丁兴起
详细资料
姓名:丁兴起
岗位:特任教授(“长大学者”岗位人才)
研究方向:储能技术,新能源发电
研究领域:
(1) 液化空气储能、液化CO2储能、压缩空气储能;
(2) 综合能源系统集成及优化;
(3) 太阳能热利用。
联系方式:[email protected]
教育及工作经历:
2016.09-2020.06,华北电力大学 能源动力与机械工程黄色a片 能源与动力工程 工学学士;
2020.09-2022.07,华北电力大学 能源动力与机械工程黄色a片 动力工程及工程热物理 硕士(硕博连读);
2022.09-2025.06,华北电力大学 能源动力与机械工程黄色a片 能源动力 专业博士;
2023.08-2024.08,University of Pisa(意大利) 工程黄色a片 工程热物理 联合培养博士;
2025.06-至今,黄色a片-成人影片weav
,特任教授。
个人简介:
丁兴起,男,1998年出生,山东潍坊人。研究方向主要包括先进储能技术(液化空气储能、液化CO2储能、压缩空气储能等)、综合能源系统集成及优化、太阳能热利用等。参与国家级项目3项,发表高水平SCI论文20余篇,其中以第一作者身份发表SCI论文9篇(包含8篇中科院TOP期刊),申请多项发明专利。担任《Applied Energy》、《Energy》、《Renewable Energy》、《Fuel》、《Energy Conversion and Management: X》、《Journal of Energy Storage》、《Energy Reports》、《Scientific Reports》等多个学术期刊审稿人。
代表性论文:
[1] Ding X, Zhou Y, Zheng N, Desideri U, Duan L. Emergy analysis and comprehensive sustainability investigation of a solar-aided liquid air energy storage system based on life cycle assessment. Applied Energy 2024;365:123249. (中科院1区TOP, IF=11)
[2] Ding X, Duan L, Li D, Ji S, Yang L, Zheng N, et al. Dynamic characteristics of a novel liquid air energy storage system coupled with solar heat and waste heat recovery. Renewable Energy 2024;221:119780. (中科院1区TOP, IF=9.1)
[3] Ding X, Duan L, Zheng N, Desideri U, Zhou Y, Wang Q, et al. A systematic review on liquid air energy storage system. Renewable and Sustainable Energy Reviews 2025;210:115164. (中科院1区TOP, IF=16.3)
[4] Ding X, Duan L, Zhou Y, Gao C, Bao Y. Energy, exergy, and economic analyses of a new liquid air energy storage system coupled with solar heat and organic Rankine cycle. Energy Conversion and Management 2022;266:115828. (中科院1区TOP, IF=10.9)
[5] Ding X, Zhou Y, Duan L, Li D, Zheng N. Comprehensive performance investigation of a novel solar-assisted liquid air energy storage system with different operating modes in different seasons. Energy 2023;284:129306. (中科院1区TOP, IF=9.4)
[6] Ding X, Zhou Y, Zheng N, Wang Y, Yang M, Duan L. Energy, exergy, and economic analyses of a novel liquid air energy storage system with cooling, heating, power, hot water, and hydrogen cogeneration. Energy Conversion and Management 2024;305:118262. (中科院1区TOP, IF=10.9)
[7] Ding X, Duan L, Zhou Y, Yang L, Li M, Tian F, et al. Thermodynamic analysis and economic assessment of a novel multi-generation liquid air energy storage system coupled with thermochemical energy storage and gas turbine combined cycle. Journal of Energy Storage 2023;60:106614. (中科院2区, IF=9.8)
[8] Ding X, Yang L, Zheng N, Duan L, Zhou Y. Dynamic response characteristics and economic analyses of two solar-assisted multi-generation systems. Applied Thermal Engineering 2024;241:122339. (中科院2区TOP, IF=6.9)
[9] Ding X, Duan L, Zhou Y, Zheng N, Wang Q, Wang Y. Dynamic modelling and response characteristics of a solar-assisted liquid air energy storage system with poly-generation. Applied Thermal Engineering 2025;278:127196. (中科院2区TOP, IF=6.9)
[10] Zheng N, Ding X, Zhou Y, Zhang H, Duan L, Zhang M. Dynamic modeling and response characteristics of a solar-driven polygeneration system coupled with hydrogen and thermal energy storage. Energy Conversion and Management 2023;293:117496. (中科院1区TOP, IF=10.9)
[11] Li D, Duan L, Ding X. New regulation strategies study of solar aided liquid air energy storage system under off-design conditions. Energy Conversion and Management 2022;270:116287. (中科院1区TOP, IF=10.9)
[12] Zheng N, Wang Q, Ding X, Zhang H, Duan L, Wang X, et al. Techno-economic analysis of a novel solar-based polygeneration system integrated with vanadium redox flow battery and thermal energy storage considering robust source-load response. Applied Energy 2024;376:124288. (中科院1区TOP, IF=11)
[13] Zheng N, Wang Q, Ding X, Wang X, Zhang H, Duan L, et al. Proactive energy storage operation strategy and optimization of a solar polystorage and polygeneration system based on day-ahead load forecasting. Applied Energy 2025;381:125088. (中科院1区TOP, IF=11)
[14] Zhou Y, Duan L, Ding X, Li M, Gao C. Performance study on a new solar aided liquid air energy storage system integrated with organic Rankine cycle and thermoelectric generator. Journal of Energy Storage 2023;59:106566. (中科院2区, IF=9.8)
[15] Zhou Y, Duan L, Ding X, Bao Y, Tian F. Economic feasibility assessment of a solar aided liquid air energy storage system with different operation strategies. Journal of Energy Storage 2023;72:108812. (中科院2区, IF=9.8)
[16] Zhou Y, Duan L, Ding X, Zheng N. Dynamic performance analysis of the discharging process of a solar aided liquid air energy storage system. Journal of Energy Storage 2023;73:108891. (中科院2区, IF=9.8)
[17] Zhou Y, Zhang H, Ji S, Sun M, Ding X, Zheng N, et al. Whole process dynamic performance analysis of a solar-aided liquid air energy storage system: From single cycle to multi-cycle. Applied Energy 2024;373:123938. (中科院1区TOP, IF=11)
[18] Zhou Y, Zhang H, Liu S, Lu Z, Ding X, Duan L, et al. Experimental study on heat transfer characteristics between high-pressure air and molten salt used in solar-aided compressed air energy storage systems. Energy 2024;313:134127. (中科院1区TOP, IF=9.4)
[19] Yang M, Tong Y, Wang J, Duan L, Zhang H, Yang C, Wang Q, Ding X. Design optimization and techno-economic performance comparisons of different solar aided liquid air energy storage systems. Thermal Science and Engineering Progress 2025;59:103267. (中科院2区, IF=5.4)
[20] Wang Y, Duan L, Ji S, Guo J, Zhang H, Yang M, Ding X. Optimization study of a high-proportion of solar tower aided coal-fired power generation system integrated with thermal energy storage. Energy 2024;307:132724. (中科院1区TOP, IF=9.4)
[21] Wang Q, Duan L, Huang S, Li X, Liu L, Wang C, Ding X, et al. Conventional and advanced exergy analysis of a novel SOFC-MGT hybrid power system coupled with external solar methane hydrogen production process. Renewable Energy 2025;246:122881. (中科院1区TOP, IF=9.1)
[22] Zheng N, Zhang Q, Ren Y, Duan L, Wang Q, Ding X, et al. Thermodynamic analysis of a novel SOFC-based CCHP system integrated supercritical carbon dioxide and organic Rankine cycles for waste heat cascade utilization. Energy 2025;328:136547. (中科院1区TOP, IF=9.4)
科研项目:
1.国家自然科学基金面上项目,新型耦合太阳能热的液化空气储能发电系统集成开拓与设计基础研究,No.52076078,参与;
2.国家自然科学基金重大项目,多能源互补的分布式能源系统基础研究,No.52090064,参与;
3.国家自然科学基金创新研究群体项目,能量传递转化与高效动力系统,No.51821004,参与。
获奖情况:
1.北京市优秀毕业生(2025年)
2.华北电力大学优秀毕业生(2020年、2025年)
3.博士研究生国家奖学金(2024年)
4.华北电力大学优秀研究生(2021年、2022年、2023年、2024年)
5.华北电力大学优秀博士奖学金(2024年)
(2025年7月更新)
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