| [1] | 刘文华. 能源结构持续优化 能耗强度升幅回落 [N]. 中国信息报, 2020-10-21(002). DOI: 10.38309/n.cnki.nzgxx.2020.000923. LIU W H. Energy structure continues to optimize energy consumption intensity rise and decline [N]. China Information News, 2020-10-21 (002). DOI: 10.38309/n.cnki.nzgxx.2020.000923. |
| [2] | 朱明亮. 中国电力能源替代经济性及路径研究 [D]. 北京: 华北电力大学 (北京), 2021. DOI: 10.27140/d.cnki.ghbbu.2021.000108 ZHU M L. Study on economy and path of China's electric power energy substitution [D]. Beijing: North China Electric Power University (Beijing), 2021. DOI: 10.27140/d.cnki.ghbbu.2021.000108 |
| [3] | 魏书洲, 李兵发, 孙晨阳, 等. 压缩空气储能技术及其耦合发电机组研究进展 [J]. 华电技术, 2021, 43(7): 9-16. DOI: 10.3969/j.issn.1674-1951.2021.07.002. WEI S Z, LI B F, SUN C Y, et al. Research progress of compressed air energy storage and its coupling power generation [J]. Huadian Technology, 2021, 43(7): 9-16. DOI: 10.3969/j.issn.1674-1951.2021.07.002. |
| [4] | 蔡绍宽. 双碳目标的挑战与电力结构调整趋势展望 [J]. 南方能源建设, 2021, 8(3): 8-17. DOI: 10.16516/j.gedi.issn2095-8676.2021.03.002. CAI S K. Challenges and prospects for the trends of power structure adjustment under the goal of carbon peak and neutrality [J]. Southern Energy Construction, 2021, 8(3): 8-17. DOI: 10.16516/j.gedi.issn2095-8676.2021.03.002. |
| [5] | 黄畅, 张攀, 王卫良, 等. 燃煤发电产业升级支撑我国节能减排与碳中和国家战略 [J]. 热力发电, 2021, 50(4): 1-6. DOI: 10.19666/j.rlfd.202101004. HUANG C, ZHANG P, WANG W L, et al. The upgradation of coal-fired power generation industry supports China's energy conservation, emission reduction and carbon neutrality [J]. Thermal Power Generation, 2021, 50(4): 1-6. DOI: 10.19666/j.rlfd.202101004. |
| [6] | WANG J J, HUO J K, ZHANG S, et al. Flexibility transformation decision-making evaluation of coal-fired thermal power units deep peak shaving in China [J]. Sustainability, 2021, 13(4): 1882-1882. DOI: 10.3390/SU13041882. |
| [7] | 曾勇, 曾颖. 热电联产机组的电力调峰运行模式研究 [J]. 南方能源建设, 2015, 2(3): 51-56. DOI: 10.16516/j.gedi.issn2095-8676.2015.03.010. ZENG Y, ZENG Y. Research of cogeneration units acting on electric peak-shaving operating mode [J]. Southern Energy Construction, 2015, 2(3): 51-56. DOI: 10.16516/j.gedi.issn2095-8676.2015.03.010. |
| [8] | 王金星. 大型燃煤热电联产系统研究现状和展望 [J]. 华北电力大学学报(自然科学版), 2019, 46(6): 90-98. DOI: 10.3969/j.ISSN.1007-2691.2019.06.12. WANG J X. Research status and prospect for large coal-fired combined heat and power generation system [J]. Journal of North China Electric Power University (Natural Science Edition), 2019, 46(6): 90-98. DOI: 10.3969/j.ISSN.1007-2691.2019.06.12. |
| [9] | 赵帅, 顾煜炯, 李欣, 等. 供热机组多元工况下能效状态基准研究 [J]. 热力发电, 2022, 51(4): 88-95. DOI: 10.19666/j.rlfd.202108151. ZHAO S, GU Y J, LI X, et al. Research on energy efficiency state of heating units under multiple working conditions [J]. Thermal Power Generation, 2022, 51(4): 88-95. DOI: 10.19666/j.rlfd.202108151. |
| [10] | 郭建. 供热机组热电耦合特性与运行优化研究 [D]. 南京: 东南大学, 2020. DOI: 10.27014/d.cnki.gdnau.2020.003449. GUO J. Study on thermoelectric coupling characteristics and operation optimization of heating unit [D]. Nanjing: Southeast University, 2020. DOI: 10.27014/d.cnki.gdnau.2020.003449. |
| [11] | 印佳敏, 郑赟, 杨劲. 储能火电联合调频的容量优化配置研究 [J]. 南方能源建设, 2020, 7(4): 11-17. DOI: 10.16516/j.gedi.issn2095-8676.2020.04.002. YIN J M, ZHENG Y, YANG J. Research on capacity optimization of generator-storage combined frequency regulation system [J]. Southern Energy Construction, 2020, 7(4): 11-17. DOI: 10.16516/j.gedi.issn2095-8676.2020.04.002. |
| [12] | 张倩. 高背压热电联产机组调峰性能与负荷分配研究 [D]. 北京: 华北电力大学 (北京), 2021. DOI: 10.27140/d.cnki.ghbbu.2021.001078. ZHANG Q. Study on peak regulation performance and load distribution of high back-pressure combined heat and power units [D]. Beijing: North China Electric Power University (Beijing), 2021. DOI: 10.27140/d.cnki.ghbbu.2021.001078. |
| [13] | LI X, WU X, GUI D, et al. Power system planning based on CSP-CHP system to integrate variable renewable energy [J]. Energy, 2021, 232: 121064. DOI: 10.1016/J.ENERGY.2021.121064. |
| [14] | 李峻, 祝培旺, 王辉, 等. 基于高温熔盐储热的火电机组灵活性改造技术及其应用前景分析 [J]. 南方能源建设, 2021, 8(3): 63-70. DOI: 10.16516/j.gedi.issn2095-8676.2021.03.009. LI J, ZHU P W, WANG H, et al. Flexible modification technology and application prospect of thermal power unit based on high temperature molten salt heat storage [J]. Southern Energy Construction, 2021, 8(3): 63-70. DOI: 10.16516/j.gedi.issn2095-8676.2021.03.009. |
| [15] | 王金星, 郝剑, 刘畅, 等. 抽凝机组热电联产系统中扩大热电负荷比的灵活性研究 [J]. 热力发电, 2020, 49(12): 41-50. DOI: 10.19666/j.rlfd.202002095. WANG J X, HAO J, LIU C, et al. Enlargement of heat-electricity ratio for flexibility operation in a large-scale extraction condensing turbine system [J]. Thermal Power Generation, 2020, 49(12): 41-50. DOI: 10.19666/j.rlfd.202002095. |
| [16] | 王金星, 张少强, 张瀚文, 等. 燃煤电厂调峰调频储能技术的研究进展 [J]. 华电技术, 2020, 42(4): 64-71. DOI: 10.3969/j.issn.1674-1951.2020.04.010. WANG J X, ZHANG S Q, ZHANG H W, et al. Progress on the peak load regulation, frequency regulation and energy storage technologies for coal-fired power plants [J]. Huadian Technology, 2020, 42(4): 64-71. DOI: 10.3969/j.issn.1674-1951.2020.04.010. |
| [17] | 张翼, 魏书洲, 任学武, 等. 风电-抽凝机组耦合系统供暖方案研究 [J]. 热力发电, 2021, 50(11): 54-60+67. DOI: 10.19666/j.rlfd.202106111. ZHANG Y, WEI S Z, REN X W, et al. Heat supply schemes for a coupling system of condensing unit and wind power [J]. Thermal Power Generation, 2021, 50(11): 54-60+67. DOI: 10.19666/j.rlfd.202106111. |
| [18] | 马大卫, 王正风, 何军, 等. 安徽煤电深度调峰下机组煤耗和污染物排放特征研究 [J]. 华电技术, 2019, 41(12): 1-7+15. DOI: 10.3969/j.issn.1674-1951.2019.12.001. MA D W, WANG Z F, HE J, et al. Study on the coal consumption and pollutant discharge characteristics of coal-fired units participating in deep peak-regulating operation in Anhui Province [J]. Huadian Technology, 2019, 41(12): 1-7+15. DOI: 10.3969/j.issn.1674-1951.2019.12.001. |