Getting to 100%: Six strategies for the challenging last 10%

可再生能源 化石燃料 发电 环境经济学 自然资源经济学 资本成本 文件夹 范围(计算机科学) 收入 业务 废物管理 经济 工程类 计算机科学 财务 宏观经济学 物理 功率(物理) 电气工程 量子力学 程序设计语言
作者
Trieu Mai,Paul Denholm,Patrick R. Brown,Wesley Cole,Elaine Hale,Patrick Lamers,Caitlin Murphy,Mark Ruth,Brian Sergi,Daniel Steinberg,Samuel F. Baldwin
出处
期刊:Joule [Elsevier BV]
卷期号:6 (9): 1981-1994 被引量:4
标识
DOI:10.1016/j.joule.2022.08.004
摘要

Meeting the last increment of demand always poses challenges, irrespective of whether the resources used to meet it are carbon free. The challenges primarily stem from the infrequent utilization of assets deployed to meet high demand periods, which require very high revenue during those periods to recover capital costs. Achieving 100% carbon-free electricity obviates the use of traditional fossil-fuel-based generation technologies, by themselves, to serve the last increment of demand—which we refer to as the “last 10%.” Here, we survey strategies for overcoming this last 10% challenge, including extending traditional carbon-free energy sources (e.g., wind and solar, other renewable energy, and nuclear), replacing fossil fuels with carbon-free fuels for combustion (e.g., hydrogen- and biomass-based fuels), developing carbon capture and carbon dioxide removal technologies, and deploying multi-day demand-side resources. We qualitatively compare economic factors associated with the low-utilization condition and discuss unique challenges of each option to inform the complex assessments needed to identify a portfolio that could achieve carbon-free electricity. Although many electricity systems are a long way from requiring these last 10% technologies, research and careful consideration are needed soon for the options to be available when electricity systems approach 90% carbon-free electricity. Meeting the last increment of demand always poses challenges, irrespective of whether the resources used to meet it are carbon free. The challenges primarily stem from the infrequent utilization of assets deployed to meet high demand periods, which require very high revenue during those periods to recover capital costs. Achieving 100% carbon-free electricity obviates the use of traditional fossil-fuel-based generation technologies, by themselves, to serve the last increment of demand—which we refer to as the “last 10%.” Here, we survey strategies for overcoming this last 10% challenge, including extending traditional carbon-free energy sources (e.g., wind and solar, other renewable energy, and nuclear), replacing fossil fuels with carbon-free fuels for combustion (e.g., hydrogen- and biomass-based fuels), developing carbon capture and carbon dioxide removal technologies, and deploying multi-day demand-side resources. We qualitatively compare economic factors associated with the low-utilization condition and discuss unique challenges of each option to inform the complex assessments needed to identify a portfolio that could achieve carbon-free electricity. Although many electricity systems are a long way from requiring these last 10% technologies, research and careful consideration are needed soon for the options to be available when electricity systems approach 90% carbon-free electricity.

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