Feasibility study of China's electric power sector transition to zero emissions by 2050

The study explores the potential transition of China's electric power sector to zero emissions by 2050. Using a capacity expansion model (CEPRO) with 31 regions, hourly time resolution, and 39 years of historical reanalysis weather data (MERRA-2), we simulate the expansion and operation of the power sector, considering solar and wind energy as the primary source of generation. The results suggest that zero-emissions power generation can be achieved with mostly wind and solar energy and alternative sets of balancing technologies. We show that a high-renewables power system can operate without significant storage and provide a high level of reliability. Besides storage, the balancing can be achieved by a partially flexible load, expansion of power grid, and backup capacity. The four balancing options and the level of reliability of the system are substitutes for one another, making at least storage or backup generation optional. Most importantly, a high-renewables power system is competitive, with the supply-side levelized system cost of electricity as low as 0.2-0.3 CNY/kWh (about 3-4 US cents per kWh) even without consideration of further reductions in the cost of renewables. (c) 2021 Elsevier B.V. All rights reserved.

Automated summary

The study suggests that China's electric power sector can transition to zero emissions by 2050 with high-renewables power system, mainly relying on wind and solar energy. The system can operate without significant storage, providing high reliability through balancing via flexible load, power grid expansion, and backup capacity. A high-renewables power system is competitive, with a levelized system cost of electricity as low as 0.2-0.3 CNY/kWh (about 3-4 US cents per kWh).