Abstract: Abstract Energy system decarbonization has been a critical measure to combat climate change, and an optimization framework modelling this process would facilitate designing cost-effective energy transition pathways. In this study, a bottom-up optimization framework for energy transitions is developed, which bridges the decarbonization processes for the power sector and the space heating sector, while considering energy system stability, climate targets and scheduled system changes. Our results show that the decarbonization goals of New York Sta...
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Topics: 
Process engineering
Environmental economics