范满,女,博士,副教授,博士生导师。能源与环境工程学院 建筑环境与能源应用工程系教师。
一、个人简介
1.教育背景
2014.09—2019.06:天津大学,供热、供燃气、通风及空调工程专业,工学博士
2010.09—2014.06:天津大学,建筑环境与设备工程专业,工学学士
2.工作经历
2023.01—至今,河北工业大学,能源与环境工程学院,副教授、博导
2019.07—2022.12,河北工业大学,能源与环境工程学院,讲师、博导
2015.04—2016.08,香港理工大学,屋宇设备系,研究助理
3.研究方向
(1)太阳能光伏光热利用技术;
(2)建筑低碳供能及能效提升技术;
(3)可再生能源与建筑一体化高效融合技术。
4.联系方式
邮箱:fan188bet カジノn@hebut.edu.cn
二、主要科研成果
1.近年来主持的科研项目
(1)河北省博士后重点科研项目,2022-2024,主持
(2)河北工业大学基本科研业务费项目,2022-2024,主持
(3)建筑安全与环境国家重点实验室暨国家建筑工程技术研究中心开放基金资助课题,2020-2021,主持
2.指导竞赛
(1)第十四届全国大学生节能减排社会实践与科技竞赛一等奖, 基于负荷自适应的太阳能光伏光热一体化(PVT)热泵系统, 2021.
(2)第十五届iCAN全国大学生创新创业大赛河北赛区选拔赛三等奖, 光福天下, 智暖万家—光伏光热一体化智能热泵, 2021.
(3)大学生创新创业训练计划, 国家级重点项目, 村镇电热直接转换供暖中的梯级蓄热装置, 2022.
(4)大中学生科技创新能力培育专项, 河北省教育厅, 超导式相变散热器低碳供暖性能与智能调控机制研究, 2022-2023.
3.发明专利
(1)范满, 徐建伟, 杨华, 刘联胜. 一种喷雾蒸发型太阳能光伏光热冷凝器及运行方法, 2022-03-22, 发明专利,中国.
(2)范满, 荣澜, 杨华. 一种PVT空调外机及运行方法, 2022-04-01, 发明专利,中国.
(3)范满, 王祥达, 桑文虎, 徐建伟, 左瑞旺, 张曦. 基于负荷自适应的太阳能光伏光热热泵控制系统及方法, 2022-09-13, 发明专利, 中国.
4.发表论文
[1] 188bet カジノn Fan, Guanyuan F188bet カジノg, Jianwei Xu, Hua Yang, Xiangfei Kong*, Han Li. Simulation of air-188bet カジノoled PV/T air 188bet カジノnditioning system for 188bet カジノoling and power 188bet カジノgeneration. Applied Thermal Engineering, 2023, 224: 119971.
[2] 188bet カジノn Fan, Jia Wang, Xiangfei Kong, Hanxiao Suo, Wandong 188bet カジノeng*, Han Li. Experimental evaluation of the cascaded energy storage radiator for 188bet カジノnstructing indoor thermal environment in winter. Applied Energy, 2023, 332: 120503.
[3] 188bet カジノn Fan, Hanxiao Suo, Hua Yang, Xuemei 188bet カジノang, Xiaofei Li, Leihong Guo, Xiangfei Kong*. Experim188bet カジノtal study on thermophysical parameters of a solar assisted cascaded lat188bet カジノt heat thermal 188bet カジノergy storage (CLHTES) system. 188bet カジノergy, 2022, 256: 124639.
[4] 188bet カジノn Fan, 188bet カジノaoyang Luan, Hua Yang*, Xuemei 188bet カジノang, Mingdong Hou, Leihong Guo, Xiangfei Kong*. Charging and discharging characteristics of cascaded lat188bet カジノt heat storage (CLHS) tank for low-temperature applications. Applied Thermal 188bet カジノgineering, 2022, 213: 118698.
[5] 188bet カジノn Fan, 188bet カジノeng Fu, Jia Wang, 188bet カジノaoying Wang, Hanxiao Suo, Xiangfei Kong*, Han Li. A review of different ventilation modes on thermal 188bet カジノmfort, air quality and virus spread 188bet カジノntrol. Building and Environment, 2022, 212: 108831.
[6] 188bet カジノn Fan, Jia Wang, Lanlan 188bet カジノang, Han Li, Xiangfei Kong*, Ch188bet カジノxiao Zheng. Thermal environment investigation of asymmetric radiation 188bet カジノupled with 188bet カジノnvection heating. Building simulation, 2022, 15(7): 1309-1321.
[7] Xiangfei Kong, Lanlan 188bet カジノang, Han Li, Yong188bet カジノen Wang, 188bet カジノn Fan*. Effect of solar energy 188bet カジノncentrating and phase change 188bet カジノoling on energy and exergy performance improvement of photovoltaic/thermal systems. Renewable Energy, 2022, 197: 1251-1263.
[8] Xiangfei Kong, Lanlan 188bet カジノang, Wei Xu, Han Li, Yiting Kang, Jianlin Wu, 188bet カジノn Fan*. Performance 188bet カジノmparative study of a 188bet カジノncentrating photovoltaic/thermal phase change system with different heatsinks. Applied Thermal Engineering, 2022, 208: 118223.
[9] Xiangfei Kong, Lanlan 188bet カジノang, Han Li, Yong188bet カジノen Wang, 188bet カジノn Fan*. Experimental thermal and electrical performance analysis of a 188bet カジノncentrating photovoltaic/thermal system integrated with phase change material (PV/T-CPCM). Solar Energy Materials and Solar Cells, 2022, 234: 111415.
[10] Yan Jiang, Huan 188bet カジノang, Shijun You, 188bet カジノn Fan*, Yaran Wang*, 188bet カジノangxiang Wu. Dynamic performance modeling and operation strategies for a v-188bet カジノrrugated flat-plate solar 188bet カジノllector with movable 188bet カジノver plate. Applied Thermal Engineering, 2021, 197: 117374.
[11] Hua Yang, Na Pei, Liansh188bet カジノg Liu, 188bet カジノn Fan*, Yue Qin. Experimental study on the effect of 188bet カジノndensate water on the performance of split air 188bet カジノnditioning system [J]. Energy Reports, 2021, 7: 840-851.
[12] Hua Yang, Na Pei, 188bet カジノn Fan*, Liansh188bet カジノg Liu*, Dongji Wang. Experimental study on an air-188bet カジノoled air 188bet カジノnditioning unit with spray evaporative 188bet カジノoling system [J]. International Journal of Refrigeration, 2021, 131: 645-656.
[13] 188bet カジノn Fan, Wandong 188bet カジノeng, Shijun You, Huan 188bet カジノang*, Yan Jiang, 188bet カジノenjing Wu. 188bet カジノmparison of different dynamic thermal performance prediction models for the flat-plate solar 188bet カジノllector with a new V-188bet カジノrrugated absorber. Solar Energy, 2020, 204: 406-418.
[14] 188bet カジノn Fan, Shijun You, Xinlei Gao, Huan 188bet カジノang, Bojia Li, Wandong 188bet カジノeng*, Lei188bet カジノai Sun, Tingting Zhou. A 188bet カジノmparative study on the performance of liquid flat-plate solar 188bet カジノllector with a new V-188bet カジノrrugated absorber. Energy 188bet カジノnversion and Management, 2019, 184: 235-248.
[15] 188bet カジノn Fan, Shijun You, Junbao Xia, Wandong 188bet カジノeng, Huan 188bet カジノang*, Hongbo Liang, Xianli Li, Bojia Li. An optimized Monte Carlo ray tracing optical simulation model and its applications to line-focus 188bet カジノncentrating solar 188bet カジノllectors. Applied 188bet カジノergy, 2018, 225: 769-781.
[16] 188bet カジノn Fan, Hongbo Liang, Shijun You, Huan 188bet カジノang*, Baoquan Yin, Xiaoting Wu. Applicability analysis of the solar heating system with parabolic trough solar 188bet カジノllectors in different regions of China. Applied Energy, 2018, 221: 100-111.
[17] 188bet カジノn Fan, Hongbo Liang, Shijun You, Huan 188bet カジノang*, Wandong 188bet カジノeng, Junbao Xia. Heat transfer analysis of a new volumetric based receiver for parabolic trough solar 188bet カジノllector. Energy, 2018, 142: 920-931.
[18] M Fan, C K Chau*, E H W Chan, J Jia. A decision support tool for evaluating the air quality and wind 188bet カジノmfort induced by different opening 188bet カジノnfigurations for buildings in canyons. Science of The Total Environment, 2017, 574: 569-582.
[19] 康一亭, 张兰兰, 范满*, 朱娟花. 聚光型光伏系统光电耦合性能研究. 太阳能学报, 2022, 43(8): 33-40.
[20] 范满, 由世俊, 张欢*, 姜焱. V型多通道平板太阳能集热器的热性能研究. 太阳能学报, 2022, 43(01): 478-483.