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Medium length placeholder heading. EPRI text. This approach would not only strengthen the scientific basis for estimating the social cost of carbon but would also improve characterization of uncertainties and provide greater transparency.
The methodology makes it possible for farmers to participate in carbon markets by creating GHG offsets through reducing the amount of nitrogen used to fertilize crops. Agricultural use of nitrogen fertilizer results in atmospheric N2O emissions, a potent greenhouse gas. The offsets can be sold to other carbon market participants to meet GHG emission reduction targets or requirements. For more information, contact Adam Diamant, Diamant's presentation focused on the potential for GHG emitters in California to use greenhouse gas emissions offsets created in Mexico for compliance purposes in the evolving California GHG emissions cap-and-trade program.
Download the presentation KB. For more information, contact Adam Diamant at adiamant epri. The brochure summarizes PSA and PSB research into technology cost and performance, integrated system planning and market analysis, and technology innovation. The brochure includes abstracts and links to each publication. ESCA publishes two-page "Back Pocket Insights" that condense the group's research into succinct pieces that can educate stakeholders on key economic insights related to policy or technology drivers or change as well as best practices in energy modeling.
In October , the U. As of July , EPRI is also working with over 30 utilities in eight states on state specific analyses. The Clean Power Plan offers many options for compliance. States can choose between rate- or mass-based targets, whether to trade or not, and have some discretion in the choice of mitigation measures they can include in a State Implementation Plan. How states choose will greatly influence investment and generation decisions, and the development of trading markets.
To analyse all these nuances, EPRI has modified the US-REGEN model to represent the least-cost compliance path for all of the lower 48 states simultaneously, given assumed decisions on rate versus mass targets, and trading blocs. This provides a powerful platform for consistent analysis of many of the compliance options available under the Clean Power Plan. Strategic Energy Analysis, previously known as the Energy Technology Assessment Center or ETAC, conducts assessments of electricity sector technology needs with research focusing on interdisciplinary analysis of technology development, energy policy, and economic factors.
Current research areas include:. The goal of the Strategic Energy Analysis research is to assure that ongoing debates among electricity sector stakeholders are based on sound technical and scientific information. Climate policy can significantly affect returns on existing capital and on new corporate investments.
Sound analyses and clear communication are critical to creating effective corporate strategies. EPRI research analyzes the potential effects of climate policy on the electric sector at state and regional levels in order to help companies incorporate power market impacts into business and compliance strategies.
Events and Webcasts. Research Staff. Social Costs of Climate Policy. GHG Offset Policy. Social Costs of Greenhouse Gases. Resource Planning for Electric Power Systems. Canadian and North American Analysis.
Arbuckle, M. Binsted, E. Davies, D. Chiappori, Christopher Roney, et al. March Electric sector impacts of renewable policy coordination: A multi-model study of the North American energy system John Bistline, M. Brown, S. Siddiqui, K. Huntington, A. Bhargava, D. Daniels, J. Weyant, John Bistline, et al. September Technology-Neutral Policies — A scenario-based analysis of electric-sector impacts through Mar Technical Results U. Social Costs of Climate Policy International and domestic climate policies may cost on the order of trillions of dollars, but cost-effective implementation and technology advances can substantially reduce the cost of achieving the environmental objectives of these policies.
Rose July 3. Niemeyer January 1. Wilson July 1. Diamant March 1. Diamant June 2. Energy Future T. Diamant May KB. This site has moved. Integrated Assessment Climate policies will fundamentally change the economics of electricity and energy, and smart policy approaches can substantially reduce the costs of meeting the environmental goals of these policies. Richels, et al. Climate Change Science Program R. July For archived material on the Clean Power Plan, please click here.
For archived material on Strategic Energy Analysis, please click here. For archived material on Power Market Analysis please click here. Strategic Energy Analysis Strategic Energy Analysis, previously known as the Energy Technology Assessment Center or ETAC, conducts assessments of electricity sector technology needs with research focusing on interdisciplinary analysis of technology development, energy policy, and economic factors.
Current research areas include: Generation technology costs and performance Technology trends and learning curve assumptions Economic evaluation strategies High level "reference cards" on key topics The goal of the Strategic Energy Analysis research is to assure that ongoing debates among electricity sector stakeholders are based on sound technical and scientific information.
Inwood June KB. Power Market Analysis Climate policy can significantly affect returns on existing capital and on new corporate investments. Niemeyer June 1. Niemeyer April KB. Canadian National Electrification Assessment — English.
Canadian National Electrification Assessment — French.
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