2026  年 第 59 卷



                  of  Sichuan  University  (Philosophy  and  Social  Science  Edition),  [13]   刘士名. 建立煤电容量电价机制对新能源市场发展的影响研
                  2024(5): 35–46, 208–209.                          究  [J]. 电气技术与经济, 2024(8): 323–325.
               [3]   刘五星, 庄婧媛, 巫成方, 等. 区间调控机制对我国煤炭市场价格的          [14]   孙啸天, 谢海鹏, 刘诗雨, 等. 基于平均场微分博弈均衡的煤-电市
                  影响研究: 兼析政府对煤炭价格调控政策的发展与创新            [J]. 价格      场价格联动机理分析     [J]. 中国电机工程学报, 2026, 46(1): 74–86.
                  理论与实践, 2022(5): 10–14, 117.                       SUN Xiaotian, XIE Haipeng, LIU Shiyu, et al. Coal-electricity price
                  LIU Wuxing, ZHUANG Jingyuan, WU Chengfang, et al. Research  interaction mechanism analysis based on mean-field differential game
                  on the Influence of Interval Regulation Mechanism on China's Coal  equilibrium[J]. Proceedings of the CSEE, 2026, 46(1): 74–86.
                  Market Price: The development and innovation of the government's  [15]   王蕾, 孙轶恺, 王琼. 推进共同富裕目标下的中国电价体系: 理论
                  regulation  and  control  policy  on  coal  price[J].  Price  (Theory  &  机制与实现路径  [J]. 价格理论与实践, 2024(4): 88–94.
                  Practice), 2022(5): 10–14, 117.                   WANG  Lei,  SUN  Yikai,  WANG  Qiong.  Promoting  China's
               [4]   王志轩, 张晶杰, 石丽娜, 等. 基于非随机样本的煤电平均碳足迹量             electricity  price  system  under  the  goal  of  common  prosperity:
                  化方法  [J]. 中国电力, 2026, 59(2): 71–80.               theoretical mechanism and implementation path[J]. Price (Theory &

                  WANG  Zhixuan,  ZHANG  Jingjie,  SHI  Lina,  et  al.  Method  for  Practice), 2024(4): 88–94.
                  quantifying the average carbon footprint of coal-fired power based on  [16]   吴梓凤, 马睿智, 江艺康, 等. 煤电容量电价机制下分省煤电经济性
                  non-random samples[J]. Electric Power, 2026, 59(2): 71–80.  分析  [J]. 煤炭经济研究, 2024, 44(9): 27–36.
               [5]   SONG X H, ZHANG B J. Study on the cost composition and control  WU Zifeng, MA Ruizhi, JIANG Yikang, et al. Economic analysis of
                  of coal power in China under the perspective of policy evolution[J].  coal power by province under the coal capacity tariff mechanism[J].
                  Heliyon, 2024, 10(16): e36098.                    Coal Economic Research, 2024, 44(9): 27–36.
               [6]   吴迪, 王紫荆, 温灵, 等. 德国煤电退出机制和电力安全保供的经验          [17]   李康. 光伏发电项目  LCOE  的研究与思考  [J]. 太阳能, 2024(4):
                  分析  [J]. 中国电力, 2025, 58(10): 1–13.                5–10.
                  WU  Di,  WANG  Zijing,  WEN  Ling,  et  al.  Analysis  of  Germany's  LI  Kang.  Research  and  reflection  on  lcoe  for  pv  power  generation
                  experience with coal power phase-out mechanism and power supply  projects[J]. Solar Energy, 2024(4): 5–10.
                  safeguarding[J]. Electric Power, 2025, 58(10): 1–13.  [18]   郇嘉嘉, 罗澍忻, 刘正超, 等. 广东省天然气发电两部制价格机制研
               [7]   朱法华, 徐静馨, 沈凡卉, 等. 中国火电低碳发展现状及展望    [J]. 发      究: 基于  LCOE  模型对天然气发电成本分析及电价测算       [J]. 价格
                  电技术, 2026, 47(2): 237–247.                        理论与实践, 2024(5): 111–116, 223.
                  ZHU Fahua, XU Jingxin, SHEN Fanhui, et al. Current situation and  HUAN Jiajia, LUO Shuxin, LIU Zhengchao, et al. Research on the
                  prospects  of  the  low-carbon  development  of  thermal  power  in  Two-part  Tariff  Mechanism  for  Natural  Gas  Power  Generation  in
                  China[J]. Power Generation Technology, 2026, 47(2): 237–247.  Guangdong Province: Analysis of natural gas power generation cost
               [8]   刘志强. 实行两部制电价, 推动煤电加快功能转型      [N]. 人民日报,       and  electricity  price  calculation  based  on  LCOE  model[J].  Price
                  2023-11-29(18).                                   (Theory & Practice), 2024(5): 111–116, 223.
               [9]   赵德明, 韩啸, 肖亚京, 等. 完善两部制电价机制 保障燃机发挥重          [19]   赵岩, 张玟, 宋晓华, 等. “双碳”背景下考虑多市场的煤电交易策
                  要保供作用   [J]. 中国电力企业管理, 2025(16): 73–75.           略研究  [J]. 价格理论与实践, 2022(8): 21–26.
               [10]   安洪光. 煤电容量电价实施的技术经济影响预测及建议        [J]. 中国      ZHAO Yan, ZHANG Min, SONG Xiaohua, et al. Research on coal
                  电力企业管理, 2024(1): 10–12.                           power trading strategy considering multiple markets in the context of
               [11]   刘吉臻, 杜忠明, 王庆华, 等. 新型电力系统下新一代煤电发展路             "Double-carbon"[J]. Price (Theory & Practice), 2022(8): 21–26.
                  径  [J]. 新型电力系统, 2024, 2(4): 357–370.           [20]   关立, 周蕾, 刘秉祺, 等. 山东电力现货市场“五一”假期长时间负
                  LIU  Jizhen,  DU  Zhongming,  WANG  Qinghua,  et  al.  Development  电价现象分析及启示  [J]. 电力系统自动化, 2024, 48(14): 1–7.
                  paths  for  next-generation  coal-fired  power  generation  under  new  GUAN Li, ZHOU Lei, LIU Bingqi, et al. Analysis and enlightenment
                  electric  power  systems[J].  New  Type  Power  Systems,  2024,  2(4):  of long-time-scale negative electricity prices in Shandong electricity
                  357–370.                                          spot  market  of  China  during  "may  day"  holiday[J].  Automation  of
               [12]   张志强, 倪小点, 卢季德. 完善煤电容量电价机制 促进煤电产业健             Electric Power Systems, 2024, 48(14): 1–7.
                  康发展  [J]. 中国经贸导刊, 2024(11): 74–76.             [21]   项中明, 唐家俊, 徐立中, 等. 考虑电价碳价不确定性的燃煤发电基

               18