A study of carbon peaking and carbon neutral pathways in China's power sector under a 1.5 °C temperature control target

The clean and low-carbon transition of China's power sector is of great importance to the achievement of dual carbon targets and the control of global warming. This paper first estimates the remaining carbon budget of the power sector under a 1.5 degrees C temperature control target and on this basis constructs 1.5 degrees C and 2 degrees C power transition scenarios, examining key boundary conditions such as economic development and changes in the cost of power generation technologies. Second, the Genetic Algorithm-Extreme Learning Machine (GA-ELM) model is used to forecast the electricity demand for the next forty years. Finally, with the objective of minimising the total planning cost, a pathway optimisation model of the power system is constructed to explore the optimal transition path for the power system using the dual carbon target, carbon budget and electricity demand as the main constraints. The results of the study show that the carbon budget of the Chinese power sector is approximately 7.1 x 10(10) t CO2 for a 1.5 degrees C temperature control target. The electricity demand tends to saturate after 2050 and reaches 1.58 x 10(13) kWh in 2060. The time of the carbon peak and carbon neutralisation in the power sector is 5 years ahead of the double carbon target. By 2060, the power system will be dominated by new energy sources, with the proportion of installed non-fossil energy capacity at over 90% and the proportion of non-fossil energy generation at over 85%. Compared to that under the 2 degrees C temperature control target, the power sector under the 1.5 degrees C temperature control target needs to accelerate the pace of the low-carbon transition of electricity and deal with key issues such as the orderly withdrawal of coal power, the construction of a diversified clean energy system and the application of carbon capture devices. This study recommends that the process of building a zero-emissions power sector requires a good pace of the construction of new power systems at a suitable pace, increased efforts to tackle key technologies and improved relevant market mechanisms. China's carbon-neutral pathway in the power sector also has implications for other countries' clean, low-carbon transitions of their power systems.

Automated summary

This study explores the optimal transition path for China's power sector towards clean and low-carbon transformation, considering dual carbon targets and global warming control. The findings suggest the need to accelerate the low-carbon transition of the power sector under the 1.5 degrees C temperature control target, and address key issues such as coal power phase-out, diversified clean energy system construction, and carbon capture application. The study highlights implications of China's carbon-neutral pathway in the power sector for other countries' clean and low-carbon transitions.