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ID:
192335
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Summary/Abstract |
Challenges coexist with opportunities for achieving carbon neutrality through power sector reform. Based on the ongoing reform in China and generator-level data in 2019, we identify three channels through which the reform could affect carbon emissions. We analyze the theoretical mechanisms under a long-term average cost competition framework, evaluate the emission reduction potentials of the three channels, explore the obstacles in achieving these potentials, and propose corresponding solutions. We find the following: (1) By reshaping the generation competition between high-efficiency and low-efficiency coal-fired generators, the reform has the potential to reduce carbon emissions by 205.4 million tons. However, considering the high financial costs of high-efficiency generators, realizing the full potential is difficult. (2) Administrative promotion of renewable energy could reduce carbon emissions by 311 million tons, but with large implicit expenses, which makes the promotion unsustainable. (3) The price dividend induced by the reform could increase carbon emissions by 98.1 million tons. To achieve emission reduction potentials in the first two channels and offset the rebound effect in the third channel, we propose explicitly pricing carbon. Without other supporting measures, a carbon price of over 400 Chinese yuan per ton of carbon dioxide is essential for the reform to eliminate barriers to its implementation.
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2 |
ID:
128037
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Summary/Abstract |
Onshore wind energy is a key component of the renewable energies used by governments to reduce carbon emissions from electricity production, but will carbon emissions be reduced when wind farms are located on carbon-rich peatands? Wind farms are often located in uplands because most are of low agricultural value, are distant from residential areas, and are windy. Many UK uplands are peatlands, with layers of accumulated peat that represent a large stock of soil carbon. When peatlands are drained for construction there is a higher risk of net carbon loss than for mineral soils. Previous work suggests that wind farms sited on peatlands can reduce net carbon emissions if strictly managed for maximum retention of carbon. Here we show that, whereas in 2010, most sites had potential to provide net carbon savings, by 2040 most sites will not reduce carbon emissions even with careful management. This is due to projected changes in the proportion of fossil fuels used to generate electricity. The results suggest future policy should avoid constructing wind farms on undegraded peatlands unless drainage of peat is minimal and the volume excavated in foundations can be significantly reduced compared to energy output.
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