Partner
Tory Clark

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Tory Clark

she / her / hers

Tory Clark leads E3’s Climate Pathways and Electrification practice area focusing on helping state agencies, regulators, utilities, and NGOs plan to meet ambitious climate and energy goals while addressing real-world constraints. Tory has extensive experience helping clients chart policy pathways to reach greenhouse gas reduction goals, including understanding the role of electrification, clean and reliable electricity generation, low-carbon fuels, emerging technologies, and affordability. She has recently supported Climate Scoping Plans for CARB and NYSERDA, developed utility decarbonization plans for Xcel Energy, BGE, and RI PUC, and developed long-term scenarios for the US Climate Alliance and WRI.

Tory likes knowing that her work is helping policy makers, utilities, and investors lay the foundation for a low-carbon economy. Before joining E3 in 2015, she spent five years helping developing countries create long-term energy and climate plans using the LEAP model, an experience that impressed upon her the vital and varied roles that different regions will play in the global push toward deep decarbonization. She continues to work to help stakeholders understand their region’s role in the overall transition to climate mitigation policies, both in the U.S. and globally.

Education: MS, technology and policy, Massachusetts Institute of Technology; BS, mechanical engineering, Tufts University

Projects

Scenario Analysis to Support the 2023 Annual Report | United States Climate Alliance, 2023

E3 provided scenario analysis to support the US Climate Alliance’s 2023 Annual Report which highlighted the progress Alliance members have already made toward reducing greenhouse gas (GHG) emissions, and using E3’s modeling, detailed multiple scenarios of Alliance-wide GHG emissions through 2050. E3 evaluated Alliance-wide GHG emissions through 2050 using E3’s PATHWAYS model to map out the trajectory of current policies including the Inflation Reduction Act, proposed federal actions, and additional ambitious collective actions for Alliance states or the federal government. These scenarios highlighted the gap between current policies and GHG targets and quantified the impact of incremental measures and actions. E3 also evaluated the benefits and costs of achieving net zero GHG emissions, including health benefits, climate benefits, and direct costs of fuels and clean infrastructure, showcasing net savings through 2050 of decarbonization.

Read the detailed project description.

WRI United States Decarbonization Scenarios | World Resources Institute, 2021

E3 worked with the World Resources Institute (WRI) to develop four scenarios of increasing ambition to reduce greenhouse gas (GHG) emissions across all sectors of the United States economy using E3’s US PATHWAYS and RESOLVE models. E3 collaborated with WRI to develop robust scenario definitions, collect publicly available data and assumptions, and create interactive spreadsheet results. The goal of the study was to understand the effect of high-impact federal policies on achieving 50% emissions reduction by 2030 and net-zero emissions by 2050. The analysis demonstrates the importance of key near-term building blocks, including: 1) aligning economics for customers and companies to adopt clean energy technologies; 2) aligning policy and institutions to remove barriers to technology deployment; 3) increasing consumer awareness and education to unlock higher levels of adoption; and 4) creating a transition plan for fossil fuel jobs to ensure a smooth transition.

Read the detailed project description.

US Climate Alliance Greenhouse Gas Emissions Scenarios to Net Zero | US Climate Alliance, 2021

E3 provided modeling and scenario analysis to support the US Climate Alliance’s 2021 Annual Report. The report highlights the progress Alliance members have already made toward reducing greenhouse gas (GHG) emissions, and using E3’s modeling, details multiple scenarios of Alliance-wide GHG emissions through 2050. E3 evaluated Alliance-wide GHG emissions through 2050 using E3’s PATHWAYS and RESOLVE models. The GHG emissions scenarios E3 developed for the Alliance highlighted the gap between the GHG reductions that would be possible with proposed state and federal policies and the reductions necessary to meet established federal targets. E3 also modeled the emissions impacts of the collective actions that would help bridge that gap.

Read the detailed project description.

New York Integration Analysis for Climate Action Council Draft Scoping Plan | NYSERDA, 2021 – ongoing

E3 is supporting NYSERDA in its analysis to inform the Climate Action Council’s Scoping Plan. E3 has developed scenarios showing how New York could achieve carbon neutrality as outlined in the Climate Leadership and Community Protection Act (CLCPA). This work includes a detailed analysis of buildings, transportation, industry, electricity generation, non-combustion, low-carbon fuels, and negative emissions using E3’s suite of modeling tools (PATHWAYS, RESOLVE, and RECAP) and parallel modeling efforts at NYSERDA. E3 also assessed the economy-wide cost of decarbonization and compared it to the societal benefits of reduced greenhouse gas emissions and monetized benefits of improved air quality through reduced combustion. E3’s work includes detailed modeling of the CLCPA electric sector targets, including the 70×30 and 100×40 goals as well as technology-specific targets such as the 9 GW offshore wind target.

Pacific Northwest Pathways to 2050 | NW Natural, 2018

E3 analyzed regional 2050 decarbonization scenarios for the Pacific Northwest on behalf of NW Natural, a gas distribution business in Oregon and Southwest Washington. Unlike prior studies, E3’s focused on space heating technologies: both how they perform in cold temperatures and affect the costs of serving heating loads. E3 analyzed four scenarios — two maintaining direct use of gas in buildings, and two assuming large-scale building electrification — and found similar 2050 costs among the gas and cold-climate electric heat pump scenarios, and higher costs in the standard electric heat pump scenario. Gas scenarios require three things beyond the decarbonization strategies common to all scenarios: reducing the carbon intensity of natural gas by blending up to 30 percent carbon-neutral renewable natural gas (RNG) and hydrogen; high building energy efficiency; and deeper GHG reductions in non-building sector emissions. Electrification scenarios require rapid consumer adoption of electric heating technologies, especially cold-climate heat pumps, and significant electricity sector investments to address winter peak demand from electric space heating.

Publications

Economic analysis of market-based carbon reduction | Oregon Department of Environmental Quality, 2016–2017

E3 worked with the Oregon Department of Environmental Quality (DEQ) to evaluate the economic impacts of adopting a carbon market in Oregon, per the directive of the State Legislature (SB 5701). E3 performed a detailed literature review of cap and trade programs and impacts across North America and Europe. We also developed an economic analysis of Oregon’s climate policies, including an estimate of the potential macroeconomic impacts of cap and trade in Oregon. E3 evaluated two categories of climate policies: (1) ‘complementary policies,’ which are the policies that drive GHG emissions reductions outside of the carbon market (e.g. the renewable portfolio standard and energy efficiency programs), and (2) different configurations of a future carbon market. E3 modeled the complementary policies in the energy-accounting model LEAP (Long-range Energy Alternatives Planning system), and the impacts of the carbon market using the IMPLAN macroeconomic model. The results of this study were presented to Oregon stakeholders in January 2017, and the Oregon DEQ presented the study results to the Oregon Legislature for consideration in February 2017.

 

Publications

New York GHG scenario analysis | NYSERDA, 2016–present

E3 is supporting the New York State Energy Research and Development Authority (NYSERDA) in developing a detailed GHG analysis to quantify the infrastructure and policy changes necessary to meet state climate and energy goals. We are evaluating the GHG and cost implications of a variety of scenarios that are consistent with New York’s goal of reducing statewide GHG emissions by 40 percent below 1990 levels by 2030 and 80 percent below 1990 levels by 2050. In this work, E3 developed a user-friendly PATHWAYS model on the LEAP software platform for NYSERDA, as well as other modeling tools to support evaluating costs and options to decarbonize the electricity sector.

California’s 2017 Climate Change Scoping Plan | CARB, 2016–2017

E3 supported the California Air Resources Board (CARB) in developing an updated “Scoping Plan” strategy for achieving California’s 2030 greenhouse gas target. California Senate Bill 32 (Pavley, 2016) requires the state to reduce greenhouse gas (GHG) emissions 40% below 1990 levels by 2030. E3’s analysis evaluated the GHG and cost implications of different 2030 scenarios that are consistent with the state’s current policies and GHG target. For this project, E3 updated the California PATHWAYS model to reflect scenarios and input assumptions requested by the CARB. The model results were translated into inputs to a macroeconomic model (REMI) in analysis performed by the CARB to evaluate impacts to statewide economic growth and jobs. E3’s study results were presented in public stakeholder workshops and are reflected in the final Scoping Plan published in November 2017.

 

 

Time-dependent valuation for building codes | CEC, 1999–present

E3 supports the California Energy Commission (CEC) in implementing the state building energy code by maintaining the economic framework for energy standard requirements and allowed trade-offs for new construction. We have worked with the CEC and its stakeholders since 1999 to continually refine a time-dependent valuation (TDV) methodology, and we are now under contract to support the 2025 Title 24 Update. The TDV methodology uses a 30-year forecast of the social cost of energy that varies hourly and by location to account for shifts in system peaks over time, and regional variations in climate and grid utilization. . E3’s initial study investigated a shift to a value-based standard that accounts for the time and geographic differences in energy costs seen in California energy prices, natural gas and propane markets, as well as in the costs of electric utility distribution and transmission systems. TDV was initially adopted in 2005, and E3 supported the updates in 2008, 2013, 2016, 2019, and 2022.

Publications


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