Using electrolytic hydrogen production and energy storage for balancing a low carbon electricity grid: Scenario assessments for India

IF 5.8 Q2 ENERGY & FUELS
Rupsha Bhattacharyya , KK Singh , K Bhanja , RB Grover
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引用次数: 0

Abstract

Nuclear reactors and variable renewables will play a significant role in the global energy transition as providers of low carbon electricity to various end use sectors. Real time balancing of power demand and supply without modulation or curtailment is possible using electrolytic hydrogen plants and energy storage systems. The generation mix adopted and load profiles are unique to a country and this study considers the specific case of India. This work analyses the use of grid connected water electrolysers, grid scale battery storage, hydrogen storage and fuel cells as flexible loads and dispatch schemes for grid balancing. Based on postulated long term power generation scenarios for India, the minimum required system sizes for grid balancing are estimated and techno-economic uncertainties are assessed. The use of water electrolysers is prioritized to make use of excess power, while minimizing battery storage requirement. This scheme can potentially produce a substantial share of low carbon hydrogen in India for use in industrial decarbonization, thus reducing the need for additional generation infrastructure.

利用电解制氢和储能平衡低碳电网:印度的情景评估
核反应堆和可变可再生能源将在全球能源转型中发挥重要作用,为各终端使用部门提供低碳电力。利用电解制氢装置和储能系统,可以在不进行调节或削减的情况下实现电力供需的实时平衡。一个国家所采用的发电组合和负荷状况是独一无二的,本研究考虑了印度的具体情况。本研究分析了使用并网水电解槽、电网规模电池储能、氢储能和燃料电池作为灵活负载和电网平衡调度方案的情况。根据预测的印度长期发电情况,估算了电网平衡所需的最小系统规模,并评估了技术经济不确定性。优先使用水电解槽来利用过剩电力,同时最大限度地减少电池存储需求。该方案有可能在印度生产大量低碳氢气,用于工业脱碳,从而减少对额外发电基础设施的需求。
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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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