Abstract
Inter-regional electricity trade is an important way to mitigate the imbalance between regional electricity generation and consumption. With the increasing amount of inter-regional electricity trade in China, the emission transfer problem is more severe. By using Quasi-Input-Output model, which can consider the ripple effect of electricity trade network, this study analyzed embodied greenhouse gas emissions of electricity trade among 30 provinces in China. Results indicated that, in 2017, the national transfer volumes of CO2, CH4, and N2O embodied in inter-provincial electricity trade were 603.25 Mt, 6803.81 t, and 9899.25 t, respectively. Emissions are mainly transferred from the eastern to the western regions, especially to those with high proportion of electricity generated from fossil fuels. The amount of emission transfer is not consistent with that of purchased electricity, since some regions are rich in clean energy. Although direct emission transfer plays the dominant role for most province, indirect emission transfer should also be noticed. Provinces with larger indirect emission transfer generally purchase electricity from provinces with a lot of electricity inflows. The findings could help policy makers coordinate regional energy utilization strategies and issue more effective emission reduction policies in the electricity industry.
Highlights
Electricity is the main power in promoting industrialization, urbanization and informatization of the world, and it is expected to continue playing an important role in social development for a long time [1]
In Beijing, power plants are of high generation efficiency and emission reduction ability, and there is a low amount of coal in the power structure of electricity generation
Emission factors of electricity consumption would be decreased if the imported electricity mainly comes from regions where the power structure is dominated by non-fossil energy
Summary
Electricity is the main power in promoting industrialization, urbanization and informatization of the world, and it is expected to continue playing an important role in social development for a long time [1]. According to the BP Statistical Review of World Energy, global electricity consumption in 2019 was 25.8 trillion kilowatt-hours (kWh) which accounts for approximately 20% of final energy consumption. Electricity generation and consumption are inconsistent in regions due to different economic development levels, technological conditions and resource endowments [2]. To mitigate this spatial mismatch, electricity trade has become a valid method [3]. International electricity trade developed rapidly in recent years.
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