some combination—will have the most
impact on addressing the reliability, price volatility, and negative emission impacts during winter.
To be sure, alternatives to burning more fossil fuels exist. Energy-efficiency measures and other demand resources
are helping New Englanders cut their electricity use, while renewable resources hold potential for serving a sizable
portion of regional power needs. The ISO has been evolving its systems and processes to facilitate the expansion of
these resources. However, displacing large amounts of gas use with renewable resources will take time and sizeable
investments in transmission infrastructure. Connecting and delivering more wind power from northern New England,
for example, as well as more hydropower from Canada, will first require the region to cooperate on substantial
transmission upgrades. Also, adding more wind- and solar-powered resources in New England will paradoxically
increase the region’s need for fast-response, flexible resources—which in many cases will be natural-gas-fired
generators. Until grid-scale energy-storage technologies become economic and widespread, the region will be calling
on natural-gas resources to counter fluctuations in output from renewables. Adequate gas infrastructure is clearly
important for ensuring reliability as the region transitions to a renewable power future.
Natural-gas-fired resources and other merchant resources, including carbon-free nuclear and pumped-hydro storage
resources are not immune to economic pressures during these waves of change. Renewables have low to no fuel
costs and receive policy-based financial incentives outside the ISO markets, enabling them to profitably produce
electricity when prices are below their actual operating costs. Therefore, major additions of renewable energy should
be expected to further reduce already low annual energy market revenues for traditional generating resources.
To remain viable, conventional plants and the new technologies needed to complete the transition to carbon-free
electricity production will become more dependent on capacity market revenues. Appropriate price formation in the
capacity market becomes essential to maintaining adequate capital investment for all types of competitive resources
and to achieving a graceful transition from high- to low-carbon emitting energy resources.
As this report describes, ISO New England has worked to optimize the energy and capacity markets so that together
they will continue to attract and sustain the power resources New England needs. But that balance needs to be
maintained. Mechanisms such as carbon cap-and-trade programs work relatively seamlessly within a competitive
wholesale electricity market framework. Other mechanisms may disrupt price formation in the capacity market
and result in inadequate revenues in the marketplace, dampening enthusiasm for private investment. To continue
to attract private investment and maintain the resource base needed to ensure reliability, the region must find ways
to harmonize the two energy policy objectives of competitive wholesale markets and reduced carbon emissions. This
is critical to fulfilling the original goals and benefits of a wholesale marketplace: securing needed reliability services
at the most competitive price, incentivizing innovation, and transferring the investment and technology risk from
consumers to the marketplace.
The evolution of our power system and wholesale market construct holds tremendous promise. Making that promise
a reality is going to take innovation, investment, hard work, and cooperation. I look forward to continued collaboration
with state policymakers, our market participants, and other regional stakeholders in managing the waves of change
affecting the region today, as well as those that the future is sure to bring.
Sincerely,
Gordon van Welie
President and Chief Executive Officer
7. 2016 Regional Electricity Outlook 5
“These three waves of change
are not unique to New England,
but the transformation began early here
and is quickening, putting the ISO
and its stakeholders at the forefront
of nationwide efforts to rethink
nearly every aspect of grid operations,
markets, and system planning.”
GORDON VAN WELIE
2016 Regional Electricity Outlook 5
9. 2016 Regional Electricity Outlook 7
Ongoing industry transformation is redefining
electricity production—and the very nature of
the regional power system.
We’re keeping the grid a step ahead.
2016 Regional Electricity Outlook 7
10. ISO New England8
Three Waves of New Resources
WAVE ONE: NATURAL GAS
The late 1990s ushered in a steady shift to natural-gas-fired generation in New England. These resources are easier
to site, cheaper to build, and generally more efficient to operate than oil-fired, coal-fired, and nuclear power plants.
About 80% of new capacity built in the region since 1997 runs on natural gas. Gas-fired units remain the top choice for
developers, representing more than 60%—about 8,200 megawatts (MW)—of all new generation currently proposed.
WAVE TWO: RENEWABLE ENERGY AND DEMAND RESOURCES
In the 2000s, wind power, solar power, and demand resources began to make up a growing share of New England’s
resource mix. The region’s capacity market includes about 600 MW of active demand response, which relieve
grid demand by reducing power consumption in real time, and 1,700 MW of energy-efficiency (EE) measures,
which have essentially flattened demand growth over the next decade. Although renewable and demand resources
comprise a small share of the power system’s total capacity today, over 30% (about 4,200 MW) of all proposed new
regional generation is wind-powered, and small-scale solar arrays are multiplying rapidly. While still many years off,
renewable resources could in time satisfy a significant portion of New England’s electricity needs.
WAVE THREE: DISTRIBUTED GENERATION (DG)
In the next decade or so, New England could have a “hybrid grid.” Up to 20% of power resources in New England
could be connected directly to retail customers or to local distribution utilities—and not to the transmission system.
Widespread residential solar power and storage systems, electric vehicles, and smart meters will change not only
how much electricity people draw from the grid, but when they draw it.
Weathering Waves of Change
Dramatic shift
The mix of fuels used to produce New England’s
electricity have changed markedly in a relatively
short period of time.
Oil
22%
2%
Coal
18%
4%
Hydro
7%
7%
Renewables
8%
9%
Nuclear
31%
30%
15%
Natural Gas
49%
2000
2015
11. 2016 Regional Electricity Outlook 9
Drivers of Change
INNOVATION
New England’s highly competitive wholesale electricity marketplace incentivizes the development and adoption of
new technologies. These technologies succeed by providing the energy services the region needs in a more efficient
way. Advances in many power production technologies—including natural gas, solar, and wind—have been major
catalysts to change. Storage technologies are also advancing and will assist in managing the power system as the
region’s resource mix evolves.
PUBLIC POLICIES AND PROGRAMS
Federal and state efforts to reduce air emissions are the primary impetus behind the expansion of renewable energy
and EE programs and are pushing the region toward a hybrid grid. These efforts have included emission limits, the
mandated use of green power, and tax credits and incentives for EE measures and renewable resources.
ECONOMICS
Fuel cost is the biggest portion of a power plant’s operating cost, particularly for New England’s natural-gas-, oil-, and
coal-fired generators. However, the region has no indigenous source of fossil fuels. As natural gas production from
the Marcellus shale began to boom around 2010, the low cost of this nearby fuel source enabled natural-gas-fired
generators to out-compete other generation resources. Other factors affecting regional power resources’ profitability
and long-term viability include falling technology costs, state-sponsored renewable policies, aging equipment, and
investments to ensure environmental compliance.
CONSUMER CHOICES
Electricity users are helping to shape the mix of regional power resources through their adoption of EE measures
and DG resources.
Ambitious goals
State Renewable Portfolio
Standards require electricity
providers to serve a minimum
percentage of their retail
customer load using renewable
energy. (Unlike the other
New England states, Vermont’s
Renewable Energy Standard
passed in 2015 counts electricity
from large-scale hydro
toward its total renewable
energy requirement.)
State Renewable Portfolio Standards for
Class I or New Renewable Energy by 2020
ME NH RI MA CT VT
0%
100%
10% 11% 12.5% 15%
20%
59%
%RENEWABLE
12. ISO New England10
Weathering Waves of Change
Opportunities
Natural gas resources and renewables are displacing less economic and higher-emitting resources
in New England.
The ability of many natural-gas-fired plants to change output quickly helps to balance an increasing amount
of generation from intermittent power resources that rely on the wind and sun.
Overall regional air emissions are down significantly. Between 1999 and 2014, nitrogen oxides fell by 66%,
sulfur dioxide by 94%, and carbon dioxide by 26%.
Wholesale electricity prices are being driven down—except when natural gas prices spike.
Distributed generation may be able to help lessen the impact of local power outages.
Smart grid technology and retail rate design changes will empower consumers to use electricity
more efficiently and reduce their energy bills.
Proposed
4,200
Existing
800
2,400
PV
in
2024
900
PV
thru
2014
3,600
EE
in
2024
1,500
EE
thru
2014
MEGAWATTS
Wind
Nameplate capacity of
existing wind resources
and proposals in
the ISO Generator
Interconnection Queue.
Solar
2015 ISO-NE Solar
PV Forecast,
nameplate
capacity, based
on state policies.
Energy Efficiency
2015 CELT Report, EE through
2014, which includes EE resources
participating in the Forward
Capacity Market (FCM). EE in 2024
includes an ISO-NE forecast of
incremental EE beyond the FCM.
Clear results
State policies, as well as
state and federal support
and tax credits, are having
a clear effect on the growth
of renewable resources
and energy efficiency in
New England.
4,000
3,000
2,000
1,000
0
13. 2016 Regional Electricity Outlook 11
Schiller
Bridgeport
(Unit 2 closed.
Unit 3 at risk.)
Newington
New Haven
Brayton Point
Yarmouth
Merrimack
West Springfield
Middletown
Norwalk
Mt. Tom
Vermont Yankee
Salem Harbor
Pilgrim
Montville
Canal
Mystic
On the way out
More than 4,200 MW of the region’s
nongas generating capacity has retired
or plans to retire soon. This includes
several oil- and coal-fired units, as
well as two nuclear plants that
were part of the region’s baseload
generation. “At risk” for closing are
another 6,000 MW from additional
coal- and oil-fired generators, which
are displaced from the electric energy
market on most days by gas-fired units.
But they are still critical for meeting the
region’s demand in winter, particularly
when natural gas supplies are limited.
In total, about 30% of the region’s
generating capacity could be gone
by 2020. These retiring resources are
likely to be replaced by more natural-
gas-fired resources.
Closed or Retiring
Generation at Risk
With each wave of change, the ISO reviews—
and if necessary adapts—grid operations, market rules,
and system planning to accommodate new entry
in the marketplace while preserving reliability.
Challenges
Inadequate natural gas pipeline infrastructure is at times limiting the availability of gas-fired resources or
causing them to switch to oil, which is creating reliability concerns and price volatility, and contributing to air
emission increases in winter.
Substantial nongas generating capacity is retiring, limiting the options for reliable grid operation
when natural gas infrastructure is constrained.
The weather-dependent output from wind and solar resources and the increase in DG adds complexity
to how the ISO must operate the power system to maintain reliability.
Expensive transmission infrastructure upgrades are needed to connect more wind and hydro resources.
Efforts to meet state policy goals to inject more clean energy into the system through long-term contracts
may undermine confidence in the markets and inhibit future investment in competitive power resources.
14. ISO New England12
Seeking Excellence
and Innovation in
Grid Operations
The waves of change transforming the region’s
generation fleet are adding additional layers of
complexity onto the challenging task of operating
the grid. We’ve been engineering innovative
approaches to ensure that New England homes
and businesses continue to have the electricity
they need when they need it.
Operations
15. 2016 Regional Electricity Outlook 13
Ensuring Supply and Demand Remain in Balance
A fundamental part of the ISO’s job is to keep the energy that power resources supply to the grid in near-perfect
balance with consumers’ energy demand. Imbalances can happen, however—sometimes, with serious consequences
for system reliability, as well as added wholesale electricity costs, unless ISO system operators take quick, corrective
action. In 2015, ISO New England:
Experienced zero violations of the power balance control standards set by the North American Electric
Reliability Corporation (NERC), despite challenging operational conditions
Accurately forecasted hourly regional load an average of over 98% of the time
Used our time-tested Operating Procedure No. 4, Action During a Capacity Deficiency, to quickly return
the power system to normal status after a sudden transmission outage blocked 500 MW of electricity
from flowing into the region
Coordinated close to 12,000 transmission and generator outage applications to maintain reliability
and minimize the network congestion that adds to the price of wholesale electricity
Leveraging State-of-the-Art Technology
for New England
The ISO is pioneering the use of cloud computing to save time and money when creating large-scale power
system simulations to satisfy new NERC requirements. In early results, the ISO was able to reduce computing
time for one class of reliability studies from eight hours to within 30 minutes.
We’re also exploring how cloud computing can improve our use of the “high-resolution” data being generated
by the region’s new phasor measurement units (PMUs). The PMUs were installed in 2013 as part of a major
smart grid initiative in collaboration with regional transmission owners and with a grant from the US Department
of Energy. PMUs measure key elements of power system dynamics at 30 times per second. The ISO wrapped
up a two-year observation phase of the project in June 2015 and has already used the data to detect—and work
with a power resource to correct—potentially dangerous abnormal power system oscillations.
Learn more about the innovations we’re
pursuing to help facilitate grid modernization.
www.iso-ne.com/smart-grid
16. ISO New England14
Operations
Natural Gas
Wind
Oil
Nuclear
Biomass
Solar
Hydro
Fuel Cell
Pipeline development is out of step
The region hasn’t added natural gas pipeline capacity, despite
the tremendous growth in natural-gas-fired generating capacity
(shown here), coupled with growing demand from the heating
sector. The result is that existing pipelines are now running
at or near maximum capacity at times, particularly in winter.
During these times, gas-fired resources may have to pay
high prices for fuel—if fuel is available at all.
Inadequate Natural Gas Infrastructure Creates
Tight Operating Conditions and Reliability Risks
Satisfying consumer electricity demand has become more challenging as New England’s supply of natural gas
has tightened. Almost half the region’s generating capacity now runs on natural gas—and this amount is
growing. When natural-gas-fired resources can’t get fuel or high fuel costs make them too expensive to run,
ISO system operators must call on nongas power resources, which are often higher-emitting.
But the options are becoming more limited:
Oil, coal, and nuclear capacity is retiring in large amounts.
Wind power is a small portion of regional capacity,
and inadequate transmission is an obstacle to adding more.
Solar resources are multiplying, but still make a relatively small contribution—
even less so on short winter days or when there’s snow cover—
plus they’re not dispatchable when needed by the ISO.
Potential relief from Canadian imports may be limited, as our
northern neighbor is a winter-peaking system and may reduce
power exports to New England during colder periods.
As a result, the grid is becoming more vulnerable to unexpected
generator or transmission outages in winter. To counter this risk,
the ISO has been seeking solutions on both the operations
and market fronts to ensure reliability. Ultimately, it will take
natural gas infrastructure improvements—some combination
of pipeline, liquefied natural gas, and storage solutions—
to address both reliability risks and price volatility.
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
17. 2016 Regional Electricity Outlook 15
Nongas power resources are critical during winter
On days when natural-gas-fired generators have unconstrained access to
low-cost Marcellus shale gas, they often produce the majority of New England’s
electricity. This is in stark comparison to winter, when heating needs claim
most of the regional natural gas supply and the region must rely on its nongas
resources, such as oil- and coal-fired plants. At the same time, the region’s
oil- and coal-fired plants—resources that operate infrequently, mainly to help
meet peak demand and when gas-fired units can’t get fuel or natural gas prices
spike—are getting older. Their age and lack of regular run time can sometimes
lead to operating problems.
SYST E M F U E L M I X
Natural Gas 70%
Nuclear 17%
Renewables 8%
Hydro 4%
Coal 2%
Oil 0%
24%
30%
8%
4%
11%
22%
February 25, 2015
12:21 PM
October 21, 2015
11:30 AM
Improving Short-Term Fuel Adequacy
with Winter Reliability Programs
Since 2013, we’ve rolled out short-term programs that incentivize
regional generation owners to boost winter fuel inventories.
These programs, developed in collaboration with stakeholders,
have been critical for keeping the lights on during the recent
cold winters—particularly when the region’s natural gas pipelines
were operating at their maximum capacity and the power system
had to rely on more expensive, oil-fueled generating units.
16,000
14,000
12,000
10,000
8,000
6,000
4,000
2,000
0
MEGAWATTS
2013
2014
2015
2016
2017
2018
18. ISO New England16
Operations
225K
150K
75K
0
MEGAWATTHOUR
December 2014 January 2015 February 2015
Winter 2014/2015 Fossil Fuel Mix by Day Natural Gas / LNG Coal Oil
Long term, annual emissions have fallen
significantly. But recent trends in emission
rates—the pounds of emissions given off,
on average, with every megawatt-hour of
electricity produced (lb/MWh)—reflect the
impact of the winter fuel mix, among other
factors. A slowdown in declines and even
some upticks have resulted.
Resource retirements are affecting
emissions, too. The SO2
drop between
2013 and 2014, for example, largely
reflects the exit of over 1,000 MW
of coal capacity from New England,
with a corresponding 19% decrease
in coal-fired generation.
Source: 2014 ISO New England Electric
Generator Air Emissions Report
Pipeline constraints
are affecting the
winter fuel mix—and
regional emissions
Increasingly during winter,
ISO system operators must
call on oil- and coal-fired
units, as well as dual-fuel
units that can switch to oil, to
serve the region. Increased
generation from these
higher-emitting fuel types
has a measurable effect on
regional air emissions.
Managing Fuel-Adequacy Challenges
To manage the reliability risks related to inadequate fuel supplies, the ISO has taken on the additional work of
confirming fuel availability for natural-gas-fired units scheduled to run—as well as the fuel inventory for oil-fired units
that can serve as substitutes—and adjusting operating plans, as necessary. We do this through:
Regular surveys of generator fuel supplies
Frequent communications with gas pipelines, which share information that could affect fuel delivery
New decision-support tools for system operators, such as the Gas Usage Tool, which can calculate, by pipeline
or delivery point, the estimated amount of natural gas and LNG available to the region’s gas-fired generators
Routine reviews of fuel purchases by generators scheduled to operate on natural gas
The ISO also holds winter preparedness seminars for power resource operators and stakeholders and
has regular conference calls with neighboring grid operators to confirm scheduled exchanges of energy.
2.50
2.00
1.50
1.00
0.50
0.00
1,000
900
800
700
600
500
400
300
200
100
0
NOX
ANDS02
(lb/MWh)
C02
(lb/MWh)
New England System Annual Average
NOX
, SO2
, and CO2
Emission Rates CO2
SO2
NOX
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
19. 2016 Regional Electricity Outlook 17
Adjusting Operations to the New Normal
INTEGRATING WIND RESOURCES
With more than 800 MW of wind resources already installed in the region and significantly more new projects
already proposed, the ISO has been modifying its systems and processes to better integrate these resources.
Advanced operator displays—In addition to incorporating a new wind power forecast into scheduling
and dispatch services in 2014, the ISO developed special displays and system functions to enhance ISO
operators’ situational awareness of wind power. The ISO continues improving on real-time wind dashboard
displays for operators.
Improved real-time dispatch—New in mid-2016 will be a modified electronic dispatch method that incorporates
wind and hydro resources into real-time dispatch. This change will improve the ISO’s ability to manage the
system during rapidly shifting weather conditions and will improve price formation and the system’s use of
low-cost renewable resources in areas with limited transmission capacity.
Cutting-edge analysis—The improved real-time dispatch will include the ISO’s pioneering application of a
powerful risk-management modeling tool in the electricity industry, developed in collaboration with university
researchers. The computational strategy better quantifies and solves for today’s unprecedented levels of
uncertainty in real-time operations related to how much power will be available to supply the grid or demanded
from it as more weather-dependent wind and solar resources come on line, as well as more demand resources.
The new model yields both increased power system reliability and minimized dispatch costs, for a sizable
savings, and remains effective as uncertainty levels increase.
Alternate Fuel Sources for Gas-Fired Generators:
Oil and Liquefied Natural Gas
Winter operations have demonstrated that the use of alternate fuel sources for the natural-gas-fired
fleet can help temper the reliability risks and price effects of pipeline congestion to some extent.
Dual-fuel capability—Just over 30% of the region’s gas-fired capacity can be switched to run on
oil during winter when natural gas is hard to get or oil is cheaper. And many of the new gas-fired
resources being proposed in the region are seeking dual-fuel capability. However, burning oil
drives up emissions and may be limited by environmental use permits.
Liquefied natural gas (LNG)—The increased use of existing LNG facilities and the addition of
regional LNG storage can help fill the gap when the pipelines shipping Marcellus shale gas to
the region are congested. However, regional LNG storage is limited, and because it is sourced
internationally, LNG pricing varies and can be expensive.
20. ISO New England18
ENHANCING UNIT COMMITMENT
Several efforts have been underway to improve unit dispatch, particularly for fast-start units. These types of
resources are likely to become more valuable to the region because of their ability to ramp up or down quickly
to balance fluctuations in output from wind- and solar-powered resources.
Implemented November 2015, the Generation Control Application (GCA) Project created an
enhanced version of the optimization engine for the commitment and shutdown of fast-start units,
among other things.
Also in November, the GCA: Fast-Start Generator Reserve Change Project refined the way
reserves are designated on fast-start generators. This allows those capable of it to provide reserves
more quickly after shutdown.
A new Dynamics Data Management System is being implemented to house generator and
transmission dynamics data and to automate the equipment-owner certification process.
Operations
Solar Power’s Effect on Regional Electricity Demand
May 23, 2015
13,000
12,500
12,000
11,500
11,000
10,500
10,000
9,500
9,000
MEGAWATTS
Solar power is having a real impact on New England’s
electricity demand—and making it more challenging to forecast
On clear, sunny days, more and more electricity demand is being offset from the regional power
system by solar-powered resources. The amount of demand that will be served by PV is hard to
predict because solar power is so weather-dependent, plus most of the region’s solar power is
connected “behind-the-meter.” The example below also shows the increased evening ramping
being caused as PV output falls with the setting sun. Based on available data (through August 31),
May 23 had New England’s highest total PV output through spring and summer 2015, with ideal
conditions for PV production: a clear, relatively cool day near the summer solstice.
Estimated electricity
needs served by
solar power
Demand without
solar power
Electricity demand
seen in real time
1
A
M
2
A
M
3
A
M
4
A
M
5
A
M
6
A
M
7
A
M
8
A
M
9
A
M
10
A
M
11
A
M
12
PM
1
PM
2
PM
3
PM
4
PM
5
PM
6
PM
7
PM
8
PM
9
PM
10
PM
11
PM
12
A
M
21. 2016 Regional Electricity Outlook 19
CREATING BETTER FORECASTS FOR RENEWABLE RESOURCES
Highly accurate forecasting is critical for being able to precisely dispatch power resources to serve electricity
demand. The ISO continues to improve on its methods for forecasting electricity demand and is developing a new
seven-day hourly forecast for the eight regional load zones. We are also developing new methods to anticipate the
intermittent output of renewable resources.
Predicting wind power
Our seven-day hourly forecast of power generated by regional wind resources is exceeding accuracy expectations.
The ISO began offering this forecast in 2013. Along with being an important tool for ISO operations, asset owners
can use their resource’s individual forecast to assist in bidding the resource’s output in the energy market.
The ISO is now maintaining historical wind data for future use by the forecast service and in auditing and other
analyses. We’re also working on refining the forecast, automating publishing of the public aggregate version, and
publishing medium- and long-term wind power forecasts.
Predicting solar power’s effect on the grid
Another ongoing project is exploring the integration of irradiance data (a measurement of the sun’s power) into our
daily operational forecast. This will allow the ISO control room to better anticipate the level of solar generation in
real time. The ISO has also contributed to research into predicting cloud cover, which can dampen PV output within
seconds. Other variables that affect output and make PV power difficult to forecast include haze, temperature,
humidity, wind speeds, and snow cover.
22. ISO New England20
Putting Markets
to Work for
New England
Under the ISO’s watch, the region’s
world-class wholesale electricity marketplace
is not only securing reliable electricity
at competitive prices, it’s helping usher
in a cleaner, greener grid.
Markets
23. 2016 Regional Electricity Outlook 21
Market Signals Are Attracting New Resources
The ongoing transformation of New England’s power system wouldn’t be possible without the open,
competitive marketplace designed and administered by the ISO.
Since 1997, the region has attracted investment in over 15,000 MW of new, mostly lower-emission
generation, giving New England some of the most efficient combined-cycle gas plants in the country,
along with growing numbers of wind- and solar-powered resources.
About 2,300 MW of demand resources, such as EE, have entered the marketplace since the ISO
enabled their participation. By reducing grid demand, these resources can help minimize the region’s
need for new power plants and transmission lines.
The ISO’s strong coordination with neighboring grids enables electricity from outside the region—
much of it Canadian hydropower—to compete in our markets. Imports supplied 16% of regional
electricity demand in 2015.
Markets Ensure Reliability at the Lowest Cost
The ISO’s markets are designed to achieve reliability and long-term efficiency at the lowest costs and on a
fuel- and technology-neutral basis. Resources offering to produce electricity or provide other specialized
ancillary services (reserves and system regulation services) at the lowest prices in the markets are selected
to operate, and all suppliers, regardless of technology, are compensated similarly for similar performance.
The energy market and ancillary services markets ensure day-to-day reliability.
The capacity market ensures long-term reliability.
Competitive Markets Are Delivering Competitive Prices
The region’s wholesale electricity markets attract hundreds of buyers and sellers. Strong competition between
them yields offers to sell electricity at prices that are typically close to each power resource’s hour-by-hour
operating cost. A competitive price isn’t always cheap, though: a resource’s operating cost will rise and fall
with the price of its fuel.
A full list of market projects can be found on our website.
www.iso-ne.com/reo
24. ISO New England22
Markets
Annual market values reflect prices
The region’s energy market, where buyers and sellers trade electricity daily, is by far the
biggest component of the region’s wholesale electricity marketplace. The market’s value
has been rising and falling due to changes in both electricity demand and fuel costs for
the region’s generating fleet. (The 2015 values are preliminary.)
Capacity Market
Ancillary Markets
Energy Market
$16
$14
$12
$10
$8
$6
$4
$2
$0
Annual Value of Wholesale Electricity Markets
INBILLIONS
$1.1
$1.1
$1.2
$1.3
$1.6
$1.8
$1.5
$1.3
$1.1
$9.1
$8.0
$5.2
$5.9
$6.7
$7.3
$5.9
$10.2
$12.1
2007
2008
2009
2010
2011
2012
2013
2014
2015
Other
Wind
Natural Gas
(including dual-fuel units)
Proposed Capacity in ISO’s Generator Interconnection QueueEncouraging new
resource development
Prices in the region’s capacity market auction
have risen in recent years, properly signaling
the need for new investment in resources to
serve New England’s future electricity demand.
Higher prices are successfully attracting many
competing proposals for new power resources.
A look at the projects being proposed in the
ISO’s Interconnection Queue shows that low-
and non-emitting resources dominate. And as
of January 2016, 94 MW of battery storage
were being proposed—a first for the region.
MEGAWATTS
14,000
12,000
10,000
8,000
6,000
4,000
2,000
0
JA
N
2014
JA
N
2015
JA
N
2016
25. 2016 Regional Electricity Outlook 23
Natural Gas Infrastructure Constraints
Lead to Price Volatility
Because so much of the region’s generating capacity runs on natural gas, the price of this single fuel source sets
the price for wholesale electricity about 70% of the time. Both electricity and gas prices have seen dramatic swings
in recent years. Between February and June 2015, for example, the region’s average monthly wholesale electricity
price plummeted from the third-highest price to the lowest price since 2003, the year that competitive markets in
their current form were introduced in New England. Behind these ups and down is the region’s inadequate natural
gas delivery infrastructure, which can cause price spikes.
Regional prices for natural gas
and wholesale electricity are linked
This close link is a sign that the wholesale electricity marketplace is efficient and
competitive: generators’ prices appropriately reflect their direct fuel costs. In recent
winters, the region has experienced price spikes driven by strong demand from the
electricity and heating sectors for limited supplies of low-cost fuel deliverable from the
nearby Marcellus shale regions in Pennsylvania, Ohio, and other mid-Atlantic states.
Wholesale Electricity Prices
in Real-Time Energy Market
Natural Gas Price
at Algonquin City Gate
$180
$160
$140
$120
$100
$80
$60
$40
$20
$0
$/MILLIONSBRITISHTHERMALUNITS(MMBTu)
$/MEGAWATT-HOUR(MWh)
$30
$25
$20
$15
$10
$5
$0
Recession
Marcellus shale production
Winter pipeline constraints
Rising global
demand for LNG
Hurricane damage to
facilities in Gulf of Mexico
JU
L
2005JA
N
2006JU
L
2006JA
N
2007JU
L
2007JA
N
2008JU
L
2008JA
N
2009JU
L
2009JA
N
2010JU
L
2010JA
N
2011JU
L
2011JA
N
2012JU
L
2012JA
N
2013JU
L
2013JA
N
2014JU
L
2014JA
N
2015JU
L
2015
Underlying natural gas
data furnished by:
26. ISO New England24
Markets
A tale of two seasons
When the region’s gas-fired generators have unconstrained access to natural gas,
wholesale electricity prices are competitive nationally. Compare New England’s
average summer (June–August 2015) and winter (December 2014–February 2015)
prices for real-time wholesale electricity with those in the Midwest.
Midcontinent ISO
$29.31/MWh
$3.74/MMBtu
(at Chicago City Gate)
ISO New England
$76.64/MWh
$10.70/MMBtu
(at Algonquin City Gate)
Midcontinent ISO
$28.78/MWh
$2.80/MMBtu
(at Chicago City Gate)
ISO New England
$26.86/MWh
$2/MMBtu
(at Algonquin City Gate)
Out of reach
New England has relatively few pipelines that can bring natural gas
into the region and few delivery points for liquefied natural gas.
LNG facilities
serving
New England
Marcellus
shale
region
Algonquin Gas Transmission Pipeline
Tennessee Gas Pipeline
Iroquois Gas Transmission System/
TransCanada Pipeline
Portland Natural Gas Transmission System/
Gazoduc Trans Québec Maritimes Pipeline
Maritimes and Northeast (MN Pipeline)
27. 2016 Regional Electricity Outlook 25
?
Continual Industry Evolution
Requires Continual Market Refinements
At any given time, the ISO is evaluating, discussing with regional stakeholders, and implementing many different
projects to refine the region’s marketplace to ensure power system reliability and efficiency. In 2016, we’ll continue
our focus on enhancing market signals and incentives to ensure the region gets reliable performance from today’s
power resources and can attract resources for future needs. Many of these market improvements are intensive,
technical projects. They must be sequenced sensibly and, as a result, take time to bring to fruition.
POWER RESOURCE PERFORMANCE
For more than a decade, the ISO has been highlighting issues that affect the operation of power resources, thereby
posing risks to the reliable supply of electricity. Along with operational initiatives to address these risks, we’ve been
fine-tuning the wholesale electricity markets to strengthen incentives for performance, particularly during times of
system stress. Of biggest concern is the region’s natural-gas-fired plants’ vulnerability to inadequate fuel supplies.
At the same time, the age and infrequent use of the region’s typically more costly oil- and coal-fired power plants
can sometimes lead to operating problems.
Examples of recent and upcoming market efforts to ensure reliable resource performance:
A tightening of the shortage-event trigger in the Forward Capacity Market (FCM) and increased payments
to resources providing essential operating reserves during scarcity conditions
Off-line reserve auditing provisions and more robust ISO-initiated parameter auditing rules to provide
greater accuracy in assessments of the 10- and 30-minute capability of reserve resources
LNG deliveries
into New England
are highly variable
In October 2014, natural gas
futures-market prices for delivery
into New England during the
winter of 2014/2015 were among
the highest prices in the world,
attracting many LNG tanker ships
to the region and roughly doubling
LNG deliveries from prior years.
As of October 2015, New England
futures prices for winter 2015/2016
had fallen by half, but with global
LNG prices below $8/MMbtu,
LNG cargoes were still expected
to be attracted to the region.
However, the exact amount of LNG
available in New England in this and
future winters remains uncertain.
Winter LNG Deliveries
to New England
Algonquin Natural Gas
Futures Prices as of
Previous October 1
$/MILLIONBRITISHTHERMALUNITS(MMBtu)
$22
$21
$20
$19
$18
$17
$16
$15
$14
$13
$12
$11
$10
$9
BILLIONCUBICFEET(Bcf)
50
45
40
35
30
25
20
15
10
5
0
31.6 Bcf
16.0 Bcf
$21.45/MMBtu
$11.76/MMBtu
$9.69/MMBtu
Winter 2013/2014 Winter 2014/2015 Winter 2015/2016
Source: Data from NatGas Analyst Tool by Genscape, a part of DMG Information (DMGI); www.genscape.com
28. ISO New England26
Increasing the 10-minute nonspinning reserve (TMNSR) requirement to account for recent fleet performance
when dispatched during stressed operating conditions
FCM enhancements known as “pay for performance” (PFP), a two-settlement capacity market design that,
starting in 2018, will reward resources that make investments to successfully boost performance during periods
of system stress—for example, by adding dual-fuel technology—while resources that don’t perform will forfeit
capacity payments
Winter reliability programs established for winters 2013/2014 through 2017/2018 to incentivize sufficient fuel
supplies for nongas generators until PFP takes effect
PRICE FORMATION
Accurate, transparent pricing motivates and compensates resources to make cost-effective investments—at the right
times, in the right amounts, and in the right locations—for delivering the energy consumers demand and the reserves
that assure power system reliability. Examples of recent and upcoming changes to improve price formation:
An acceleration of the Day-Ahead Energy Market timeline better aligned it with the daily natural-gas market,
so generators have more opportunities to procure the gas they need to run the next day.
Energy market offer-flexibility enhancements now allow participants to update their offers in real time to reflect
changing fuel costs during the operating day.
Negative energy offer prices as low as -$150/MWh are now allowed so that suppliers can indicate
their willingness to, in effect, pay to operate if they do not wish to shut down. This helps avoid mandatory
generation curtailments using noneconomic procedures during periods when energy demand is low.
Various upcoming FCM refinements, such as instituting
zonal demand curves starting with FCA #11 and reforming
the process by which resources retire, will further strengthen
the FCM’s price signals as indicators of the true cost of
meeting the system’s long-term reliability requirements.
Changes to pricing for fast-start resources are in the
works to more accurately compensate these types of
power resources, which are taking on greater significance
as more renewables enter the marketplace.
The upcoming switch to subhourly real-time settlement
will make compensation for resources more consistent
with their performance on a five-minute basis, especially
for resources able to respond quickly. (The real-time energy,
reserves, and regulation markets are all currently settled
hourly, but resources are dispatched every five minutes.)
Procuring and pricing operating reserves in co-optimized
Day-Ahead Energy and Reserves Markets is planned as a
future project to enable transparent market prices to signal
the costs suppliers must incur to provide reliable operating
reserves in the Day-Ahead Energy Market.
Markets
29. 2016 Regional Electricity Outlook 27
ENABLING INCREASED MARKET OPPORTUNITIES
FOR STORAGE AND DEMAND RESOURCES
Opening the Regulation Market to Alternative Resources: After conducting a multiyear pilot program to encourage
alternative technologies to participate in wholesale electricity markets, in 2015 the ISO opened the door for more
advanced storage technologies to compete to provide frequency regulation services for New England. (Frequency
regulation is the capability of specially equipped resources to increase or decrease their energy output every
four seconds in response to ISO signals. This fine-tuning balances supply levels against small second-to-second
variations in electricity use and helps maintain the power system’s frequency.) We accomplished this with a
redesigned Regulation Market in 2015 that includes a new type of “energy-neutral” dispatch signal that can be
followed by resources using a storage technology, such as batteries and flywheels.
Fully Integrating Demand Response Participation in Markets: Both active demand resources (like the practice of
powering down machines or switching to an on-site generator) and passive demand resources (like energy-efficiency
measures) have been participating in the Forward Capacity Market since the market began in 2010. On May 23, 2014,
the DC Circuit of the US Court of Appeals found that the Federal Energy Regulatory Commission (FERC) lacked
jurisdiction to establish rules for demand response. On January 25, 2016, however, the US Supreme Court disagreed
with the lower court’s decision, and reaffirmed FERC’s jurisdiction over demand response. This means that the ISO
can complete the full integration of demand response in the wholesale electricity marketplace. This will take about
two years, with completion expected by June 1, 2018. (The legal challenges to FERC jurisdiction led to a one-year
delay from the original goal of full integration by 2017.)
Demand response
in New England
ISO New England has the most
demand resources as a percentage
of peak demand compared with
other ISOs/RTOs in the country.
Source: Assessment of Demand
Response and Advanced Metering
Staff Report, FERC, December 2015
12%
10%
8%
6%
4%
2%
0%
Demand Response’s Potential Reduction of Peak Demand by ISO/RTO
S
P
P
ER
C
O
T
N
Y
IS
O
C
A
IS
O
PJM
M
IS
O
IS
O
-N
E
30. ISO New England28
In Focus: The Effects of
Renewable Resources on
Wholesale Electricity Markets
The region’s capacity market—and the importance of
accurate price formation—are taking on greater significance
as New England’s power fleet transforms itself.
Markets
Energy and Capacity Markets
Operate in Tandem to Accommodate
the Influx of Renewables
Renewable resources, with low to no fuel costs and out-of-market
financial incentives, can offer to produce energy at lower prices
than conventional resources. Currently, renewables make up a small
percentage of the region’s power generation fleet, thus energy market
prices still tend to be set by conventional resources. However, as the
penetration of renewables in New England increases, these resources
will put downward pressure on energy market prices, and the already
low average energy price will drop further.
Reduced energy-market revenues will add to existing financial pressure on conventional generation—the resources
needed to maintain reliability when weather hinders output from renewables. This is already happening in Europe
and regions of the US that have high amounts of wind generation. To remain economically viable, these conventional
resources will increasingly rely on Forward Capacity Market revenue and will require higher capacity prices. Over
the long term, commercially developed resources of all types—even renewables and other new and emerging
technologies—will likely have to turn to the FCM to recover increasing shares of their capital investments.
The ISO has been actively refining the FCM to be responsive to these evolving market conditions. The FCM
is designed to dynamically complement the incentives in the energy market, providing price signals sufficient
to attract and retain the right amount of reliable generating capacity needed to serve the region, as well as
the types of resources needed to balance the operating characteristics of renewable resources. See the
2015 ISO discussion paper, The Importance of a Performance-Based Capacity Market to Ensure Reliability
as the Grid Adapts to a Renewable Energy Future.
31. 2016 Regional Electricity Outlook 29
Achieving Environmental Objectives
in a Way that Maintains a Competitive
Wholesale Electricity Marketplace
In the late 1990s, the region adopted wholesale electricity markets based on broad principles of competition,
transparency, and resource-neutrality. The marketplace would select whichever power resources offered energy
services at the lowest cost, regardless of the fuel or technology employed; and investors, rather than consumers,
would assume the risk for new power resources and technologies. Simultaneously, the region began setting
aggressive policy goals to lower carbon emissions and increase the amount of renewable energy. To that end,
many of today’s state and federal public policy initiatives seek to promote specific resource types, even if they
are not the lowest-cost technologies. A delicate balance exists between these two regional objectives.
Even with low to no fuel costs, most renewable resources are relatively expensive to build and are, therefore, not
competitive in the wholesale marketplace. Policymakers have put in place policies that provide financial incentives
beyond those offered by the market for adding more resources with low or zero carbon emissions. Additional
incentives are still being considered.
Renewable energy policies that are effected through
emissions- or attribute-based incentive programs—
which, in turn, affect the operating costs of all power
resources in proportion to their environmental impact—
best complement competitive electricity markets. One
example is the Northeast’s Regional Greenhouse Gas
Initiative (RGGI) carbon cap-and-trade program. RGGI
causes high-emitting generators to incur higher costs,
which are then factored into their market offers. The
market then naturally shifts energy production toward
less expensive—and lower emitting—resources. As a
result, the competitive energy market accurately and
transparently signals the cost of both providing energy
and fulfilling the region’s environmental goals—while
promoting the lowest-cost means of meeting both
objectives simultaneously.
Renewables receiving direct support in the form of long-term contracts or other specific incentives can offer energy
supplies at lower prices that do not reflect their true construction or operating costs. This will reduce market
revenues below the true costs of producing electric energy. Consequently, nonrenewable resources should be
expected to make up lost revenue by raising their offers in the capacity market, but recouping costs in this way is
only possible if the capacity market is allowed to set prices at the true marginal cost of providing adequate reliability.
Allowing noncompetitive offers in the capacity market and compromising accurate price formation would significantly
diminish interest from private investors and would hasten retirements of existing resources. That’s why the current
market rules limit resources with supply offers that are too low to be competitive—even if they are from a resource
type that helps meet environmental goals.
As long as price formation is protected, the capacity market will continue to sustain and attract the private investment
needed to meet reliability standards; will fulfill the original goal of markets of ensuring competitive technology
renewal while shielding consumers from unwise investments; and will thereby serve as an efficient mechanism
for seamlessly transitioning the region away from carbon-heavy resources.
As long as price
formation is protected,
the capacity market
will continue to sustain
and attract the private
investment needed to
meet reliability standards.
32. ISO New England30
Planning for a
Reliable Future
ISO New England is strengthening the grid
across the entire region—and enabling access
to greener power—through our work to guide the
interconnection of new power resources and to
select cost-effective transmission system solutions.
Planning
33. 2016 Regional Electricity Outlook 31
Transmission Projects Are Strengthening the Grid
and Enabling Its Transformation
New England’s transmission system includes about 8,600 miles of high-voltage power lines and related facilities
spanning six states. Since 2002, transmission owners have placed close to 650 project components into service
under the ISO’s guidance to ensure that electricity continues to move reliably and efficiently across the region. Over
200 additional projects are anticipated over the next 10 years that will ensure the region continues to enjoy a highly
reliable and economic power system, and system assessments continue across most of the region. Major reliability
projects that have been completed since the beginning of 2015 or are under construction include the following:
Maine Power Reliability Program
Interstate Reliability Project
Greater Hartford and Central Connecticut Projects
Southwest Connecticut Projects
Greater Boston Projects
Pittsfield/Greenfield Reliability Project
New Hampshire/Vermont 10-year Upgrades
Short-term Southeastern Massachusetts/
Rhode Island upgrades associated with the
retirement of Brayton Point Station in 2017
For full transmission project descriptions,
read the 2015 Regional System Plan (RSP),
ISO New England’s 10-year planning report.
www.iso-ne.com/rsp
$2.5
$2.0
$1.5
$1.0
$0.5
$0.0
INBILLIONS
$0.0
$1.1
$1.9
$0.8 $0.8
$0.9
$0.7
$1.4
$2.3
$0.4 $0.4
$0.2
$0.1
$0.5 $0.5
New transmission investment in New England to maintain reliability
The New England electric grid is a tightly interconnected system, so each state shares in
the benefits—and costs—of reliability upgrades. The amount of electricity demand in an
area determines its portion of costs for new or upgraded transmission facilities.
Estimated future investment includes projects under construction, planned, and proposed.
Cumulative Investment
through 2015: $7.8 Billion
Estimated Future Investment
through 2020: $4.2 Billion
Source: ISO New England Regional System Plan
Transmission Project Listing, October 2015
20
0
2
20
0
3–20
0
7
20
0
8
20
0
9
20
10
20
11
20
12
20
13
20
14
20
15
20
16
20
17
20
18
20
19
20
20
34. ISO New England32
A Strong Transmission
System Benefits the
Entire Region
Electricity wherever and
whenever it’s needed
Fewer system constraints,
enabling the flow of the
least-cost electricity
The ability to integrate new,
more efficient resources
and to retire inefficient ones
The September 2015
National Electric Transmission
Congestion Study from the
US Department of Energy
reported that generation
and transmission additions in
New England have contributed
to low overall transmission
congestion in the region.
Even More Transmission
UpgradesAreNeededtoUnlock
Wind and Hydro Potential
Most of the region’s wind resources are in northern
New England—far from the greatest concentrations
of electricity consumers. Many of the new wind power
proposals are located where the transmission system is
already constrained, particularly in Maine. Over 4,200 MW
of new wind projects are proposed, but no margin remains
on Maine’s transmission system after accounting for
existing generators plus New Brunswick imports.
To be able to deliver more power from existing wind resources
and to develop new wind resources—as well as to access more
Canadian hydropower—significant additional investment will be
required in electric transmission infrastructure.
Interconnection standards and system impact analyses will
also be required to ensure that new wind turbines—as well as
grid-connected solar farms—provide adequate performance
to ensure continued reliability. These resources typically use
inverter-based generators, which are designed differently
from conventional generators in the provision of voltage and
frequency response—especially when interconnecting over
long distances or in weak areas of the system.
Facilitating Wind Resource Integration
While the region will need additional transmission infrastructure to bring more large-scale wind to market,
several ISO efforts are underway to help the region get the most out of its wind power.
GENERATOR INTERCONNECTION PROCESS
We’re evaluating ways to speed up system impact studies for proposed inverter-based wind and solar generators,
particularly those in weak areas, such as northern and western Maine. Some factors that cause study complications
and longer timelines are beyond the ISO’s control, though:
The transmission system in Maine is already at its performance limit.
The nature of wind generator technology requires more analysis than conventional generators.
MODELING
The ISO is incorporating proposed modeling and performance requirements being introduced by
new NERC standards that should streamline the process and help reduce study times.
Planning
35. 2016 Regional Electricity Outlook 33
ECONOMIC STUDIES
The ISO is conducting three assessments to evaluate the potential economic effects on the regional power
system resulting from different scenarios of wind integration and infrastructure improvements, following
stakeholder requests in 2015. The studies cover areas in Maine, as well as offshore wind development near
Rhode Island and Southeast Massachusetts.
ETU PROCESS
In February 2015, the ISO, after working with
stakeholders, implemented improvements to the
processes for evaluating the interconnection
of Elective Transmission Upgrades (ETUs) and
to incorporate ETUs into the Forward Capacity
Market. ETUs are transmission lines funded
by private parties—not through regional cost-
sharing. While not necessary from a reliability
standpoint, they can help enhance generator
deliverability or facilitate the integration of
renewable resources by enhancing portions
of the grid. Eleven ETUs were in the queue
as of January 2016.
Supporting State Efforts to
Integrate More Renewable Energy
The New England states have taken the lead
through a multistate request for proposals to
potentially contract for additional transmission
infrastructure to enable the connection of more
renewable energy. The ISO’s improved ETU
process will help support this and similar efforts.
Delivering wind power to consumers
remains a major challenge
New England holds significant onshore and offshore wind
potential, and many projects are in the works to harness
it. A third of the approximately 13,000 MW of proposed
generation in the ISO Generation Interconnection Queue
are wind resources. But delivering that wind power to
far-away consumers is going to take major upgrades
of the transmission system.
Source: ISO Generator Interconnection Queue
(January 2016; FERC jurisdictional proposals only)
Wind
Development
Proposals
All Proposed
Generation
Areas of
Greatest
Electricity
Demand
Wind
Zones
Natural Gas
Wind
Other
VT
47 MW
ME
3,641 MW
NH
91 MW
MA
464 MW
Mostly Offshore
63%
4%
33%
36. ISO New England34
Counting Megawatts:
Understanding Solar
Resource Capacity
A generator’s nameplate capacity—
the megawatts it should produce
under optimal conditions—and its
measurable day-to-day performance
can differ significantly. This is
particularly true for solar power, due
to PV’s weather-dependent nature.
That’s why for planning purposes,
the ISO counts about 40% of PV’s
nameplate capacity toward meeting
the daily summer peak demand. (See
the chart of projected PV capacity
on page 10.) The ISO counts zero PV
capacity toward daily winter peak
demand because the demand for
power in winter peaks in the evening
after the sun—and PV’s output—
has set. (See the graph on page 18.)
These values are based on an
analysis of three years of estimated
performance data for PV. The ISO
will reexamine them as more actual
operation data become available.
Planning on More Regional Solar Power
As many New England states’ policies drive strong growth in solar photovoltaic (PV) resources, the ISO has been
studying likely effects on the power system. A complicating factor is that most PV resources are invisible to the ISO:
they are connected locally “behind the meter” (not to the regional grid), don’t participate in the wholesale electricity
marketplace, and aren’t dispatchable by ISO system operators.
PIONEERING LONG-TERM FORECASTING
In 2013, we developed a long-term multistate PV forecast—the first in the nation—to project the anticipated growth
and impact on New England’s power system. Initially used in transmission planning studies, in 2015 the ISO began
using the PV forecast in its annual 10-year system planning process. Developing the annual forecast involves
close collaboration with state policymakers, distributed generation (DG) program administrators, and distribution
companies to gather information on planned projects.
IMPROVING INTERCONNECTION
STANDARDS
The ISO’s forecasting efforts have revealed a potential
problem: much of the region’s PV isn’t set up to “ride
through” low-voltage conditions that can be caused when a
transmission line or generator trips off line. Instead, they may
automatically disconnect, exacerbating the problem. And if
a large amount of PV were to shut down suddenly, demand
on the regional grid would rise considerably, introducing
instability. The ISO has been actively working with the New
England states, distribution utilities, and standard-setting
bodies to revise standards to enable future interconnections
without posing risks to grid reliability.
COLLABORATION
The ISO is engaging with other ISOs/RTOs to share relevant
methods and experience related to PV as it increases around
the country.
Planning
37. 2016 Regional Electricity Outlook 35
Measuring
the Region’s
Energy-Efficiency
Measures
The New England states are national
leaders in implementing energy-
efficiency (EE) measures, such as the
use of more efficient lighting, appliances,
cooling, and building operation. To
account for the long-term effects of
EE on regional electricity demand,
the ISO developed the nation’s first
multistate energy-efficiency forecast
in 2012. We also use this forecast in
our annual 10-year system planning
process for meeting the region’s needs.
Order No. 1000 Changes are Underway
The ISO continues to implement FERC Order No. 1000,
Transmission Planning and Cost Allocation. FERC’s
compliance order, effective May 18, 2015, requires changes
to the regional and interregional transmission planning
and cost-allocation processes that have been employed in
New England since 2001. The ISO has already posted new
process documents regarding how entities interested in
providing transmission solutions in response to a competitive
solicitation can apply to become Qualified Transmission
Project Sponsors. The ISO is currently developing new
processes for competitive solicitations for transmission
projects to address reliability needs not expected to emerge
within three years, as well as planning for transmission
projects to meet public policy objectives, the latter of
which the ISO expects to begin in January 2017.
Energy-efficiency measures are flattening growth and “shaving the peak”
With approximately $1 billion being invested annually by the New England states, EE measures
are helping to keep annual energy use effectively flat in the long-term. EE measures are also
helping to slow the growth of peak demand (the periods of highest electricity usage).
The gross load forecast
(projected regional energy use)
The gross load forecast
minus forecasted solar
PV resources
The gross load forecast minus forecasted PV,
minus EE resources in the Forward Capacity
Market 2015–2018 and forecasted EE 2019–2024
Source: Data from Final ISO New England
Energy-Efficiency Forecast 2019–2024
and Final 2015 Solar PV Forecast Details
(April 2015)
GIGAWATTHOURS
Summer Peak Demand (MW)
With and Without EE and PV Savings
35K
34K
33K
32K
31K
30K
29K
28K
MEGAWATTS
E N E R GY SAV I N G S
Annual Energy Use (GWh)
With and Without EE and PV Savings
155K
150K
145K
140K
135K
130K
125K
E N E R GY SAV I N G S
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
38. ISO New England36
ISO Metrics
Measuring
ISO New England’s
Performance
and Contribution
to the Region
ISO Metrics
39. 2016 Regional Electricity Outlook 37
Accountability and Transparency
Open, fair, and independent actions are the defining characteristics of ISO New England’s operation. To ensure the
highest levels of transparency, industry stakeholders are an integral part of the ISO’s budget processes, regional
system planning, and market development. They also interact regularly with ISO staff and directors, take part in the
nomination of the ISO Board, and participate in dozens of committees and working groups. For example, in 2015:
The ISO held about 80 meetings of the Markets, Reliability, Transmission, and Participants Committees;
16 Planning Advisory Committee meetings, which stakeholder representatives from over 100 entities attended;
and a public meeting in September to discuss planning issues facing the New England region.
The Consumer Liaison Group met quarterly to share information about the economic impacts of
New England’s power system and wholesale electricity markets on consumers.
ISO Customer Support handled almost 15,000 calls and helped customers resolve approximately 6,800 issues.
About 1,150 stakeholders attended ISO classroom or web-conference trainings.
About 50 e-learning modules and 150 presentations were maintained on the ISO website for stakeholder use.
A Robust Stakeholder Process Ensures
Diverse Perspectives and Effective Solutions
By participating in one or more of the ISO’s comprehensive advisory committees, interested parties
can help inform solutions to regional challenges. The diversity of perspectives, expectations, interests,
and ideas generated creates discussion and more effective outcomes for New England’s consumers and
market participants. The ISO’s stakeholders are a wide-ranging group, including:
The New England Power Pool (NEPOOL), the voluntary association of the participants in
New England’s wholesale electricity marketplace
State regulators, including the New England Conference of Public Utilities Commissioners (NECPUC)
State and federal legislators, attorneys general, and environmental regulators
The six governors, primarily through the New England States Committee on Electricity (NESCOE)
The Consumer Liaison Group, a forum of electricity consumers and state consumer advocates
40. ISO New England38
Results on a Budget
We maintain a culture of cost accountability and transparency in our service to the region.
The ISO is a not-for-profit entity without equity—as such, we rely on fees provided under the ISO Tariff
to fund operational expenses. Our rigorous annual budgeting process includes meaningful stakeholder
input, oversight from the ISO Board, and review by the Federal Energy Regulatory Commission (FERC).
The ISO’s 2016 operating budget is $185.2 million—an increase of 3.8% over the 2015 budget—
before incorporating the prior years’ true-ups (actual expenses versus budgeted collections).
More than half of the increase is for maintaining the ISO’s current expertise and complex services to
the region by funding competitive compensation for its highly skilled employees, software licenses and
technology systems, and retirement and medical benefits.
Most of the remaining increased costs are funding cybersecurity enhancements, including the establishment
of a 24/7 cybersecurity operations center to allow around-the-clock monitoring and surveillance; enhanced
market monitoring; and implementing FERC-approved changes to the Forward Capacity Market.
To help contain costs, the ISO has implemented a level pension-funding approach, used in-house staff to
absorb more of the work previously performed by contractors and consultants, and reallocated existing resources
to some new initiatives.
ISO Metrics
The services and benefits
the ISO provides
to keep the power flowing
will cost the average
New England residential
electricity consumer
$0.99/month in 2016,
based on 750 kilowatt-hours
per month usage.
41. 2016 Regional Electricity Outlook 39
Customer Satisfaction
ANNUAL CUSTOMER SURVEY
Stakeholder feedback is a helpful indicator of the quality of the products and services the ISO offers, as well as
areas that need improvement. The latest survey of market participants (2015) revealed high overall satisfaction levels.
Positive satisfaction among respondents with an opinion was 96%.
ISO RESPONSIVENESS TO MARKET PARTICIPANTS’ ACCOUNTING NEEDS
Following requests from market participants, the ISO launched the Divisional Accounting Project to enable
subaccount settlement reporting for each market participant, which helps them track and evaluate their ISO
transactions by individual business unit, division, or generating facility. The complexity of this implementation
across vast numbers of ISO systems required a multiphase project-release schedule between 2014 and 2016.
ENHANCEMENTS TO THE ISO WEBSITE AND ISO WEB APPLICATIONS
The ISO website and data portal, ISO Express, were redesigned in 2014 to improve the user experience.
They received even more upgrades in 2015. Of note:
The enhanced real-time fuel mix chart better reflects the percentage of each fuel that dual-fuel units are using.
A “one-stop shop” budget webpage helps stakeholders quickly find the ISO’s budget development materials.
The FCM Participation Guide provides easy access to instructions for operating in the Forward Capacity Market.
The Energy-Efficiency Measure database tracks the individual measures of EE programs participating in the
FCM, helping the ISO in its qualification, auditing, and performance verification of resources. Market participants
use the system for reporting and other needs.
42. ISO New England40
Interregional Collaboration
In late 2015, the ISO updated systems
and market rules to support coordinated
transaction scheduling. The changes now
allow ISO New England and the New York
Independent System Operator (NYISO) to
improve scheduling of wholesale electricity
sales between the two neighboring regions.
CTS increases the frequency of energy
transactions, making more efficient use of the
transmission lines connecting New England and
New York; enables the two grid operators to
coordinate the selection of the most economic
transactions; and removes several fees that
impeded efficient trade between regions.
These sophisticated software improvements
have the potential to reduce wholesale costs
in each region many tens of millions of dollars
annually by improving the ability of all market
participants to access the lowest-cost source
of power within the regions.
A Focus on Performance and Standards Compliance
The ISO is dedicated to the safe, reliable operation of the grid through extensive training for staff and
continuous process improvement to ensure compliance with directives from FERC, the North American
Electric Reliability Corporation (NERC), and the Northeast Power Coordinating Council (NPCC).
Last year, NPCC recognized the ISO for areas of excellence in its 2015 Operations and Planning Compliance
Audit, which assessed ISO compliance with 38 standards and 124 requirements related to power system
reliability. The NPCC Audit Team lauded the ISO’s operating performance over the past three years—
concluding that they had no improvement recommendations or areas of concern for the ISO.
Our work plan for 2016 and beyond includes efforts to address NERC Planning, Modeling,
and Relay Protection and Critical Infrastructure Protection Standards. These involve:
Studying long-term system needs using new contingencies and criteria
Verifying that transmission owners identified facilities for physical protection
in a manner consistent with their risk assessment study methodology
ISO Metrics
43. 2016 Regional Electricity Outlook 41
Assessing new dynamic operating characteristic information
provided by generation owners
Studying the impact of geomagnetic disturbances
Preparing to start comparing actual steady-state system
performance and dynamic system events to simulations in 2017
Cybersecurity
The ISO has been working on several cybersecurity initiatives,
as part of its commitment to protecting the grid:
To be able to detect, withstand, and recover from any
cyberattacks, the ISO has implemented an extensive
system of process controls, advanced detection and
response systems, and redundancy in systems and
control centers.
The ISO participated in NERC’s GridEx III exercise on
cybersecurity and physical security in November 2015.
Building on existing tools, we launched the 24/7
Security Operations Center late 2015 to provide
round-the-clock monitoring of the ISO network.
An IT Asset Management System is being implemented
to improve inventorying and monitoring of hardware
and software assets.
A transition is underway to NERC’s revised critical infrastructure
protection cybersecurity standards, effective April 1, 2016, which
represent significant progress in mitigating cyber risks to the
bulk power system.
All ISO employees participate in annual cybersecurity training.
The ISO’s financial statements and other metric reports are available online.
www.iso-ne.com/about
44. ISO New England42
Philip Shapiro
Chair
Roberta S. Brown Raymond Hill
Gordon van Welie
President and Chief Executive Officer
Roberto R. Denis
Vickie VanZandt
Kathleen Abernathy
Paul F. Levy
Christopher Wilson
Barney Rush
ISO Board of Directors (As of January 2016)
45. 2016 Regional Electricity Outlook 43
Gordon van Welie
President and Chief Executive Officer
Peter T. Brandien
Vice President, System Operations
Anne C. George
Vice President, External Affairs
and Corporate Communications
Vamsi Chadalavada
Executive Vice President and
Chief Operating Officer
Janice S. Dickstein
Vice President, Human Resources
Raymond W. Hepper
Vice President and General Counsel
Jeffrey McDonald
Vice President, Market Monitoring
Robert C. Ludlow
Vice President and Chief Financial
and Compliance Officer
Jamshid A. Afnan
Vice President, Information Services
Robert Ethier
Vice President, Market Operations
Mark Karl
Vice President, Market Development
Stephen J. Rourke
Vice President, System Planning
ISO Senior Management(As of January 2016)
46. ISO New England44
“Strong cooperation between
ISO New England and its stakeholders
is helping the region modernize
its electricity infrastructure,
build a world-class marketplace
for wholesale electricity, and develop
one of the most efficient power systems
in the country.”
PHILIP SHAPIRO
Board Chair