Understanding the role and design space of demand sinks in low-carbon power systems

IF 5.8 Q2 ENERGY & FUELS
Sam van der Jagt , Neha Patankar , Jesse D. Jenkins
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引用次数: 0

Abstract

As the availability of weather-dependent, zero marginal cost resources such as wind and solar power increases, a variety of flexible electricity loads, or ‘demand sinks’, could be deployed to use intermittently available low-cost electricity to produce valuable outputs. This study provides a general framework to evaluate any potential demand sink technology and understand its viability to be deployed cost-effectively in low-carbon power systems. We use an electricity system optimization model to assess 98 discrete combinations of capital costs and output values that collectively span the range of feasible characteristics of potential demand sink technologies. We find that candidates like hydrogen electrolysis, direct air capture, and flexible electric heating can all achieve significant installed capacity (>10% of system peak load) if lower capital costs are reached in the future. Demand sink technologies significantly increase installed wind and solar capacity while not significantly affecting battery storage, firm generating capacity, or the average cost of electricity.

了解需求汇在低碳电力系统中的作用和设计空间
随着依赖天气的零边际成本资源(如风能和太阳能)的可用性增加,可以部署各种灵活的电力负载或 "需求汇",利用间歇性可用的低成本电力来产生有价值的产出。本研究提供了一个总体框架,用于评估任何潜在的需求汇技术,并了解其在低碳电力系统中以具有成本效益的方式部署的可行性。我们使用电力系统优化模型来评估 98 种资本成本和输出值的离散组合,这些组合共同涵盖了潜在需求汇技术的可行特性范围。我们发现,如果未来达到较低的资本成本,电解氢、直接空气捕获和灵活电加热等候选技术都能实现可观的装机容量(占系统峰值负荷的 10%)。需求汇技术可大幅提高风能和太阳能的装机容量,同时不会对电池储能、稳定发电能力或平均电力成本产生重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Energy and climate change
Energy and climate change Global and Planetary Change, Renewable Energy, Sustainability and the Environment, Management, Monitoring, Policy and Law
CiteScore
7.90
自引率
0.00%
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0
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