采用去碳化政策的电力市场发电和输电扩展规划模型

IF 13 Q1 ENERGY & FUELS
Yunfei Du , Xinwei Shen , Daniel M. Kammen , Chaopeng Hong , Jinfeng Nie , Bo Zheng , Shangheng Yao
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引用次数: 0

摘要

在全球范围内,电力部门必须经历深刻的转型,以实现去碳化发展目标。各种路线图都已实施,但只是从宏观角度出发,缺乏对电力市场规则的考虑。在本文中,我们开发并提出了一个考虑到电力市场有效性的市场驱动型发电和输电扩建规划(MGTEP)模型。具体来说,发电公司和输电公司将每小时的市场交易和年度容量投资纳入战略决策,以实现利润最大化。该模型采用等效二次编程公式求解三级 MGTEP 模型。同时,MGTEP 模型与去碳化政策相结合,为州和联邦政府评估能源转型战略提供支持。我们将 MGTEP 模型与碳排放配额和碳税政策相结合,用于中国南方电力市场,以实现 2030 年的碳调峰。碳排放限额采用基于发电企业历史发电量的强度上限。案例研究结果表明,需要 50% 的碳排放配额或 400 元人民币/吨的碳税,但存在一些缺点,包括去碳化效果不理想、经济牺牲过大等。最后,案例研究扩展到不同政策组合的双轨制政策。最佳组合为 70% 的碳排放配额和 160 元人民币/吨的碳税。在此情况下,2030 年中国南方电力市场的电力行业二氧化碳排放量和电价将分别增至 5.546 亿吨和 864.34 元人民币/兆瓦时,碳价格为 850 元人民币/吨。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A generation and transmission expansion planning model for the electricity market with decarbonization policies

Globally, the power sector must undergo a profound transition to achieve the decarbonization development targets. Various roadmaps are implemented, but only from a macro perspective, lacking the consideration of the electricity market rules. In this paper, we develop and present a market-driven generation and transmission expansion planning (MGTEP) model considering the effectiveness of the electricity market. Specifically, generation and transmission companies incorporate hourly market trading and annual capacity investment into strategic decisions to maximize their profits, with the supply function equilibrium model to analyze bidding behaviors. An equivalent quadratic programming formulation is deployed to solve the trilevel MGTEP model. Meanwhile, the MGTEP model is coupled with decarbonization policies to support the state and federal government in assessing energy transition strategies. We implement the MGTEP model with carbon emission allowance and carbon tax policies for the southern China electricity market to achieve carbon peaking by 2030. Carbon emission allowance adopts an intensity-based cap based on generation companies' historical output. The case study results show that 50 % carbon emission allowance or 400 CNY/t carbon tax is required but with several drawbacks, including unsatisfactory decarbonization effect, excessive economic sacrifice, etc. Finally, the case study is extended to dual-track policies with different combinations of policies. An optimal combination is 70 % carbon emission allowance and 160 CNY/t carbon tax. In this case, the power sector's carbon dioxide emissions and electricity prices in the southern China electricity market would increase to 554.6 Mt and 864.34 CNY/MWh in 2030, respectively, along with a carbon price of 850 CNY/t.

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来源期刊
Advances in Applied Energy
Advances in Applied Energy Energy-General Energy
CiteScore
23.90
自引率
0.00%
发文量
36
审稿时长
21 days
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