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陳衡
(華北電力大學副教授)
鎖定
陳衡,男,華北電力大學副教授,研究方向為熱力系統優化、固體廢棄物能質梯級利用、多能互補系統集成和電站大數據分析及智能優化。
- 中文名
- 陳衡
- 畢業院校
- 華北電力大學
- 學位/學歷
- 博士
- 專業方向
- 熱力系統
- 職 稱
- 副教授
- 就職院校
- 華北電力大學
陳衡人物經歷
2008.09—2012.07 華北電力大學本科
2012.09—2017.12 西安交通大學碩博連讀
2016.09—2017.09 密歇根大學安娜堡分校博士聯合培養
2018.03—2020.03 華北電力大學師資博士後
2020.04—2020.12 華北電力大學講師
2020.12—至今華北電力大學副教授
陳衡教學指導
本科生課程:《工程熱力學》
已指導10餘名本科生參加科研工作,並參加節能減排等科技競賽
已協助指導碩士研究生14人
陳衡科研項目
1. 國家自然科學基金青年項目,濕煙氣冷凝再熱過程水分和污染物遷移轉化機理及能量輸運特性,2019.01-2021.12,27.68萬元,負責人
2. 博士後基金面上項目,垃圾焚燒煙氣深度冷卻過程熱利用與污染物脱除協同機理,2019.05-2020.04,8萬元,負責人
3. 中央高校基本科研業務費面上項目,垃圾焚燒熱利用與污染物控制協同集成機理,2020.04-2022.04,15萬元,負責人
4. 國網新疆電科院項目,熱-電-網多因素限制的自備電廠負荷空間預測技術服務,2020.12-2021.11,94萬元,負責人
5. 國家重點研發計劃子課題,高效靈活二次再熱發電機組研製及工程示範,2017.07-2021.06,156萬元,主要參與人
6. 航空發動機及燃氣輪機重大專項基礎研究項目,煤氣化重型燃機聯合循環全工況性能分析與設計基礎,2021-2025,約2700萬,主要參與人
7. 國家自然科學基金面上項目,太陽能-燃氣輪機聯合循環互補系統中太陽能集熱、蓄熱與高效熱利用研究,2019.01-2022.12,60萬元,主要參與人
陳衡獲獎記錄
國家科學技術進步二等獎(第8完成人)
電力工程科學技術進步一等獎(第15完成人)
電力建設科學技術進步三等獎(第5完成人)
西安交通大學優秀博士論文
華北電力大學“青年骨幹培育計劃”
IEEE PES智能電網與新技術委員會理事
西安交通大學國家獎學金(博士生)
華北電力大學校長獎學金(本科生)
陳衡發表論文
[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]陳衡,潘佩媛,趙欽新,等. 燃煤工業鍋爐黏性積灰和露點腐蝕耦合機理[J]. 化工學報, 2017, 68(12): 4774-4783.
[20]陳衡,沈士興,潘佩媛,等. 幹熄焦餘熱鍋爐煙塵特性分析及傳熱元件選型[J]. 工業鍋爐, 2016, (2): 11-14.
[21]陳衡,王雲剛,馬海東,等. 循環流化牀鍋爐燃用準東煤結渣、沾污分析[J]. 熱能動力工程, 2015, 30(3): 431-435.
- 參考資料
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- 1. 陳衡 .華北電力大學能源動力與機械工程學院.2020-10-19[引用日期2021-04-23]
