【1】 “十一五” 863重点项目“太阳能塔式电站总体设计技术及系统集成”，主持，国家级，2006-01--2011-08；

【2】 “塔式太阳能热发电关键技术研究”，主持，国家级，2006-06--2011-08；

【3】 973高效规模化太阳能热发电的基础研究，主持，国家级，2010-07--2014-08；

【4】 张家口市可再生能源产业发展规划，主持，省级，2014-11--2015-05；

【5】 西部清洁能源发展战略研究，参与，地市级，2016-01--2017-12；

【6】 河北省张家口市黄帝城国际养老多能互补示范项目(STS)，主持，省级，2017-06--2019-06；

【7】 第四代太阳能热发电技术吸热器，主持，省级，2018-01--2019-12；

【8】 太阳能集热储热多能互补零碳供热(先导)，主持，部委级，2018-04--2022-05；

【9】 超临界CO2太阳能热发电关键基础问题研究，主持，国家级，2019-04--2023-03；

【10】 国家自然科学基金重大项目课题“规模化热能存储与转换调控机理和方法”，课题主持，国家级，2023-01--2027-12

[1]Ziyang Liu, Zhifeng Wang, et al. Capacity optimisation and multi-dimensional analysis of air-source heat pump heating system: A case study [J]. Energy, 2024: 130784.

[2]Fen Xu, Zhifeng Wang, et al.Prediction of solar concentration flux distribution for a heliostat based on lunar concentration image and generative adversarial networks [J]. Applied Artificial Intelligence, 2024.

[3]程昊天, 王志峰等. 矩形翅片管糖醇相变储热器传热性能分析 [J]. 太阳能学报, 2024.

[4]Yue Lv, Zhifeng Wang, et al.CWO/SiO2 spectral beam splitter coating for photothermal synergetic catalysis: Design and development [J]. Materials Today Sustainability, 2023.

[5]Yupu Yu , Zhifeng Wang, et al.Performance modeling of quartz tube for gravity-driven solid particle solar receiver[J].International Journal of Heat and Mass Transfer, 2023.

[6]Feng Hu, Zhifeng Wang, et al.Modeling study and experimental investigation of SPSR and solid particles-sCO2 heat exchanger for concentrating solar power plant [J]. Energy Reports, 2023.

[7]Yupu Yu , Zhifeng Wang, et al.Development and testing of a 200kW tube bundle moving packed bed electrical heating device and test facility[J].International Communications in Heat and Mass Transfer, 2023.

[8]Yu Zhang, Zhifeng Wang, et al. Effect of compact fin structure on heat transfer performance of ice storage unit during freezing [J]. Applied Thermal Engineering, 230(2023)120775.

[9]Yan Wang , Zhifeng Wang, et al. Control strategy effect on storage performance for packed-bed thermal energy storage [J].Solar Energy, 2023.

[10]闫露, 王志峰等.基于混合神经网络的槽式太阳能集热场出口温度预测研究[J].太阳能学报,2023,44(05):265-273.

[11]黄鹏霖,王志峰等.基于光-机耦合的太阳炉聚光性能分析[J].太阳能学报,2023,44(07):264-270.

[12] Ziwei Zhao, Zhifeng Wang, et al. The characteristics of flow and wall-to-bed heat transfer for vertical dense-phase transport flow [J]. Experimental Thermal and Fluid Science, 2022.

[13] Ziwei Zhao, Zhifeng Wang, et al. Experimental study on heat transfer of dense phase flow through a horizontal tube under constant wall flux conditions [J]. International Journal of Thermal Sciences, 2022.

[14] Bei Yang, Zhifeng Wang, et al. Thermoplasmonics in Solar Energy Conversion: Materials, Nanostructured Designs, and Applications [J]. ADVANCED MATERIALS, 2022.

[15] Ming Yang, Zhifeng Wang, et al. Thermo-economic analysis of solar heating plant with the seasonal thermal storage in Northern China [J]. Solar Energy, 2022.

[16]Yu Zhang, Zhifeng Wang, et al. On-sun testing of a 1 MWth quartz tube bundle solid particle solar receiver [J]. renewable energy, 2022.

[17]Sharma S , Zhifeng Wang, et al.Thermo-mechanical analysis of a porous volumetric solar receiver subjected to concentrated solar radiation[J].Solar Energy, 2022.

[18] 王皓, 王志峰. 碟式聚光器的月光聚光比分布计算模型 [J]. 太阳能学报, 2022.

[19] 杨熠辉, 王志峰等.sCO_2太阳能热发电流化床固体颗粒/sCO_2换热器建模与仿真研究 [J]. 太阳能学报, 2022.

[20] 姚磐, 王志峰等.具有二次聚光器的新型大开口槽式太阳集热器设计与光学性能分析 [J]. 太阳能学报, 2022.

[21] 李发达, 王志峰等. 添加凹凸棒黏土对生物质固体成型燃料抗结渣性的影响 [J]. 农业工程学报, 2022.

[22] 陈海生,王志峰等. 2021年中国储能技术研究进展 [J]. 储能科学与技术, 2022.

[23] 肖立业, 王志峰等. 地下储能工程 [J]. 电工电能新技术,2022.

王志峰, 何雅玲等. 明确太阳能热发电战略定位促进技术发展 [J]. 华电技术, 2021.

[24] Fuliang Nie, Zhifeng Wang, et al. A CPFD simulation on the particle flow characteristics in a packed moving bed solar receiver with an added insert [J]. Solar Energy, 2021.

[25] Shunzhou Chu, Zhifeng Wang, et al. Description and Characterization of a 114-kWe High-Flux Solar Simulator [J] Journal of Solar Energy Engineering, 2021.

[26] Minghuan Guo, Zhifeng Wang, et al. Model for measuring concentration ratio distribution of a dish concentrator using moonlight as a precursor for solar tower flux mapping [J]. AIMS Energy, 2021

[27] 李晓霞, 王志峰等.跨季节储热供热系统中聚光吸热器的动态仿真研究 [J]. 太阳能学报, 2021.

[28] 张博, 王志峰等. 基于火花放电的抛物面槽式太阳能集热管环形空间气体压强与成分实验研究 [J]. 真空科学与技术学报, 2022.

[29] 付鹏, 王志峰等. 塔式太阳能热发电站热力性能综合评价 [J]. 太阳能学报, 2021.

[30] 丁琦, 王志峰等. 一种定日镜场有效镜面面积的评估方法 [J]. 太阳能学报, 2021.

[31] 边晖, 王志峰等. 太阳聚光下单球体温度变化特性研究 [J]. 太阳能学报, 2021.

[32] 吴卫祥, 王志峰等. 塔式太阳能定日镜抗风设计参数研究 [J]. 太阳能学报, 2021.

[33] 李兴, 王志峰等. 塔式太阳能热电联供系统性能研究 [J]. 太阳能学报, 2021.

[34] Xin Zhang, Zhifeng Wang, et al. SiNx/Cu spectral beam splitting films for hybrid photovoltaic and concentrating solar thermal systems [J]. ACS Omega, 2021.

[35] Zhiyong Wu, Zhifeng Wang, et al. Numerical investigation of single-blow transient testing technique [J]. International Communications in Heat and Mass Transfer, 2020.

[36]Zhifeng Wang, Jiani Wu, et al. Experimental study on latent thermal energy storage system with gradient porosity copper foam for mid-temperature solar energy application [J]. Applied Energy, 2020.

[37] Ziwei Zhao, Zhifeng Wang, et al. Experimental study of pin fnned receiver tubes for a parabolic trough solarair collector [J]. solar energy, 2020.

[38] Minghuan Guo, Zhifeng Wang, et al. Interpolation Vector Formulas for Reflection and Refraction of Metasurface [C]. SolarPACES, 2020.

[39] Dongqiang Lei, Zhifeng Wang, et al. Numerical study of conduction and radiation heat losses from vacuum annulus in parabolic trough receivers [J]. Frontiers in Energy, 2020.

[40] Guofeng Yuan, Zhifeng Wang, et al. Experimental and computational fluid dynamics investigations of tracking CPC solar collectors [J]. Solar Energy, 2020.

[41] Yan Wang , Zhifeng Wang, et al. The benefit of using multiple thin tanks versus a short big tank for thermal storage in ceramic-sphere packed bed with airflow [J]. Journal of Solar Energy Engineering-Transactions of the ASME, 2020.

[42]Ming Yang, Zhifeng Wang, et al. Dynamic Heat Transfer Model of Flat Plate Solar Water Collectors with Consideration of Variable Flow Rate [J]. solar energy, 2020.

[43] Qiang Yu, Zhifeng Wang, et al. Modeling and dynamic simulation of thermal energy storage system for concentrating solar power plant [J]. Energy, 2020.

[44] Qiang Yu, Zhifeng Wang, et al. Modeling and parametric study of molten salt receiver of concentrating solar power tower plant [J]. Energy, 2020.

[45]Shunzhou Chu, Zhifeng Wang, et al. Description and Characterization of a 114-kW e High-Flux Solar Simulator [J]. Journal of Solar Energy Engineering, 2020.

[46] Fuliang Nie, Zhifeng Wang, et al. Cold-state experimental study on discharge characteristics of solid particles in a gravity driven moving bed solar receiver [J]. Solar energy, 2020.

[47] Fuliang Nie, Zhifeng Wang, et al. Experimental and numerical investigation on thermal performance of a quartz tube solid particle solar receiver [J]. Solar energy, 2020.

[48] 王心愉, 王志峰等. 方位-俯仰双轴跟踪定日镜的跟踪实践 [J]. 太阳能学报, 2020.

[49] 王志峰, 廖志荣等. 新一代太阳能热发电高温集热场光热力耦合设计方法研究 [J]. 中国科学:技术科学, 2020.

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[51]王志峰. 太阳能热发电站设计[M]. 北京: 化学工业出版社，2019.

[52] 王志峰,杜凤丽.2015～2022年中国太阳能热发电发展情景分析及预测[J].太阳能,2019.

[53] Bei Yang, Zhifeng Wang, et al.Thermal stratification in a cylindrical tank due to heat losses while in standby mode[J].Solar Energy, 2019.

[54]Diao Y H , Wang Z ,et al.Numerical investigation of the thermal performance enhancement of latent heat thermal energy storage using longitudinal rectangular fins and flat micro-heat pipe arrays[J].Applied Energy, 2019.

[55]Li X , Wang Z ,et al.Modeling and dynamic simulation of a steam generation system for a parabolic trough solar power plant[J].Pergamon, 2019.

[56]Lei D ,  Wang Z ,et al.Temperature and thermal stress analysis of parabolic trough receivers[J].Renewable Energy, 2019.

[57]Li Z,Wang Z ,et al.Numerical and experimental study of solidification dangers in a molten salt receiver for cloudy conditions[J].Solar Energy, 2019.

[58]Yang B , Wang Z ,et al.Study on standby process of an air-based solid packed bed for flexible high-temperature heat storage: Experimental results and modelling[J].Applied Energy, 2019.

[59]Yang B , Wang Z ,et al.Microstructural evolution within mushy zone during paraffin's melting and solidification[J].International Journal of Heat and Mass Transfer, 2019.

[60]Zhang Q , Wang Z ,et al.Preliminary comparison of two potential test methods for molten salt receiver under uniformly and Gaussian-shape distributed incident power[J].Solar Energy, 2019.

[61]Zhang S , Wang Z , Wu Z ,et al.Numerical investigation of the heat transport in a very loose packed granular bed air [1]receiver with a non-uniform energy flux distribution[J].Renewable energy, 2019.

[62]Alketbi A S ,Wang Z ,et al.Sputtered SiC coatings for radiative cooling and light absorption[J].Journal of Photonics for Energy, 2018.

[63] 张喜良, 王志峰等. 点聚焦太阳炉设计方法与研制实践 [J]. 新能源进展, 2018.

[64] 王艳, 王志峰等. 高温显热-潜热复合储热系统传热特性研究 [J]. 储能科学与技术, 2017.

[65] 李青, 王志峰等. 碳化硅泡沫陶瓷空气吸热器的动态仿真研究 [J]. 太阳能学报, 2017.

[66] 菅泳仿, 王志峰等. 太阳能热发电站中固体储热模块的优化设计 [J]. 太阳能学报, 2017.

[67] 王志峰, 原郭丰. 分布式太阳能热发电技术与产业发展分析 [J]. 中国科学院院刊, 2016.

[68] 孙飞虎, 王志峰等. 基于跟踪轴参考位错位法的定日镜自动纠偏系统 [J]. 太阳能学报, 2016.

[69] 黄湘, 王志峰等. 聚光镜场和风环境耦合作用机理研究 [J]. 科技资讯, 2016.

[70] 王志峰. 国际太阳能热发电技术发展态势 [C]. 首届中国太阳能热发电大会论文集, 2015.

国家首批“万人计划”获得者；

国务院津贴获得者；

“十一五”国家科技计划执行-优秀团队奖；

中国科学院优秀博士生导师 两次；

重点领域创新团队.太阳能热发电创新团队.创新人才；

中法合作创新团队奖；

中国科学院首批特聘核心骨干研究员；

中国太阳能热利用杰出贡献奖；

国际储能技术与产业联盟（IENSA）2022年度人物；

中国科学院大学2022年学院级“研究生优秀课程”主讲人；

主持了国家863计划项目、973计划项目、国家重点研发计划项目，自然科学基金重大项目课题；

主持了我国第一座塔式电站，第一座太阳能超临界二氧化碳热发电站，全球第一个聚光太阳能烧制水泥和陶瓷窑炉，我国第一个太阳能跨季节储热项目；

主编太阳能热发电第一部国家标准。