Resilient energy system analysis and planning using optimization models

IF 5.8 Q2 ENERGY & FUELS
M. Yazdanie
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引用次数: 5

Abstract

Imminent climate change impacts call for stronger energy system modeling approaches in order to design resilient communities. This study presents a flexible framework to integrate resilience analysis within the scope of long-term energy system optimization models (ESOMs). It employs a multi-objective resilience metric approach for energy system design, which allows for the independent representation and treatment of resilience and sustainability metrics. Several energy system-characterizing resilience and sustainability metrics are identified and integrated into a composite resilience metric, which is maximized as the objective function in an open-source ESOM. The cost performance of the resulting energy system design is tested across a range of short-term resilience scenarios, capturing different shocks. The method is demonstrated on two municipal case studies (located in China and Ghana). Three energy systems are designed and compared based on cost, emission, and resilience optimization objectives. Results illustrate a wide range of cost impacts depending on the system and resilience scenario. Systems designed based on a resilience objective offer more flexibility to adapt to and absorb shocks, thus reducing damage costs. Case study findings illustrate the value of incorporating resilience analysis into conventional ESOM and energy planning approaches in order to build more resilient communities.

使用优化模型的弹性能源系统分析和规划
迫在眉睫的气候变化影响需要更强大的能源系统建模方法,以设计有弹性的社区。本研究提出了一个灵活的框架,将弹性分析整合到长期能源系统优化模型(ESOMs)的范围内。它采用多目标弹性度量方法进行能源系统设计,允许弹性和可持续性指标的独立表示和处理。确定了几个能源系统特征的弹性和可持续性指标,并将其集成到一个复合弹性指标中,该指标在开源ESOM中作为目标函数最大化。最终能源系统设计的性价比在一系列短期弹性情景下进行测试,捕捉不同的冲击。该方法在两个城市案例研究(位于中国和加纳)中得到了验证。基于成本、排放和弹性优化目标,对三种能源系统进行了设计和比较。结果表明,根据系统和弹性情景,成本影响范围很广。基于弹性目标设计的系统提供了更大的灵活性来适应和吸收冲击,从而降低了损害成本。案例研究结果说明了将弹性分析纳入传统ESOM和能源规划方法的价值,以建立更具弹性的社区。
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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%
发文量
0
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