陈衡

姓名:陈衡

职称:讲师、硕导

职务:无

院系:澳门英皇赌博官方网址


研究方向:

热力系统优化

固体废弃物能质梯级利用

多能互补系统集成

电站大数据分析及智能优化


联系方式:

电话:010-61772284

邮箱:heng@ncpeu.edu.cn

地址:主楼F705


个人简介及主要荣誉称号:

2008.09—2012.07澳门英皇游戏网址本科

2012.09—2017.12西安交通大学硕博连读

2016.09—2017.09密歇根大学安娜分校博士联合培养

2018.03—2020.03澳门英皇游戏网址师资博士后

2020.04—至今澳门英皇游戏网址讲师

本人一直从事热力系统优化及创新、垃圾资源化利用、多能互补系统集成、电站大数据分析等方面的研究,已发表论文50余篇(其中第一作者SCI收录论文18篇),国内发明专利授权4项,主持国家自然科学基金青年项目1项,完成博士后基金1项,获得国家科学技术进步二等奖1项(第8完成人),获得“西安交通大学优秀博士论文”等荣誉,并入选澳门英皇游戏网址“青年骨干培育计划”,现任IEEE PES智能电网与新技术委员会(中国)理事。


教学与人才培养情况:

本科生课程:《工程热力学》

已指导10余名本科生参加科研工作,并参加节能减排等科技竞赛

已协助指导硕士研究生14人


主要科研项目情况:

1.国家自然科学基金青年项目,湿烟气冷凝再热过程水分和污染物迁移转化机理及能量输运特性,2019.01-2021.12,27.68万元,主持

2.博士后基金面上项目,垃圾焚烧烟气深度冷却过程热利用与污染物脱除协同机理,2019.05-2020.04,8万元,主持

3.国家重点研发计划课题,高效灵活二次再热发电机组研制及工程示范,2017.07-2021.06,156万元,参与


主要获奖情况:

国家科学技术进步二等奖(第8完成人)

西安交通大学优秀博士论文

西安交通大学国家奖学金(博士生)

澳门英皇游戏网址校长奖学金(本科生)


代表性论著:

[1]Heng Chen, Xue Kai, Wu Yunyun, et al. Thermodynamic and economic analyses of a solar-aided biomass-fired combined heat and power system[J]. Energy, 2021, 214119023.

[2]Heng Chen, Wu Yunyun, Xu Shuai, et al. Thermodynamic and economic evaluation of a novel heat supply design using low-pressure feedwater in a cogeneration plant[J]. Applied Thermal Engineering, 2020, 166114672.

[3]Heng Chen, Qi Zhen, Dai Lihao, et al. Performance evaluation of a new conceptual combustion air preheating system in a 1000MW coal-fueled power plant[J]. Energy, 2020, 193116739.

[4]Heng Chen, Zhang Meiyan, Xue Kai, et al. An innovative waste-to-energy system integrated with a coal-fired power plant[J]. Energy, 2020, 194116893.

[5]Heng Chen, Zhang Meiyan, Wu Yunyun, et al. Design and performance evaluation of a new waste incineration power system integrated with a supercritical CO2 power cycle and a coal-fired power plant[J]. Energy Conversion and Management, 2020, 210112715.

[6]Heng Chen, Zhang Meiyan, Chen Zhidong, et al. Performance analysis and operation strategy of an improved waste-to-energy system incorporated with a coal-fired power unit based on feedwater heating[J]. Applied Thermal Engineering, 2020, 178115637.

[7]Peiyuan Pan, Zhang Meiyan, Xu Gang, et al. Thermodynamic and Economic Analyses of a New Waste-to-Energy System Incorporated with a Biomass-Fired Power Plant[J]. Energies, 2020, 13(17): 4345.

[8]Heng Chen, Wu Yunyun, Qi Zhen, et al. Improved combustion air preheating design using multiple heat sources incorporating bypass flue in large-scale coal-fired power unit[J]. Energy, 2019, 169527-541.

[9]Heng Chen, Xiao Yao, Xu Gang, et al. Energy-saving mechanism and parametric analysis of the high back-pressure heating process in a 300 MW coal-fired combined heat and power unit[J]. Applied Thermal Engineering, 2019, 149829-840.

[10]Heng Chen, Wu Yunyun, Xu Jidong, et al. Thermodynamic and Economic Analyses of Reformative Design for High Back-Pressure Heating in Coal-Fueled Cogeneration Units[J]. Entropy, 2019, 21(4): 342.

[11]Heng Chen, Yao Xianhuai, Li Juan, et al. Thermodynamic analysis of a novel combined heat and power system incorporating a CO2 heat pump cycle for enhancing flexibility[J]. Applied Thermal Engineering, 2019, 161114160.

[12]Heng Chen, Xu Jidong, Xiao Yao, et al. An Improved Heating System with Waste Pressure Utilization in a Combined Heat and Power Unit[J]. Energies, 2018, 11(6): 1515.

[13]Heng Chen, Qi Zhen, Chen Qiao, et al. Modified High Back-Pressure Heating System Integrated with Raw Coal Pre-Drying in Combined Heat and Power Unit[J]. Energies, 2018, 11(9): 2487.

[14]Heng Chen, Pan Peiyuan, Shao Huaishuang, et al. Corrosion and viscous ash deposition of a rotary air preheater in a coal-fired power plant[J]. Applied Thermal Engineering, 2017, 113373-385.

[15]Heng Chen, Pan Peiyuan, Chen Xiaolu, et al. Fouling of the flue gas cooler in a large-scale coal-fired power plant[J]. Applied Thermal Engineering, 2017, 117698-707.

[16]Heng Chen, Pan Peiyuan, Jiao Jian, et al. Low-temperature ash deposition and dewpoint corrosion of a coal-fired travelling grate boiler[J]. Applied Thermal Engineering, 2017, 117752-761.

[17]Heng Chen, Jiao Jian, Pan Peiyuan, et al. Deposit formation of the low-pressure economizer in a coal-fired thermal power plant[J]. Energy & Fuels, 2017, 31(5): 4791-4798.

[18]Heng Chen, Pan Peiyuan, Wang Yungang, et al. Field study on the corrosion and ash deposition of low-temperature heating surface in a large-scale coal-fired power plant[J]. Fuel, 2017, 208149-159.

[19]陈衡,潘佩媛,赵钦新,等. 燃煤工业锅炉黏性积灰和露点腐蚀耦合机理[J]. 化工学报, 2017, 68(12): 4774-4783.

[20]陈衡,沈士兴,潘佩媛,等. 干熄焦余热锅炉烟尘特性分析及传热元件选型[J]. 工业锅炉, 2016, (2): 11-14.

[21]陈衡,王云刚,马海东,等. 循环流化床锅炉燃用准东煤结渣、沾污分析[J]. 热能动力工程, 2015, 30(3): 431-435.

[22]陈衡,王云刚,赵钦新,等. 燃煤锅炉低温受热面积灰特性实验研究[J]. 中国电机工程学报, 2015, 35(S1): 118-124.


实验室:

工程热物理教研室

热电生产过程污染物监测与控制北京市重点实验室