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郭苏

职称: 正高级实验师 博士生导师

部门: 新能源学院

学科: 理论经济学,动力工程及工程热物理,电气工程

教学部门: 新能源学院

电话: 13913818616

邮件: guosu81@126.com

办公地址: 河海大学能源与电气学院

通讯地址: 南京市江宁区佛城西路8号

邮编: 211100

10 访问

个人简介

郭苏,博士,教授,博导,河海大学新能源学院党委副书记、副院长。长期从事太阳能光伏、光热和多能互补综合能源系统相关的预测、优化和先进控制理论应用研究。


个人资料

  • 姓名: 郭苏
  • 性别:
  • 学位: 博士
  • 出生年月: 1981-02-17 00:00:00.0
  • 学历: 博士研究生
  • 毕业院校: 河海大学

教育经历

  • 1999.09-2003.06,河海大学,学士学位
  • 2003.09-2006.06,河海大学,水利水电工程,硕士学位
  • 2008.09-2014.06,东南大学,动力工程及工程热物理,工学博士学位

工作经历

  • 2006.05-2009.10,河海大学水利水电学院
  • 2009.10-,河海大学能源与电气学院
  • 2014.06-,水利工程博士后流动站
  • 2014.07-2014.09,美国田纳西大学,访学
  • 2016.02-2017.02,美国加州大学圣地亚哥分校,访问学者
  • 2023.07-2023.08,英国帝国理工学院,访问学者

研究领域

长期从事优化理论、先进控制理论及传热学、流体力学等在太阳能发电、水力发电和综合能源系统中的应用研究,具体内容包括:

1)风光水火储多能互补系统的资源/功率预测、容量配置和运行优化;

2)综合能源系统资源/负荷预测、含复杂管网系统的配置及运行优化;

3)光伏发电系统工程评估(后)、系统状态评价与故障诊断;

4)塔式、槽式等太阳能热发电全系统建模、热工控制及故障诊断。

系统研究风、光、水、火等发电形式和抽蓄、蓄电池、储热、储氢等储能系统运行特性,及各种优化理论、先进控制理论在风光水火储多能互补系统容量配置和调度运行中的应用,构建多能源多储能系统的容量优化、协调运行方法;

系统研究大规模太阳能热发电中光--电转换机理,开发了基于分钟级机理模型的太阳能热发电性能评估软件,已经在青海共和塔式太阳能热发电站中应用;

系统研究含复杂热网的区域综合能源系统运行特性和动态特性,突破传统供热质调节方式,创新性的提出经济性更好的基于量调节的电热综合能源系统容量配置和运行优化方法,开发了区域综合能源系统规划软件,并已在推广应用;

系统研究机器学习和统计学理论在资源、出力、用能/电负荷超短期、短期、中长期预测中的应用,构建水光、风光等多资源/出力联合预测方法,开发了基于大数据和数据可视化分析的新能源专家咨询业务系统,已经推广应用。

作为负责人承担联合国全球环境基金、国家重点研发计划、国家863重点项目、国家973项目、国家自然科学基金、江苏省自然科学基金、江苏省港澳台合作项目等50余项科研项目。发表论文百余篇,论文他引总次数1000余次,其中SCI一区论文23篇。授权发明专利20余项。专著《太阳能槽式直接蒸汽发电系统建模与控制》获得“2016年度国家科学技术学术著作出版基金资助。

代表性论文:

1.Yi He, Su Guo*, Peixin Dong, Yi Zhang, Jing Huang, Jianxu Zhou. A state-of-the-art review and bibliometric analysis on the sizing optimization of off-grid hybrid renewable energy systems. Renewable and Sustainable Energy Reviews, 2023,183(9):113476. (SCI, IF: 15.9) 

2.Yi He, Jian Song, Su Guo*, Jianxu Zhou, Christos N. Markides. Profitability analysis and sizing-arbitrage optimisation of retrofitting coal-fired power plants for grid-side energy storage. Journal of Energy Storage, 2024, 84: 110873.SCI, IF: 9.4 

3.Su Guo*, Wenjia Ji, Chen Wang, Tianze Song, Jiale Wang. Hydraulic-thermal coupling dynamic models based on mechanism and data-driven methods of the heating networks in integrated energy systems. Energy Conversion and Management, 2023, 292(1):117353.  (SCI, IF: 10.4) 

4.Yi He, Su Guo*, Peixin Dong, Dongqiang Lv, Jianxu Zhou. Feasibility analysis of decarbonizing coal-fired power plants with 100% renewable energy and flexible green hydrogen production. Energy Conversion and Management, 2023, 290(1):117232. (SCI, IF:10.4) 

5.Su Guo*, Aynur Kurban, Yi He, Feng Wu, Huanjin Pei, and Guotao Song. Multi-Objective Sizing of Solar-Wind-Hydro Hybrid Power System with Doubled Energy Storages under Optimal Coordinated Operation Strategy. CSEE Journal of Power and Energy Systems, 2023, 9(6):2144-2155. (SCIIF: 7.1)

6.Chen Wang, Su Guo*, Huanjin Pei, Yi He, Deyou Liu, Mengying Li. Rolling Optimization based on holism for the operation strategy of solar tower power plant. Applied Energy, 2023, 331:120473. (SCI, IF: 11.2)

7.Yi He, S. Guo*, P. Dong, Chen Wang, Jing Huang, Jianxu Zhou. Techno-economic comparison of different hybrid energy storage systems for off-grid renewable energy applications based on a novel probabilistic reliability index. Applied Energy, 2022; 328(6): 120225. (SCI, IF: 11.2)

8.Su Guo*, Kun Zheng, Yi He, Aynur Kurban. The artificial intelligence-assisted short-term optimal scheduling of cascade hydro-photovoltaic complementary system with hybrid time steps. Renewable Energy, 2022, 202: 1169-1189. (SCIIF: 8.7)

9.Yi He, Su Guo*, Peixing Dong, et al. Hierarchical optimization of policy and design for standalone hybrid power systems considering lifecycle carbon reduction subsidy. Energy, 2022, 262: 125454. (SCI, IF: 9.0)

10.Yi He, Su Guo*, J. Zhou, et al. Province-level techno-economic feasibility analysis of baseload supply from hybrid renewable energy systems in China. Energy Conversion and Management, 2022, 268:116037. (SCI, IF:10.4)

11.Su Guo*, Guotao Song, Mengying Li, Xiaohui Zhao, Yi He, Ainur Kurban, Wenjia J, Jiale Wang. Multi-objective bi-level quantity regulation scheduling method for electric-thermal integrated energy system considering thermal and hydraulic transient characteristics. Energy Conversion and Management, 2022, 253: 115147. (SCI, IF:10.4)

12.Yi He, Su Guo*, Jianxu Zhou, Guotao Song, Aynur Kurban, Haowei Wang. The multi-stage framework for optimal sizing and operation of hybrid electrical-thermal energy storage system. Energy, 2022, 245: 123248. (SCI, IF: 9.0)

13.Yi He, Su Guo*, Jianxu Zhou, Jilei Ye, Jing Huang, Kun Zheng, Xinru Du. Multi-objective planning-operation co-optimization of renewable energy system with hybrid energy storages. Renewable Energy, 2022, 184: 776-790. (SCI, IF: 8.7)

14.Yi He, Su Guo*, Jianxu Zhou, Feng Wu, Jing Huang, Huanjin Pei. The many-objective optimal design of renewable energy cogeneration system. Energy, 2021, 234: 121244. (SCI, IF: 9.0)

15.Yi He, Su Guo*, Jianxu Zhou, Feng Wu, Jing Huang, Huanjin Pei. The quantitative techno-economic comparisons and multi-objective capacity optimization of wind-photovoltaic hybrid power system considering different energy storage technologies. Energy Conversion and Management, 2021, 229: 113779.  (SCI, IF:10.4)

16.Rong Li, Su Guo*, Yong Yang, Deyou Liu. Optimal sizing of wind/ concentrated solar plant/ electric heater hybrid renewable energy system based on two-stage stochastic programming. Energy, 2020, 209: 118472. (SCI, IF: 9.0)

17.Su Guo*, Yi He, Huanjin Pei, Shuyan Wu. The multi-objective capacity optimization of wind-photovoltaic-thermal energy storage hybrid power system with electric heater. Solar Energy, 2020(195):138-149. (SCI, IF: 6.7)

18.Yong Yang, Su Guo*, Deyou Liu, Rong Li, Yinghao Chu. Operation Optimization Strategy for Wind-Concentrated Solar Power Hybrid Power Generation System. Energy Conversion and Management,2018,160: 243–250. (SCI, IF:10.4) 

19.Su Guo, Deyou Liu*, Xingying Chen, Yinghao Chu, Chang Xu, Qunming Liu, Ling Zhou. Model and Control Scheme for Recirculation Mode Direct Steam Generation Parabolic Trough Solar Power Plants. Applied Energy, 2017, 202: 700-714. (SCI, IF: 11.2)

20.Su Guo, Deyou Liu*, Yinghao Chu, Xingying Chen, Chang Xu, Qunming Liu, Tiezheng Guo. Dynamic behavior and transfer function of collector field in once-through DSG solar trough power plants. Energy, 2017, 121:513-23. (SCI, IF: 9.0)

21.Su Guo*, Deyou Liu, Yinghao Chu, Xingying Chen, Bingbing Shen, Chang Xu, Ling Zhou, Pei Wang. Real-time dynamic analysis for complete loop of direct steam generation solar trough collector. Energy Conversion and Management, 2016, 126: 573-580. (SCI, IF:10.4)


22.郭苏,何意,蒋川,黄晶,裴焕金,王豪威.风电-光伏-储热联合发电系统的多目标容量优化. 太阳能学报, 2020, 41(11): 359-368.

23.郭苏,何意,阿依努尔·库尔班,宋国涛,王豪威,裴焕金. 基于多储能技术经济性比较的可再生能源发电系统多目标容量优化.太阳能学报,2022,43(10): 424-431.

24.郭苏*,刘德有,张耀明等.循环模式DSG槽式太阳能集热器出口蒸汽温度控制策略研究.中国电机工程学报201232(20)62-68

25.郭苏*,刘德有,张耀明等.DSG槽式太阳能集热器非线性分布参数模型及动态特性研究.中国电机工程学报201434(11)1779-1786

26.郭苏*,刘德有.考虑接收塔阴影的定日镜有效利用率计算.太阳能学报.2007,1811:1182-1187.







科研项目

  • 1、槽式真空吸热管的传热特性及强化换热特性,2010.01.01-2014.10.13,西安交通大学,计算机与信息学院
  • 2、基于新能源电站的多类型储能运行模型算法分析服务,2023.12.07-,2023-12-07,郭苏,横向,新能源学院
  • 3、中国能建江苏院近海漂浮式光伏电场方案设计研究科技项目,2023.12.08-,2023-12-08,郭苏,横向,新能源学院
  • 4、中国和墨西哥绿色小水电规划、建设与运行管理技术联合研究,2020.07.01-,2020-07-01,郭苏,纵向,能源与电气学院党委、能源与电气学院,520017512
  • 5、GEF Upgrading of China SHP Capacity(绿色小水电和安全生产标准培训项目),2020.08.01-,2020-08-01,郭苏,横向,能源与电气学院党委、能源与电气学院,820045016
  • 6、大型光热储能电站多能互补应用研究-多能互补容量配比及一体化调控策略研究和软件开发,2023.07.11-,2023-07-11,郭苏,横向,能源与电气学院党委、能源与电气学院,823103316
  • 7、基于云边端协同的配电网多台区分布式资源动态聚合自律和调控关键技术研究及应用,2022.03.28-,2022-03-28,谢俊,横向,能源与电气学院党委、能源与电气学院,822048716
  • 8、计及分布式灵活调节资源的电力紧平衡状态实时预警及协同处置策略研究,2021.12.08-,2021-12-08,谢俊,横向,能源与电气学院党委、能源与电气学院,821149216
  • 9、太阳能光伏-光热联合发电系统构建及仿真研究,2018.07.01-,2018-07-01,郭苏,校级,能源与电气学院党委、能源与电气学院,2018B45414
  • 10、基于人工智能的分布式组件(组串)在线故障诊断技术服务,2022.12.20-,2022-12-20,郭苏,横向,能源与电气学院党委、能源与电气学院,823000516
  • 11、区域多能流系统深度耦合动态建模及特性研究,2020.12.01-,2020-12-01,郭苏,校级,能源与电气学院党委、能源与电气学院,B210202069
  • 12、光伏电站全生命周期经济性评估模型开发项目,2022.08.16-,2022-08-16,郭苏,横向,能源与电气学院党委、能源与电气学院,822099616
  • 13、澜沧江西藏段千万千瓦清洁能源基地建设水风光互补关键技术研究(一期)(仿真调度模型建模等),2021.07.27-,2021-07-27,吴峰,横向,能源与电气学院党委、能源与电气学院,821122916
  • 14、综合能源可靠性评估的研究,2020.06.29-,2020-06-29,赵翠华,校级,能源与电气学院党委、能源与电气学院,B200205018
  • 15、基于大数据和数据可视化分析的新能源专家咨询业务系统,2021.10.10-,2021-10-10,郭苏,横向,能源与电气学院党委、能源与电气学院,821111916
  • 16、塔式光热电站性能评估模型软件,2019.05.27-,2019-05-27,郭苏,横向,能源与电气学院党委、能源与电气学院,819080616
  • 17、区域电热综合能源系统动态建模和优化调度研究,2020.08.15-,2020-08-15,郭苏,横向,能源与电气学院党委、能源与电气学院,820057016
  • 18、多能互补系统中光热电站的优化调度研究,2020.03.31-,2020-03-31,郭苏,校级,能源与电气学院党委、能源与电气学院,B200202174
  • 19、智能综合能源系统供热管网布局优化设计方法,2020.11.12-,2020-11-12,郭苏,横向,能源与电气学院党委、能源与电气学院,920101616
  • 20、一种DSG槽式光热电站集热场工质参数预测方法,2020.11.12-,2020-11-12,郭苏,横向,能源与电气学院党委、能源与电气学院,920101716
  • 21、跨洲联网条件下北非地区太阳能资源规模化开发与利用模式研究,2018.01.01-,2018-01-01,王沛,纵向,能源与电气学院党委、能源与电气学院,518005012
  • 22、三峡巴基斯坦光伏一期风光互补容量评估,2018.09.18-,2018-09-18,郭苏,横向,能源与电气学院党委、能源与电气学院,819087416
  • 23、基于海西多能互补集成优化示范工程的风光热储互补协调控制关键技术项目,2019.06.21-,2019-06-21,郭苏,横向,能源与电气学院党委、能源与电气学院,819087316
  • 24、典型工业园区供热系统规划方法研究,2018.12.11-,2018-12-11,郭苏,横向,能源与电气学院党委、能源与电气学院,819033216
  • 25、太阳能辐照资源与光热电站发电功率的耦合预测及运行优化研究,2018.09.20-,2018-09-20,郭苏,纵向,能源与电气学院党委、能源与电气学院,518043111
  • 26、湖北黄龙滩水电站1号厂房水力-机械过渡过程计算,2018.07.17-,2018-07-17,郭苏,横向,能源与电气学院党委、能源与电气学院,818078816
  • 27、舟山市大陆引水三期工程-宁波陆上段泵站及输水系统水力过渡过程计算分析专题,2017.10.10-,2017-10-10,郭苏,横向,能源与电气学院党委、能源与电气学院,818052516
  • 28、援布隆迪胡济巴济水电站水力-机械过渡过程计算研究,2017.09.11-,2017-09-11,郭苏,横向,能源与电气学院党委、能源与电气学院,817089316
  • 29、二期供水系统运行调节安全复核及计算研究,2017.07.23-,2017-07-23,郭苏,横向,能源与电气学院党委、能源与电气学院,817075516
  • 30、市场竞争机制下城区用户与电网供需互动机理及模型研究,2016.07.07-,2016-07-07,陈星莺,纵向,能源与电气学院党委、能源与电气学院,517013612
  • 31、光热发电系统的优化设计和动态仿真研究,2016.09.06-,2016-09-06,郭苏,横向,能源与电气学院党委、能源与电气学院,816079616
  • 32、槽式光热电站控制技术,2015.10.28-,2015-10-28,许昌,横向,能源与电气学院党委、能源与电气学院,816019816
  • 33、光热发电机理模型研究,2015.12.16-,2015-12-16,许昌,横向,能源与电气学院党委、能源与电气学院,816019716
  • 34、江苏省配用电与能效工程技术中心科研基地培育专项,2015.12.07-,2015-12-07,李志华,校级,能源与电气学院党委、能源与电气学院,2015B26014
  • 35、风电-光热联合发电系统的运行特性和控制策略研究,2015.10.08-,2015-10-08,郭苏,纵向,能源与电气学院党委、能源与电气学院,515032211
  • 36、槽式光热电站控制技术研究,2015.05.27-,2015-05-27,许昌,横向,能源与电气学院党委、能源与电气学院,815056116
  • 37、褐煤微波干燥腔体流场数值模拟,2014.12.04-,2014-12-04,许昌,横向,能源与电气学院党委、能源与电气学院,817039916
  • 38、槽式真空吸热管的传热特性及强化换热特性,2010.01.01-,2010-01-01,刘德有,纵向,水利水电学院党委、水利水电学院,51046211
  • 39、龙洞水电站引水发电系统水力过渡过程数值计算,2014.02.09-,2014-02-09,郭苏,横向,能源与电气学院党委、能源与电气学院,81424716
  • 40、抽水蓄能与风能联合优化研究,2012.02.04-,2012-02-04,郭苏,横向,能源与电气学院党委、能源与电气学院,81216716

论文

  • 1、循环模式DSG槽式太阳能集热器出口蒸汽温度控制策略研究,中国电机工程学报,01-JAN-12
  • 2、基于DSP的定日镜跟踪控制系统研究,太阳能学报,01-JAN-10
  • 3、塔式太阳能热发电站中的定日镜跟踪装置研制,中国电机工程学报,01-JAN-08
  • 4、Preliminary determination of heliostat field range and research of receiver depression angle in solar power tower,2009 Asia-Pacific Power and Energy Engineering Conference proceedings,01-JAN-09
  • 5、Development of knowledge base of fault diagnosis system in solar power tower plants,1st International Conference on Sustainable Power Generation and Supply, SUPERGEN '09,01-JAN-09
  • 6、Calculation of the shadow and block efficiency of the heliostats considering tower shadows in tower SPPs,太阳能学报,01-JAN-07
  • 7、塔式太阳能热发电的定日镜,太阳能,01-JAN-06
  • 8、塔式太阳能热发电厂的定日镜有效利用率计算,能源技术,01-JAN-05
  • 9、DSG槽式太阳能集热器非线性分布参数模型及动态特性,中国电机工程学报,15-APR-14
  • 10、DSG槽式太阳能集热器传热与水动力耦合稳态模型,动力工程学报,15-JUL-14
  • 11、DSG槽式太阳能热发电系统建模与控制研究进展,太阳能,19-NOV-14
  • 12、槽式太阳能热发电系统综述,华电技术,01-DEC-14
  • 13、塔式太阳能热发电用空气吸热器研究综述,华电技术,01-SEP-15
  • 14、太阳能热发电储热系统综述,太阳能,18-DEC-15
  • 15、Real-time dynamic analysis for complete loop of direct steam generation solar trough collector,Energy Conversion and Management,15-OCT-16
  • 16、Dynamic behavior and transfer function of collector field in once-through DSG solar trough power plants,Energy,15-FEB-17
  • 17、风力机原理课程建设探索与实践,风能,01-MAY-17
  • 18、新能源科学与工程专业实验课程教学改革研究,风能,01-NOV-17
  • 19、Operation Optimization Strategy for Wind-Concentrated Solar Power Hybrid Power Generation System,Energy Conversion and Management,15-MAR-18
  • 20、Model and control scheme for recirculation mode direct steam generation parabolic trough solar power plants,APPLIED ENERGY,01-JAN-17
  • 21、The Dynamic Behavior of Once-Through Direct Steam Generation Parabolic Trough Solar Collector Row Under Moving Shadow Conditions,JOURNAL OF SOLAR ENERGY ENGINEERING-TRANSACTIONS OF THE ASME,01-JAN-17
  • 22、Dynamic Behavior of Entrapped Air Pocket in a Water Filling Pipeline,JOURNAL OF HYDRAULIC ENGINEERING,01-JAN-18
  • 23、Godunov-Type Solutions with Discrete Gas Cavity Model for Transient Cavitating Pipe Flow,JOURNAL OF HYDRAULIC ENGINEERING,01-JAN-18
  • 24、Day-ahead Scheduling for a New Wind-CSP Hybrid System,Energy Procedia,01-FEB-19
  • 25、An explicit track continuity algorithm for the GM-PHD filter,the 31st Chinese Control and Decision Conference,2019-09-16,能源与电气学院
  • 26、The multi-objective capacity optimization of wind-photovoltaic-thermal energy storage hybrid power system with electric heater,Solar Energy,26-NOV-19
  • 27、An explicit track continuity algorithm for the GM-PHD filter,Proceedings of the 31st Chinese Control and Decision Conference, CCDC 2019,01-JAN-19
  • 28、Capacity optimization of concentrated solar power-photovoltaicwind power combined generation system,E3S Web of Conferences,16-AUG-19
  • 29、Modeling of Solar Field in Direct Steam Generation Parabolic Trough Based on Heat Transfer Mechanism and Artificial Neural Network,IEEE Access,20-APR-20
  • 30、Optimal sizing of wind/ concentrated solar plant/ electric heater hybrid renewable energy system based on two-stage stochastic programming,Energy,01-JUL-20
  • 31、基于太阳辐照预测的创新实验教学与探索,科教文汇,30-SEP-20
  • 32、风电-光伏-储热联合发电系统的多目标容量优化,太阳能学报,28-NOV-20
  • 33、Modeling of Solar Field in Direct Steam Generation Parabolic Trough Based on Heat Transfer Mechanism and Artificial Neural Network,IEEE ACCESS,20-APR-20
  • 34、The multi-objective capacity optimization of wind-photovoltaic-thermal energy storage hybrid power system with electric heater,SOLAR ENERGY,01-JAN-20
  • 35、The quantitative techno-economic comparisons and multi-objective capacity optimization of wind-photovoltaic hybrid power system considering different energy storage technologies,Energy Conversion and Management,07-JAN-21
  • 36、Day-ahead scheduling for a new wind-CSP hybrid system,Energy Procedia,01-JAN-19
  • 37、A new coupled intelligent model of working fluid parameters in collector field of DSG parabolic trough,Renewable Power Generation Conference, RPG 2019,25-OCT-19
  • 38、Overview of Regional Integrated Energy System Operation Optimization Based on Comprehensive Demand Side Respons,IOP Conference Series: Earth and Environmental Science (EES),12-APR-20
  • 39、风电-CSP联合发电系统优化运行研究,中国电机工程学报,31-AUG-18
  • 40、A review of energy storage and its utilization in Integrated Energy Systems,IOP Conf. Series: Earth and Environmental Science,12-APR-20
  • 41、Optimized prediction of solar irradiation based on MPC and ELM neural network,IOP Conf. Series: Earth and Environmental Science,12-APR-20
  • 42、海上风电场功率提升和疲劳平衡综合优化控制,太阳能学报,28-JAN-21
  • 43、Rose pattern for heliostat field optimization with a dynamic speciation-based mutation differential evolution,International Journal of Energy Research,22-OCT-19
  • 44、循环模式DSG槽式太阳能集热器出口蒸汽温度控制策略研究,中国电机工程学报,2012-01-01
  • 45、基于DSP的定日镜跟踪控制系统研究,太阳能学报,2010-01-01
  • 46、塔式太阳能热发电站中的定日镜跟踪装置研制,中国电机工程学报,2008-01-01
  • 47、Preliminary determination of heliostat field range and research of receiver depression angle in solar power tower,2009 Asia-Pacific Power and Energy Engineering Conference proceedings,2009-01-01
  • 48、Development of knowledge base of fault diagnosis system in solar power tower plants,1st International Conference on Sustainable Power Generation and Supply, SUPERGEN '09,2009-01-01
  • 49、Calculation of the shadow and block efficiency of the heliostats considering tower shadows in tower SPPs,太阳能学报,2007-01-01
  • 50、塔式太阳能热发电的定日镜,太阳能,2006-01-01
  • 51、塔式太阳能热发电厂的定日镜有效利用率计算,能源技术,2005-01-01
  • 52、DSG槽式太阳能集热器非线性分布参数模型及动态特性,中国电机工程学报,2014-04-15
  • 53、Real-time dynamic analysis for complete loop of direct steam generation solar trough collector,Energy Conversion and Management,2016-10-15
  • 54、Dynamic behavior and transfer function of collector field in once-through DSG solar trough power plants,Energy,2017-02-15
  • 55、Operation Optimization Strategy for Wind-Concentrated Solar Power Hybrid Power Generation System,Energy Conversion and Management,2018-03-15
  • 56、Model and control scheme for recirculation mode direct steam generation parabolic trough solar power plants,APPLIED ENERGY,2017-01-01
  • 57、The Dynamic Behavior of Once-Through Direct Steam Generation Parabolic Trough Solar Collector Row Under Moving Shadow Conditions,JOURNAL OF SOLAR ENERGY ENGINEERING-TRANSACTIONS OF THE ASME,2017-01-01
  • 58、Dynamic Behavior of Entrapped Air Pocket in a Water Filling Pipeline,JOURNAL OF HYDRAULIC ENGINEERING,2018-01-01
  • 59、Godunov-Type Solutions with Discrete Gas Cavity Model for Transient Cavitating Pipe Flow,JOURNAL OF HYDRAULIC ENGINEERING,2018-01-01
  • 60、An explicit track continuity algorithm for the GM-PHD filter,Proceedings of the 31st Chinese Control and Decision Conference, CCDC 2019,2019-01-01
  • 61、Optimal sizing of wind/ concentrated solar plant/ electric heater hybrid renewable energy system based on two-stage stochastic programming,Energy,2020-07-01
  • 62、The multi-objective capacity optimization of wind-photovoltaic-thermal energy storage hybrid power system with electric heater,SOLAR ENERGY,2020-01-01
  • 63、The quantitative techno-economic comparisons and multi-objective capacity optimization of wind-photovoltaic hybrid power system considering different energy storage technologies,Energy Conversion and Management,2021-01-07
  • 64、A new coupled intelligent model of working fluid parameters in collector field of DSG parabolic trough,Renewable Power Generation Conference, RPG 2019,2019-10-25
  • 65、风电-CSP联合发电系统优化运行研究,中国电机工程学报,2018-08-31
  • 66、A review of energy storage and its utilization in Integrated Energy Systems,IOP Conf. Series: Earth and Environmental Science,2020-04-12
  • 67、Optimized prediction of solar irradiation based on MPC and ELM neural network,IOP Conf. Series: Earth and Environmental Science,2020-04-12
  • 68、Day-ahead scheduling for a new wind-CSP hybrid system,Energy Procedia,2019-01-01
  • 69、海上风电场功率提升和疲劳平衡综合优化控制,太阳能学报,2021-01-28
  • 70、Rose pattern for heliostat field optimization with a dynamic speciation-based mutation differential evolution,International Journal of Energy Research,2019-10-22
  • 71、The many-objective optimal design of renewable energy cogeneration system,ENERGY,2021-11-01
  • 72、The quantitative techno-economic comparisons and multi-objective capacity optimization of wind-photovoltaic hybrid power system considering different energy storage technologies,ENERGY CONVERSION AND MANAGEMENT,2021-02-01
  • 73、A Labeled GM-PHD Filter for Explicitly Tracking Multiple Targets,SENSORS,2021-06-01
  • 74、Comprehensive optimization control of power boost and fatigue balance for offshore wind farms,Taiyangneng Xuebao/Acta Energiae Solaris Sinica,2021-01-01
  • 75、Bi-level programming method for integrated energy system considering thermal dynamic operation characteristics of pipelines and efficiency characteristics of devices,Proceedings of 2021 IEEE 4th International Electrical and Energy Conference, CIEEC 2021,2021-05-01
  • 76、A labeled gmphd filter for explicitly tracking multiple targets?,Sensors,2021-06-01
  • 77、海上风电场功率提升和疲劳平衡综合优化控制,太阳能学报,2021-01-01
  • 78、风电-光伏-抽水蓄能-蓄电池联合发电系统容量及运行协同优化,西北水电,2021-01-01
  • 79、Multi-objective planning-operation co-optimization of renewable energy system with hybrid energy storages,renewable energy,2022-01-01
  • 80、The multi-stage framework for optimal sizing and operation of hybrid electrical-thermal energy storage system,ENERGY,2022-01-20
  • 81、Multi-objective bi-level quantity regulation scheduling method for electric-thermal integrated energy system considering thermal and hydraulic transient characteristics,Energy Conversion and Management,2021-12-22
  • 82、新能源专业“太阳能利用技术”课程建设研究与探讨,课程教育研究,2021-01-01
  • 83、Multi-objective planning-operation co-optimization of renewable energy system with hybrid energy storages,RENEWABLE ENERGY,2022-05-03
  • 84、Province-level techno-economic feasibility analysis of baseload supply from hybrid renewable energy systems in China,energy conversion and management,2022-07-31
  • 85、Multi-objective planning-operation co-optimization of renewable energy system with hybrid energy storages,RENEWABLE ENERGY,2022-01-01
  • 86、The multi-stage framework for optimal sizing and operation of hybrid electrical-thermal energy storage system,ENERGY,2022-04-15
  • 87、Hierarchical optimization of policy and design for standalone hybrid power systems considering lifecycle carbon reduction subsidy,ENERGY,2022-01-01
  • 88、基于多储能技术经济性比较的可再生能源发电系统多目标容量优化,太阳能学报,2021-01-01
  • 89、Rolling optimization based on holism for the operation strategy of solar tower power plant,Applied Energy,2023-02-15
  • 90、Techno-economic comparison of different hybrid energy storage systems for off-grid renewable energy applications based on a novel probabilistic reliability index,Applied Energy,2022-12-15
  • 91、The artificial intelligence-assisted short-term optimal scheduling of cascade hydro-photovoltaic complementary system with hybrid time steps,RENEWABLE ENERGY,2023-01-01
  • 92、Techno-economic comparison of different hybrid energy storage systems for off-grid renewable energy applications based on a novel probabilistic reliability index,APPLIED ENERGY,2022-12-01
  • 93、Hydraulic-thermal coupling dynamic models based on mechanism and data-driven methods of the heating networks in integrated energy systems,ENERGY CONVERSION AND MANAGEMENT,2023-09-01
  • 94、A state-of-the-art review and bibliometric analysis on the sizing optimization of off-grid hybrid renewable energy systems,RENEWABLE & SUSTAINABLE ENERGY REVIEWS,2023-09-01
  • 95、Hybrid Time Step Day-Ahead Optimal Scheduling of the PV-Cascade Hydro Complementary Power Plant Based on PV Output Forecast,Lecture Notes in Electrical Engineering,2023-01-01
  • 96、Techno-economic comparison of different hybrid energy storage systems for off-grid renewable energy applications based on a novel probabilistic reliability index,APPLIED ENERGY,2022-12-01
  • 97、Feasibility analysis of decarbonizing coal-fired power plants with 100% renewable energy and flexible green hydrogen production,ENERGY CONVERSION AND MANAGEMENT,2023-06-01
  • 98、The artificial intelligence-assisted short-term optimal scheduling of a cascade hydro-photovoltaic complementary system with hybrid time steps,RENEWABLE ENERGY,2023-01-01

科技成果

  • 1、DSG太阳能槽式集热器管路沿线及出口参数的获取方法,2016-05-04,能源与电气学院,发明专利,3
  • 2、塔式太阳能热发电吸热器过热器运行故障诊断分析方法(发明),2016-01-20,能源与电气学院,发明专利,3
  • 3、利用非线性分布参数模型仿真DSG槽式集热器的方法,2016-03-23,能源与电气学院,发明专利,3
  • 4、一种DSG槽式太阳能集热器出口蒸汽温度控制方法,2013-01-02,能源与电气学院,发明专利,3
  • 5、一种金属泡沫强化传热的槽式太阳能集热管,2012-12-19,水利水电学院,发明专利,3
  • 6、一种定日镜跟踪控制装置及其控制方法,2010-04-21,能源与电气学院,发明专利,3
  • 7、定日镜跟踪控制装置,2009-04-15,能源与电气学院,实用新型,3
  • 8、太阳能多孔介质空气加热器及检测系统,2011-06-15,能源与电气学院,实用新型,3
  • 9、太阳能空气吸热器测控系统及性能、温度预测及保护方法,2012-09-26,能源与电气学院,发明专利,3
  • 10、太阳能空气吸热器测控系统,2011-07-13,能源与电气学院,实用新型,3
  • 11、基于CFD和改进PSO的复杂地形风电场微观选址方法,2017-04-12,能源与电气学院,发明专利,3
  • 12、DSG太阳能槽式集热器管路沿线及出口参数的获取方法,2016/05/04,能源与电气学院,发明专利,3
  • 13、塔式太阳能热发电吸热器过热器运行故障诊断分析方法(发明),2016/01/20,能源与电气学院,发明专利,3
  • 14、一种DSG槽式太阳能集热器出口蒸汽温度控制方法,2013/01/02,能源与电气学院,发明专利,3
  • 15、一种金属泡沫强化传热的槽式太阳能集热管,2012/12/19,水利水电学院,发明专利,3
  • 16、利用非线性分布参数模型仿真DSG槽式集热器的方法,2016/03/23,能源与电气学院,发明专利,3
  • 17、一种定日镜跟踪控制装置及其控制方法,2010/04/21,能源与电气学院,发明专利,3
  • 18、定日镜跟踪控制装置,2009/04/15,能源与电气学院,实用新型,3
  • 19、太阳能多孔介质空气加热器及检测系统,2011/06/15,能源与电气学院,实用新型,3
  • 20、太阳能空气吸热器测控系统及性能、温度预测及保护方法,2012/09/26,能源与电气学院,发明专利,3
  • 21、太阳能空气吸热器测控系统,2011/07/13,能源与电气学院,实用新型,3
  • 22、基于CFD和改进PSO的复杂地形风电场微观选址方法,2017/04/12,能源与电气学院,发明专利,3
  • 23、太阳能空气吸热器测控系统及性能、温度预测及保护方法, 2012-09-26,能源与电气学院, 发明专利,3
  • 24、一种DSG槽式光热电站集热场工质参数预测方法,2019-07-12,能源与电气学院,发明专利,3

开授课程

  • 1、太阳能利用技术,本科生,58,30
  • 2、生产实习,本科生,62,42
  • 3、能源综合利用,研究生,0,18
  • 4、光伏电站规划与设计,本科生,66,66

教学成果

河海大学教学成果奖一等奖

河海大学讲课竞赛二等奖

河海大学优秀班导师

河海大学毕业设计优秀指导教师




教学资源

社会职务

国际小水电联合会多能互补专委会专家

中国可再生能源学会光热分委会委员

Sustainability 编委

江苏省可再生能源学会理事



荣誉及奖励

招生信息

热忱欢迎可再生能源(太阳能、多能互补方向)、动力工程及工程热物理(热控方向)、电力系统(综合能源方向)、统计学(预测方向)、计算机科学(人工智能方向)、控制工程等研究领域和方向的青年人才加入河海大学新能源学院郭苏教授课题组

热忱欢迎新能源、动力工程及工程热物理、电力系统等专业硕士报考郭苏教授课题组!(每年招收学术博士1-2人)

热忱欢迎新能源、能源与动力工程、流体机械及工程、电气工程及其自动化等专业本科生报考郭苏教授课题组!(每年招收可再生能源发电、流体机械专业2人,清洁能源技术、动力工程专业硕3人)


毕业生去向统计

序号

姓名

/博入学年份

就业单位/意向单位

毕业论文题目

1

杨勇

2014级博士

与刘德有教授合带

南京工程学院

能源与动力工程学院

光热-风电混合发电系统容量优化研究

2

李荣

2015级博士

与刘德有教授合带

南京工程学院

能源与动力工程学院

风光氢混合能源系统设计与运行优化研究

3

邓智文

2017

(硕博连读)

与许昌教授合带

东莞理工学院

电信工程与智能化学院

风电场有功功率协调优化控制策略研究

4

丁强

2017级硕士

泰州医药高新区(高港区)

市场监管局

工业园区综合能源系统容量配置及运行优化研究

5

伍书彦

2018级硕士

明阳智慧能源集团股份公司

城市轨道车辆基地冷热电负荷预测研究

6

裴焕金

2018级硕士

江西电建碳中和研究院有限公司

基于滚动优化的塔式光热系统运行参数优化

7

何意

2018

(硕博连读)

河海大学新能源学院

可再生能源多能互补发电系统容量配置优化研究

8

阿依努尔

2019级硕士

新疆农业大学机电工程学院

考虑多储能协同的风电-光伏联合发电系统

容量优化研究

9

宋国涛

2019级硕士

中兴通讯股份有限公司

基于动态建模的区域电热综合能源系统

优化调度研究

10

王豪威

2019级硕士

运达能源科技集团股份有限公司

基于模型预测控制的光热电站

自动发电控制策略研究

11

杜心茹

2020级硕士

西北勘测设计研究院

塔式光热电站换热系统动态特性分析

12

郑堃

2020级硕士

华东勘测设计研究院

基于光伏出力预测的水光互补系统短期优化调度

13

纪文佳

2021级硕士

中国能源建设集团

江苏省电力设计院

基于动态建模和能量共享的综合能源系统

优化调度研究

14

王嘉乐

2021级硕士

大唐科学技术研究总院

西北电力试验研究院

基于灵活储氢和蓄电池联合储能的混合可再生能源系统

规划运行协同优化研究

15

宋天择

2021级硕士

山东电力咨询院

考虑电力再分配的多区域风光多能互补系统

容量和调度优化研究