基本情况

陈梅倩

职称:教授

学历:研究生

学位:博士

电话:86-10-51683423

邮箱:mqchen@bjtu.edu.cn

教育背景

教育背景:

2003.9-2009.12 北京交通大学,动力工程系,热能动力工程专业  博士

1985.9-1988.1 华北电力大学北京研究生部,动力工程系,热能动力工程专业  研究生

1981.9-1985.7 华北电力学院,动力工程系,热能动力工程专业 本科

 

 

研究工作经历:

2010年11月至今,北京交通大学 动力与能源工程系  教授

2012.11-2013.11 美国马里兰大学( University of Maryland)访学,教授

1998年至2010.11,北京交通大学 动力系  副教授

 

研究方向

  • 机械工程
  • 智能制造与智慧运维(机电学院导师组)
  • 微机电系统与能源技术装备
  • 热能工程

招生专业

  • 机械工程硕士
  • 机械工程博士
  • 动力工程及工程热物理硕士
  • 人工智能博士

科研项目

近年来,共主持和主要参加了国家863计划课题、国家自然科学基金项目、铁道部科技发展项目等国家级、省部级和横向科研项目30余项。

近年来主持/参加的主要科研项目:

  • 国家自然科学基金“联合基金项目":放射性废树脂处理过程微量核素迁移和反迁移机理研究,2022/01-2025/12
  • 科技部重点研发计划项目:节能循环流化床数值模拟和脱硫剂性能评测(子课题),2017/07-2021/06主持.
  • 国家自然科学基金项目:废旧轮胎近/超临界水解反应机理研究及模型构建,2021/1/1-2024/12/31,参加
  • 国家自然科学基金中英合作交流项目:盐分对城市生活污泥干燥机制的影响 2016/4-2018/4 主持
  • 国家自然科学基金项目:焚烧炉中城市生活垃圾干燥过程的实验与理论研究,2008/1/1-2010/12/31,主持
  • 国家自然科学基金项目:非均匀松散结构物质内部传递物理机制研究,2014/1/1-2017/12/31,主持
  • 铁道部科技发展项目:地源热泵系统能效评价研究,2011/9/30-2012/9/30,主持
  • 国家863计划课题:蓄热式燃烧冷凝型天然气锅炉技术,2006/12/1-2008/12/31,参加
  • 教育部重点: 蓄热式冷凝型天然气锅炉燃烧与换热研究,2007/1/1-2008/12/31,参加
  • 北京机电院高技术股份有限公司:固体废弃物回转式焚烧炉综合分析研究,2006/3/1-2006/10/30,主持
  • 大唐发电集团:  某电厂冷水塔喷淋件更换前后性能试验,2015/11-2016/11,主持
  • 国华电力:闭冷水系统改造研究设计,2005/11/1-2006/1/31,主持
  • 大唐发电集团:唐山热电公司12炉一次风系统管道空气动力特性计算与分析,2005/5/1-2005/12/31 ,主持
  • 华北电力:提高机组满负荷出力研究,2005/7/10-2005/12/31,主持

教学工作

本科生课程

热流体工程,工程热力学,汽轮机原理,能源科学导论

研究生课程

热力学原理,化学反应动力学

论文/期刊



1.           Nie SQ, Chen MQ, Li QH. Investigation of the depolymerization process of hydrothermal gasification natural rubber with ReaxFF-MD simulation and DFT computation. Journal of Thermal Analysis and Calorimetry. 2022;147:9999-10011.

2.           Liang, B., Chen, M., Guan, J., 2022. Experimental assessment on the thermal and moisture migration of sand-based materials combined with kaolin and graphite. Heat and Mass Transfer 58, 1075-1089.

3.           Liang, B., Chen, M., An Fu, B., Guan, J., 2022. Thermal and flow characteristics in a vertical spiral-type ground heat exchanger based on linear non-equilibrium thermodynamic principle. Energy and Buildings 266, 112111.

4.           Fu K, Chen M. Evaluation on migration of radioactive metal in irradiated graphite waste during an innovative thermal treatment based upon the Gibbs free energy minimization. Journal of Thermal Analysis and Calorimetry. 2022;147:10145-61.

5.           Liang B, Chen M, Guan J. Assessment on the thermal and moisture migration of sand-based materials coupled with kaolin additive. Journal of Thermal Analysis and Calorimetry. 2022;147:10163-76.

6.           B. Liang, M. Chen, Y. Orooji, Effective parameters on the performance of ground heat exchangers: A review of latest advances, Geothermics, 98 (2022) 102283

7.           K. Fu, M. Chen, S. Wei, X. Zhong, A comprehensive review on decontamination of irradiated graphite waste, Journal of Nuclear Materials, 559 (2022) 153475.

8.           Nie SQ, Chen MQ, Li QH. Evaluation on hydrothermal gasification of waste tires based on chemical equilibrium analysis. International Journal of Hydrogen Energy. 2022;47:1435-48.

9.           H.W. Wang, M.Q. Chen, K. Fu, S.H. Wei, X.B. Zhong, Evaluation on migration and transformation of trace nuclides in thermal degradation for low-level radioactive waste, Journal of Analytical and Applied Pyrolysis, 161 (2022) 105420.

10.         P.K. Wu, M.Q. Chen, H.W. Wang, S.H. Wei, X.B. Zhong, Steam gasification characteristics of char pellets of typical technical solid wastes, Thermochimica Acta, 699 (2021) 178907.

11.         Zhang HS, Chen MQ, Wei SH, Zhong XB. Evaluation on drying performance of typical technical solid waste during microwave-combined hot air. Experimental Heat Transfer. 2021;34:121-39.

12.         Zhang HS, Chen MQ, Fu BA, Li QH. Evaluation on microwave drying of waste paper towel with multi-magnetron and mode stirrer. Drying Technology. 2021;39:882-95.

13.         Zhou T, Chen M, Liang B. Thermal performance of a ground U-shaped tube with twisted tapes in sand/graphite backfill materials. Experimental Heat Transfer. 2021;34:186-200.

14.         B.A. Fu, M.Q. Chen, X.Y. Zhang, Drying and mechanical performance of hematite pellet in dielectric and magnetic heating, International Communications in Heat and Mass Transfer, 115 (2020) 104608.

15.         Li HF, Chen MQ, Liang B, Fu BA. Thermal characteristics in a spiral-tube buried in sand/bentonite/graphite under cooling and heating modes. Experimental Heat Transfer. 2020;33:547-59.

16.         Fu BA, Chen MQ. Microwave drying performance of spent coffee grounds briquette coupled with mineral additives. Drying Technology. 2020;38:2094-101.

17.         Fu BA, Chen MQ, Li QH. Non-equilibrium thermodynamics approach for the coupled heat and mass transfer of wet mineral porous media in dielectric and magnetic drying. Drying Technology. 2020;38:2067-82.

18.         Y.W. Huang, M.Q. Chen, Q.H. Li, Decentralized drying-gasification scheme of sewage sludge with torrefied biomass as auxiliary feedstock, International Journal of Hydrogen Energy, 45(46) (2020) 24263-24274.

19.         D.H. Hu, M.Q. Chen, Y.W. Huang, S.H. Wei, X.B. Zhong, Evaluation on isothermal pyrolysis characteristics of typical technical solid wastes, Thermochimica Acta, 688 (2020) 178604.

20.         Bai YJ, Chen MQ, Li QH, Huang YW. Sulfation performance of CaO under circulating fluidized bed combustion-like condition. Journal of Thermal Analysis and Calorimetry. 2020;142(2):1031-42. doi:10.1007/s10973-020-09857-8.

21.         Y. Li, M.Q. Chen, Y.W. Huang, Evaluation on the non-isothermal combustion kinetics of lignite and sewage sludge through microwave pretreatment, Journal of Thermal Analysis and Calorimetry, 141(3) (2020) 1165-1172.

22.         Fu BA, Chen MQ. Linear non-equilibrium thermal and deformation transport model for hematite pellet in dielectric and magnetic heating. Applied Thermal Engineering. 2020;173:115197.

23.         Li HF, Chen MQ, Fu BA, Liang B. Evaluation on the thermal and moisture diffusion behavior of sand/bentonite.Applied Thermal Engineering 2019,151:55-65

24.         李正浩,陈梅倩,梁缤,周桐.沙子/聚丙烯酰胺中内螺纹地埋管换热性能[J].太阳能学报,2019,40(07):1817-1822.

25.         Huang, Y.W., Chen, M.Q.& Li, Q.H. Artificial neural network model for the evaluation of chemical kinetics in thermally induced solid-state reaction. J Therm Anal Calorim (2019) 138: 451-460.  

26.         B.A. Fu, M.Q. Chen, Q.H. Li, Heat transfer characteristics and drying kinetics of hematite thin layer during hot air convection, Thermochimica Acta, 682 (2019) 178405.

27.         Guo J, Chen M, Huang Y, Shokri N. Salinity effects on ultrasound-assisted hot air drying kinetics of sewage sludge. Thermochimica Acta. 2019;678:178298.    

28.         Liang B, Chen M Q, Fu B A, Li HF. Investigation of thermal and flow performances of a vertical spiral-tube ground heat exchanger in sand combined with kaolin additive. Energy and Building 2019,190:235-245

29.         Wei YH, Chen MQ, Li QH, Niu SB, Li Y. Isothermal combustion characteristics of anthracite and spent coffee grounds briquettes. J Therm Anal Calorim 2019, 136:1447-1456

30.         Y.W. Huang,M.Q. Chen * , Q.H. Li** , W. Xing Hydrogen-rich syngas produced from co-gasification of wet sewage sludge and torrefied biomass in self-generated steam agent. Energy 161 (2018) 202-213.

31.         Zhou T.; Chen M.Q.; Fu B. A.;Liang B.; Li Q.H., Investigation on thermal and moisture migration performance in sand combined with graphite.Applied Thermal Engnieering 2018;145:212-20

32.         Huang Y. W, Chen M. Q., Li Q. H. A critical evaluation on chemical exergy and its correlation with high heating value for single and multi-component typical plastic wastes. Energy 2018;156:548-54

33.         Li Y, Chen M Q, Li Q H, Huang Y W. Effect of microwave pretreatment on the combustion behavior of lignite/solid waste briquettes. Energy 2018;149:730-40.

34.         Fu, B. A.; Chen, M. Q.; Li, Q. H.; Song, J. J., Non-equilibrium thermodynamics approach for the coupled heat and mass transfer in microwave drying of compressed lignite sphere. Applied Thermal Engineering 2018, 133, 237-247. 

35.         Chen NN, Chen MQ, Fu BA, Song JJ. Far-infrared irradiation drying behavior of typical biomass briquettes. Energy. 2017;121:726-38. 、

36.         Niu, S.; Chen, M.; Li, Y.; Song, J., Co-combustion characteristics of municipal sewage sludge and bituminous coal. J Therm Anal Calorim 2018, 131 (2), 1821-1834.

37.         B.A. Fu, M.Q. Chen, J.J. Song, Investigation on the microwave drying kinetics and pumping phenomenon of lignite spheres, Applied Thermal Engineering, 124 (2017) 371-380

38.         Li Z, Chen M, Zhou T, Fu B, Liang B, Jia L. Heat transfer performance of a vertical buried internally helically groove tube in soil/polyacrylamide under hot climate. Applied Thermal Engineering. 2017;124:403-12.

39.         Huang YW, Chen MQ, Li Y. An innovative evaluation method for kinetic parameters in distributed activation energy model and its application in thermochemical process of solid fuels. Thermochimica Acta. 2017;655:42-51.

40.         Y.W. Huang, M.Q. Chen, J.J. Song, Effect of torrefaction on the high temperature steam gasification of cellulose based upon the Gibbs free energy minimization, Energy Procedia, 142 (2017) 603-608.

41.         Niu S, Chen M, Li Y, Lu T. Combustion characteristics of municipal sewage sludge with different initial moisture contents. J Therm Anal Calorim. 2017;129(2):1189-99.

42.         Fu BA, Chen MQ, Huang YW, Luo HF. Combined effects of additives and power levels on microwave drying performance of lignite thin layer. Drying Technology. 2017;35(2):227-39.

43.         R. Wan, M.Q. Chen, Y.W. Huang, T. Zhou, B. Liang, H.F. Luo.Evaluation on the heat transfer performance of a vertical ground U-shaped tube heat exchanger buried  in soil–polyacrylamide, Experimental Heat Transfer, 30 (2017) 427-440

44.         黄友旺, 陈梅倩, 付毕安, 生物质和污泥轻度热解的两步反应动力模型, 工程热物理学报, 38 (2017) 920-924

45.         Y.W. Huang, M.Q. Chen, Thin-layer isothermal drying kinetics of municipal sewage sludge based on two falling rate stages during hot-air-forced convection, J Therm Anal Calorim, 129 (2017) 567-575.

46.         Y.W. Huang, M.Q. Chen, Y. Li, J. Guo, Modeling of chemical exergy of agricultural biomass using improved general regression neural network, Energy, 114 (2016) 1164-1175.

47.         X. Zhang, M. Chen, Y. Huang, Isothermal drying kinetics of municipal sewage sludge coupled with additives and freeze–thaw pretreatment, J Therm Anal Calorim, 128 (2017) 1195-1205.

48.         黄友旺, 陈梅倩, 付毕安. 基于热力学极值原理优化污泥干燥过程. 工程热物理学报. 2016;37(08):1602-6.

49.         G.Y. Sun, M.Q. Chen, Y.W. Huang, Evaluation on the air-borne ultrasound-assisted hot air convection thin-layer drying performance of municipal sewage sludge, Ultrasonics Sonochemistry 34 (2017) 588-599.

50.         Y.W. Huang, *M.Q. Chen, L. Jia, Assessment on thermal behavior of municipal sewage sludge thin-layer during hot air forced convective drying, Applied Thermal Engineering, 96 (2016) 209-216.

51.         Y.W. Huang, M.Q. Chen, H.F. Luo, Nonisothermal torrefaction kinetics of sewage sludge using the simplified distributed activation energy model, Chemical Engineering Journal, 298 (2016) 154-161.

52.         付毕安, 陈梅倩, 黄友旺, 添加剂对褐煤薄层微波干燥特性影响, 工程热物理学报 37 (2016) 946-951

53.         Y. Wei, M. Chen, S. Niu, F. Xue, Experimental investigation on the oxy-fuel co-combustion behavior of anthracite coal and spent coffee grounds, J Therm Anal Calorim 124 (2016) 1651-1660. 

54.         Niu, S., *Chen, M., Li, Y., Xue, F., 2016. Evaluation on the oxy-fuel combustion behavior of dried sewage sludge. Fuel 178, 129-138.

55.         X.Y. Zhang, *M.Q. Chen, Y.W. Huang, F. Xue, Isothermal hot air drying behavior of municipal sewage sludge briquettes coupled with lignite additive, Fuel, 171 (2016) 108-115.

56.         Y. Wei, *M. Chen, S. Niu, X. You, F. Xue, Evaluation on oxy-fuel co-combustion behavior of Chinese lignite and eucalyptus bark, Journal of Thermal Analysis and Calorimetry, 123(2016), 1667-1684

57.         X. Liu, *M. Chen, Y. Wei, Assessment on oxygen enriched air co-combustion performance of biomass/bituminous coal, Renewable Energy, 92 (2016) 428-436.

58.         H.M.Liu, M.Q. Chen*, Z.L.Han, G.H.Chen, T.J.Lu. Nonisothermal kinetics based on two-stage scheme for co-drying of biomass and lignite. Chemical Engineering Communications, 203 (2016) 18-27

59.         Yu, D., Chen, M.*, 2016. Oxygen enriched co-combustion of biomass and bituminous coal. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 38, 994-1001. 

60.         Yu, D., Chen, M.*, Wei, Y., Niu, S., Xue, F., 2016. An assessment on co-combustion characteristics of Chinese lignite and eucalyptus bark with TG–MS technique. Powder Technology 294, 463-471.

61.         Xiang Liu, Meiqian Chen*, Yuanhang Wei. Kinetics based on two-stage scheme for co-combustion of herbaceous biomass and bituminous coal. Fuel,2015,143:577-585.

62.         X.Y. Zhang, M.Q. Chen*, A comparison of isothermal with nonisothermal drying kinetics of municipal sewage sludge, Journal of Thermal Analysis and Calorimetry, 123 (2016) 665-673.

63.         Y.W. Huang, M.Q. Chen*. Artificial neural network modeling of thin layer drying behavior of municipal sewage sludge. Measurement, 2015, 73:640–648.

64.         B.A. Fu, M.Q. Chen*, Y.W. Huang. Heat transfer characteristics on lignite thin-layer during hot air forced convective drying. Fuel, 2015, 154 : 132–139.

65.         Xiang Liu, Meiqian Chen*, Yuanhang Wei. Combustion behavior of corncob/bituminous coal and hardwood/bituminous coal. Renewable Energy, 2015, 81 :355-365.

66.         B.A. Fu, M.Q. Chen*. Thin-layer drying kinetics of lignite during hot air forced convection. Chemical Engineering Research and Design, 2015, 102:416-428.

67.         M. Chen, D. Yu, Y. Wei, Evaluation on ash fusion behavior of eucalyptus bark/lignite blends, Powder Technology, 286 (2015) 39-47.

68.         H. M. Liu, M. Q. Chen*, and L. Jia. Condensation Characteristics of Flue Gas Steam Mixtures with Fine Lignite and Ash Particles along Horizontal Finned Tube Bundles.Experimental Heat Transfer 2014,28:580-592

69.         M.Q. Chen*, L. Jia, X.X.Xu, P.C.Jia, F.Yang. Analysis on moisture migration of typical MSW matrixes at medium temperature. Chemical Engineering Communications,2013,200(5): 628-637.

70.         Liu, H.M., Chen, M.Q.*, Han, Z.L., Fu, B.A.. Isothermal kinetics based on two-periods scheme for co-drying of biomass and lignite. Thermochimica Acta,2013 573:25-31.

71.         Liu, X., Chen, M.*, Yu, D. Oxygen enriched co-combustion characteristics of herbaceous biomass and bituminous coal. Thermochimica Acta, 2013, 569: 17-24.

72.         M.Q. Chen, L.Jia, T.T.Zhang. Evaluation of heat transfer coefficient during drying of typical MSW matrices with significant shrinkage at medium temperature. Experimental Heat Transfer, 2012, 25(3): 238-253.

73.         陈梅倩,万锐,李正浩,王平,卢太金.垂直U型地埋管传热性能数值模拟.北京交通大学学报.2016,40(1):61-66

74.         陈梅倩,诸葛一然,卢太金,杨飞.沙土热物理特性的影响因素实验.北京交通大学学报. 2014, 38(1):128-131

75.         卢太金,陈梅倩,诸葛一然,万锐. 热泵地埋管周围土壤热湿迁移研究. 北京交通大学学报.2014, 38(6):73- 77

76.         刘翔,陈梅倩,余冬,卢太金. 草本类生物质与烟煤混烧特性及其影响因素分析.农业工程学报,2012, 28(21):200-207

77.         陈梅倩, 曾帅, 刘翔, 贾鹏程, 贾力. 层燃炉中生物质燃烧辐射传热特性的研究.工程热物理学报,2012, 33(12): 2151-2154

78.         Mei-Qian Chen, Yun-Xuan Chen, Li Jia, Yan-Guo Zhang, Qing-Hai Li, Ai-Hong Meng. Kinetic analysis on the drying of high moisture MSW. Heat Transfer - Asian Research, 2009,38(4):216-222

79.         陈梅倩, 陈允轩, 贾力, 张衍国, 李清海, 蒙爱红.焚烧炉中单元垃圾干燥过程的试验研究 .应用基础与工程科学学报, 2007,15(4):524-530

80.         陈梅倩, 张衍国, 蒙爱红, 许鑫星, 别舒, 贾力.典型垃圾基元高温干燥过程的动力学特性 .工程热物理学报, 2010,31(1):133-135

81.         陈梅倩, 别舒, 张衍国, 蒙爱红, 许鑫星, 贾力.典型垃圾基元高温干燥过程的数值模拟 .工程热物理学报, 2009,30(3):491-494

82.         蒙爱红, 李清海, 张衍国, 陈允轩, 党文达, 陈梅倩.垃圾焚烧炉干燥床垃圾干燥过程研究和分析.燃烧科学与技术, 2008,14(6):518-522

83.         Zhang, YanGuo, Chen, MeiQian, Meng, AiHong, Li, QingHai, Chen, YunXuan. Experimental study on drying of typical MSW under incinerator-like conditions. Science in China Series E-Technological Sciences,2007,50(5):636-643

84.       陈梅倩, 蒙爱红, 阮仔龙, 罗华俊, 贾力.高水分垃圾基元中温干燥特性的实验研究 .清华大学学报, 2010,50(11):1838-1842

专著/译著

李勇,陈梅倩.汽轮机运行性能诊断技术及其应用[M].北京:科学出版社,1999

专利

陈梅倩;刘环铭;贾鹏程. 圆锥转子式燃气燃烧器, 201210039034,授权公告日:2012.07.04

获奖与荣誉

中国铁道学会二等奖:铁道部项目--铁路应用地源热泵系统能耗监测及能效评价