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教师个人简介

介鹏飞

日期:2018-04-30 | 点击量:


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姓名:介鹏飞

所属部门:能源工程系

邮    箱:pengfeijie@163.com

联系电话:18911120639

一、个人简介:

介鹏飞,男,汉族,副教授,天津大学博士,清华大学博士后,主要从事多能互补分布式能源系统、区域供热以及建筑节能降碳的研究工作。

二、科研项目

1. 企业委托科研项目:核电厂余热利用提升研究,2024-2025.

2. 企业委托科研项目:基于数字化驱动的供热系统热量调控技术,2023.

3. 企业委托科研项目:供暖管道防腐技术研究,2023.

4. 国家重点研发计划项目(2018YFC0704803):“既有城市住区功能提升与改造技术”子课题之“既有城市住区能源系统升级改造技术研究”,2018-2021.

5. 北京市教委科研项目(KM201810017004):基于能量数量与能量品位的集中供暖系统节能性研究,2018-2021.

6. 北京市委组织部优秀青年骨干个人项目:生物质气化式建筑冷热电联供系统优化集成机理及生命力评价机制研究,2017-2018.

7. 企业委托科研项目:集中供暖系统优化运行与评价体系研究,2017-2018.

8. 国家“十二五”科技支撑计划重大项目(2012BAJ04B03):“城镇供热系统能效提升关键技术与示范项目”子课题之“城市供热系统能效提升装备关键技术研究与示范”,2012-2015.

9. 美国能源基金项目:“十二五”期间北方采暖地区既有居住建筑供热计量及节能改造实施体系,2010.

10. 国家“十一五”科技支撑计划重大项目(2006BAJ03A06-05):“既有建筑供能系统升级改造关键技术研究”子课题之“北方地区既有公共建筑供能系统评估与优化设计关键技术研究”,2006-2010.

三、代表性学术论文

1. Pengfei Jie, Zhe Li, Yanli Ren, Fengjun Wei. Economy-energy-environment optimization of biomass gasifcation CCHP system integrated with ground source heat pump. Energy, 2023, 277: 127554.

2. Pengfei Jie, Zhe Li, Yang Hu, Chunhua liu, Yanli Ren. Optimization of biomass gasification combined cooling, heating and power system integrated with solar energy. Journal of Building Engineering, 2023, 70: 106279.

3. Pengfei Jie, Ziyang Zhou, Fengjun Wei, Yanli Ren. Optimization of radiator area of CHP-based district heating system based on energy cascade utilization. Alexandria Engineering Journal, 2023, 68: 619-631.

4. Pengfei Jie, Wanyue Zhao, Fuchun Yan, Xiaoxin Man, Chunhua Liu. Economic, energetic and environmental optimization of hybrid biomass gasification-based combined cooling, heating and power system based on an improved operating strategy. Energy, 2022, 240: 122730.

5. Yumei Zhang, Pengfei Jie, Chunhua Liu, Jing Li. Optimizing environmental insulation thickness of buildings with CHP-based district heating system based on amount of energy and energy grade. Frontiers in Energy, 2022, 16 (4): 613-628.

6. Ruihuai Wang, Pengfei Jie, Delai Wang, Fating Li, Chunhua Liu. Optimization of insulation thickness of double buried district heating pipes using the Eco-indicator method. Journal of Building Engineering, 2021, 41:102393.

7. Fating Li, Pengfei Jie, Zhou Fang, Zhimei Wen. Determining the optimum economic insulation thickness of double pipes buried in the soil for district heating systems. Frontiers in Energy, 2021, 15 (1): 170-185.

8. Pengfei Jie, Wanyue Zhao, Fating Li, Fengjun Wei, Jing Li. Optimizing the pressure drop per unit length of district heating piping networks from an environmental perspective. Energy, 2020, 202: 117681.

9. Pengfei Jie, Fuchun Yan, Zhimei Wen, Jing Li. Evaluation of the biomass gasification-based combined cooling, heating and power system using the maximum generalized entropy principle. Energy Conversion and Management, 2019, 192: 150-160.

10. Pengfei Jie, Fuchun Yan, Jing Li, Yumei Zhang, Zhimei Wen. Optimizing the insulation thickness of walls of existing buildings with CHP-based district heating systems. Energy, 2019, 189: 116262.

11. Pengfei Jie, Fengjun Wei, Fenghe Zhang, Jing Li. Evaluating the performance of biomass gasification based combined cooling, heating, and power system operated under different operating strategies. Advances in Mechanical Engineering, 2019, 11 (2): 1-17.

12. Lingling Bao, Chaoyang Zhong, Pengfei Jie, Yan Hou. The effect of nanoparticle size and nanoparticle aggregation on the flow characteristics of nanofluids by molecular dynamics simulation. Advances in Mechanical Engineering, 2019, 11 (11): 1-17.

13. Yan Hou, Pengfei Jie, Huanguang Wang. Heat transfer mechanisms of single droplet impacting onto flowing film. International Journal of Heat and Mass Transfer, 2019, 132: 952-960.

14. Pengfei Jie, Fenghe Zhang, Zhou Fang, Hongbo Wang, Yunfeng Zhao. Optimizing the insulation thickness of walls and roofs of existing buildings based on primary energy consumption, global cost and pollutant emissions. Energy, 2018, 159: 1132-1147.

15. Hongbing Chen, Lei Zhang, Pengfei Jie, Yaxuan Xiong, Peng Xu, Huixing Zhai. Performance study of heat-pipe solar photovoltaic/thermal heat pump system. Applied Energy, 2017, 190: 960-980.

16. Xiangfei Kong, Pengfei Jie, Chengqiang Yao, Yun Liu. Experimental study on thermal performance of phase change material passive and active combined using for building application in winter. Applied Energy, 2017, 206: 293-302.

17. Xiangfei Kong, Chengqiang Yao, Pengfei Jie, Yun Liu, Chengying Qi, Xian Rong. Development and thermal performance of an expanded perlite-based phase change material wallboard for passive cooling in building. Energy and Buildings, 2017, 152: 547-557.

18. JIE Peng-fei, KONG Xiang-fei, LI Jing. Exergy analysis of operation process of district heating systems. Journal of Central South University, 2017, 24 (7): 1663-1670.

19. Pengfei Jie, Xiangfei Kong, Xian Rong, Shangqun Xie. Selecting the optimum pressure drop per unit length of district heating piping network based on operating strategies. Applied Energy, 2016, 177: 341-353.

20. Pengfei Jie, Neng Zhu, Deying Li. Operation optimization of existing district heating systems. Applied Thermal Engineering, 2015, 78: 278-288.

21. Pengfei Jie, Zhe Tian, Shanshan Yuan, Neng Zhu. Modeling the dynamic characteistics of a district heating network. Energy, 2012, 39 (1): 126-134.

四、授权发明专利

1. 介鹏飞,焉富春,郭立振,张玉梅,李法庭. 一种基于㶲经济和㶲环境的建筑物墙体保温厚度的优化方法. ZL202010363539.9

2. 介鹏飞,赵婉月,蒋嘉辉,李法庭,焉富春. 一种基于㶲经济的供暖直埋热力管道最优保温厚度的获取方法. ZL202010801382.3

3. 介鹏飞,赵婉月,厉竹原,刘靖怡. 一种生物质气化冷热电联供系统的多目标优化方法. ZL202011480818.X

4. 介鹏飞,赵婉月,郭立振,张玉梅,李法庭. 一种基于遗传算法的确定建筑物墙体最优环境保温厚度的方法. ZL202010054197.2

5. 介鹏飞,潘慧杰,李法庭,焉富春,赵廷奉,张玉梅. 基于Eco indicator-99的集中供暖直埋管道保温材料厚度优化方法. ZL201910484142.2

6. 介鹏飞,焉富春,李法庭,申镇,张玉梅,方舟,麻晗. 一种优化集中供暖热力管道比摩阻的方法. ZL201910620553.X

7. 介鹏飞,从润林,焉富春. 生物质气化三联供系统及其运行经济性的评估方法. ZL201910203519.2

8. 介鹏飞,焉富春,李法庭,张玉梅,赵廷奉,方舟. 一种集中供暖热力管道保温厚度的优化方法. ZL201811385588.1

9. 介鹏飞,焉富春,方舟,曾帅骐,申镇. 一种基于遗传算法-支持向量机的冷负荷预测方法. ZL201811277491.9

10. 介鹏飞,焉富春,赵廷奉,李法庭,张玉梅. 一种集中供热系统中散热面积的优化方法. ZL201811385611.7