孔慧 | 您所在的位置:网站首页 › 清华大学热能工程系研究生翟学飞 › 孔慧 |
代表论文: [1] Ziye Zhu, Hongfei Zheng, Hui Kong*, Longxing Ma*, Jianyin Xiong*. Passive solar desalination towards high efficiency and salt rejection via a reverse-evaporating water layer of millimetre-scale thickness. Nature Water 2023, 1, 790–799. (通讯作者) [2] Jiahang Huang (本科), Hongfei Zheng, Hui Kong*. Key pathways for efficient solar thermal desalination. Energy Conversion and Management 2023. (通讯作者) [3] Hui Kong, Yueqiao Sun, Zheng Li, Hongfei Zheng, Jian Wang, Hongsheng Wang. The development path of direct coal liquefaction system under carbon neutrality target: Coupling green hydrogen or CCUS technology, Applied Energy 2023, 347, 121451. [4] Xi Yuan (本科), Hongfei Zheng, Ge Wang, Yunsheng Zhao, Hui Kong*. Performance of a siphon-like water supplying solar distiller with helium gas enhancing the reverse film evaporation process. Desalination 2023, 564: 116711. (通讯作者) [5] Yueqiao Sun (研一), Zheng Li, Qiang Wang, Jianyun Zhang, Hui Kong*. Low carbon pathway and life cycle assessment of ammonia co-firing in coal power plants under the context of carbon neutrality. Energy Conversion and Management 2023, 296, 117648. (通讯作者) [6] Jing Chen, Hui Kong*, Hongsheng Wang. A novel high-efficiency solar thermochemical cycle for fuel production based on chemical-looping cycle oxygen removal. Applied Energy 2023, 121161. (通讯作者) [7] Hualong Song (研一), Hongsheng Wang, Hongfei Zheng, Hui Kong*. Analysis of cascade and hybrid processes for hydrogen production by full spectrum solar energy utilization. Energy Conversion and Management 2023, 291, 117289. (通讯作者) [8] Ke Zhao (研一), Hui Kong*, Sicong Tan, Xiao-Guang Yang, Hongfei Zheng, Tao Yang, Hongsheng Wang*. Analysis of a hybrid system combining solar-assisted methanol reforming and fuel cell power generation. Energy Conversion and Management 2023, 297, 117664. (通讯作者) [9] Qian He, Hongfei Zheng, Xinglong Ma, Lu Wang, Hui Kong*, Ziye Zhu. Artificial intelligence application in a renewable energy-driven desalination system: A critical review, Energy and AI 2022; 7: 100123. (通讯作者) [10] Hui Kong, Jian Wang, Hongfei Zheng, et al. Techno-economic analysis of a solar thermochemical cycle-based direct coal liquefaction system for low-carbon oil production. Energy 2021;239. [11] Hui Kong, Zheng Li, Zhufeng Yu, et al. Environmental and economic multi-objective optimization of comprehensive energy industry: A case study. Energy 2021; 237(1-4):121534. [12] Jian Wang, Yang Gao, Hui Kong, Juwon Kim, Subin Choi, Francesco Ciucci, Yong Hao, Shihe Yang, Zongping Shao, Jongwoo Lim. Non-precious-metal Catalysts for Alkaline Water Electrolysis: Operando Characterizations, Theoretical Calculations, and Recent Advances. Chemical Society Reviews 2020. [13] Hongsheng Wang, Hui Kong*, Zhigang Pu, Yao Li, Xuejiao Hu. Feasibility of high efficient solar hydrogen generation system integrating photovoltaic cell / photon-enhanced thermionic emission and high-temperature electrolysis cell. Energy Conversion and Management 2020; 210. (通讯作者) [14] Jian Wang, Hui Kong, Jinying Zhang, Yong Hao, Zongping Shao, Francesco Ciucci. Carbon-based electrocatalysts for sustainable energy applications. Progress in Materials Science 2020. [15] Hui Kong, Xianghui Kong, Jian Wang, Jun Zhang. Thermodynamic analysis of a solar thermochemical cycle-based direct coal liquefaction system for oil production. Energy 2019; 1279-1287. [16] Jian Wang, Hui Kong, Yaobin Xu, Jinsong Wu. Experimental investigation of heat transfer and flow characteristics in finned copper foam heat sinks subjected to jet impingement cooling. Applied Energy 2019; 241: 433-443. (通讯作者) [17] Hui Kong, Xianghui Kong, Hongsheng Wang, Jian Wang. A strategy for optimizing efficiencies of solar thermochemical fuel production based on nonstoichiometric oxides. International Journal of Hydrogen Energy 2019, 44(36): 19585-19594. [18] Hui Kong, Yong Hao, Hongguang Jin. Isothermal versus two-temperature solar thermochemical fuel synthesis: A comparative study. Applied Energy 2018; 228: 301-308. [19] 孔慧,郝勇,王宏圣,冀晓洲,金红光. 太阳能高温热化学与甲烷互补的多联产系统. 工程热物理学报 2015; 36 (4): 691–697. [20] 孔慧, 杨锦蕊, 陈 靖,马兴龙, 郑宏飞. 太阳能热法海水淡化发展的关键路径. 太阳能学报. (EI)
研究项目: ² 国家自然科学基金青年基金-聚光太阳能热化学循环分解H2O/CO2制备H2/CO的能效提升机理和方法研究,主持 ² 国家重点研发计划课题-重点地区和重点行业零碳/脱碳技术路径研究,主持 ² 国家科技部国际合作司-支撑中欧气候变化和生物多样性旗舰计划,主持 ² 北京市面上基金-基于化学链循环除氧的高效太阳能热化学循环制备燃料机理研究,主持 ² 博士后基金面上项目-煤基能源-新能源全产业链技术经济和产业结构优化研究,主持 ² 北京理工大学青年教师学术启动计划-多模式高效太阳能海水淡化机理和系统研究,主持 ² 新型电力系统运行与控制国家重点实验室开放基金-光伏光热耦合互补制氢机理与方法研究,主持 ² 能源清洁利用国家重点实验室开放基金-碳中和下太阳能光伏/光热制氢与煤炭直接液化制油耦合方法及其技术经济分析,主持 ² 教育部产学研项目-基于产学合作、协同育人的新能源科学与工程教学内容和课程体系改革的探索研究,主持 ² 国家能源集团研发课题-液氨掺烧全生命周期模型和产业链模型开发,主持 ² 国家能源集团研发课题-二氧化碳驱采地热能耦合燃煤发电系统可行性研究与应用,主持 ² 国家能源集团-国家中长期碳减排路径与能源结构优化战略研究-参与-在研 ² 国家能源集团-煤炭转化利用全生命周期技术经济分析研究-参与-已结题 ² 某部委项目-太阳能热化学制氢-参与-已结题 ² 国家自然科学基金面上项目-聚光太阳能与热化学循环耦合机理研究-参与-已结题 ² 中国科学院创新交叉团队-可再生能源高效利用-参与-已结题
|
今日新闻 |
推荐新闻 |
专题文章 |
CopyRight 2018-2019 实验室设备网 版权所有 |