可再生能源
能量转换
化石燃料
电
环境经济学
煤
建筑
能源系统
环境科学
建筑工程
业务
计算机科学
工程类
经济
电气工程
废物管理
地理
病理
考古
替代医学
医学
灵丹妙药
作者
Michael C. Ferris,Andy Philpott
出处
期刊:INFORMS journal on optimization
[Institute for Operations Research and the Management Sciences]
日期:2025-04-17
卷期号:7 (3): 214-239
被引量:2
标识
DOI:10.1287/ijoo.2024.0051
摘要
Energy production throughout the world is transitioning from fossil fuels to renewable sources such as wind power and solar power. This transition has been gradual—over half of the world’s electricity is still produced by coal, oil, and gas—but must accelerate to meet global emission targets. This paper examines the contributions that mathematical optimization and equilibrium models can make to help accelerate this transition. The models we catalog cover a range of physical scales and timescales. Our focus is on novel model formulations that can help overcome the challenges of the transition by unpicking the complexity inherent in many settings and quantifying the trade-offs that must be made when developing energy policy. Funding: This research was performed while the authors were participating in the Architecture of Green Energy Systems Program hosted by the University of Chicago, which is supported by the National Science Foundation [Grant DMS-1929348]. A. B. Philpott acknowledges support from MBIE Catalyst Fund New Zealand German Platform for Green Hydrogen Integration (HINT) [Grant UOCX2117].
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