鲁军辉

职位:

职称:讲师

邮箱:lujunhui@bucea.edu.cn

发文时间:2024-02-26 撰稿人:
  1. [1] Mu, L., Wang, S., Lu, J., Li, C., Lan, Y., Liu, G., & Zhang, T. (2024). Effect of hydrogen-enriched natural gas on flue gas waste heat recovery potential and condensing heat exchanger performance. Energy286, 129591.
  2. [2] Mu, L., Wang, S., Liu, G., Lu, J., Lan, Y., Zhao, L., & Liu, J. (2023). On-Site Experimental Study on Low-Temperature Deep Waste Heat Recovery of Actual Flue Gas from the Reformer of Hydrogen Production. Sustainability15(12), 9495.
  3. [3] Mu, L., Wang, S., Lu, J., Liu, G., Zhao, L., & Lan, Y. (2023). Effect of flue gas condensing waste heat recovery and its pressure drop on energy saving and carbon reduction for refinery heating furnace. Energy, 128081.
  4. [4] Yuncheng Lan, Junhui Lu,  Suilin Wang. Study of the geometry and structure of a thermoelectric leg with variable material properties and side heat dissipation based on thermodynamic, economic, and environmental analysis. Energy, 2023, 282: 128895.
  5. [5] Yuncheng Lan, Junhui Lu, Lianbo Mu, Suilin Wang, Huixing Zhai .Waste heat recovery from exhausted gas of a proton exchange membrane fuel cell to produce hydrogen using thermoelectric generator, Applied Energy,2023, 334,120687,
  6. [6] YunCheng Lan, Suilin Wang, Junhui Lu*, Huixing Zhai, Lianbo Mu. Comparative Analysis of Organic Rankine Cycle, Kalina Cycle and Thermoelectric Generator to Recover Waste Heat Based on Energy, Exergy, Economic and Environmental Analysis Method[J]. Energy Conversion & Management, 2022.
  7. [7] Lan Yuncheng, Lu Junhui, Li Junming, Wang Suilin. Effects of temperature-dependent thermal properties and the side leg heat dissipation on the performance of the thermoelectric generator[J]. Energy, 2022, 243.123035.
  8. [8] Lu, J., Tang, J, Li, J. et al. The comparison of adsorption characteristics of CO2/H2O and N2/H2O on activated carbon, activated alumina, zeolite 3A and 13X. Applied Thermal Engineering, 2022: 118746.
  9. [9]  Lu J., Cao H., Li J., Wang S., Heat and mass transfer during H2O/CO2 adsorption separation using activated alumina . Heat and Mass Transfer (2022). https://doi.org/10.1007/s00231-022-03206-1.
  10. [10]  Lu J., Ren K., Tang J., Wang S., Numerical simulations of laminar film condensation of H2O/Air or H2O/CO2 on a vertical plate. Heat Transfer Engineering, 2022, 1-14.
  11. [11] Lu J., Cao H., Wang S., Li J., Effects of liquid film waviness, suction, and fog formation on condensation in the presence of noncondensable gases. Progress in Nuclear Energy, 2021, 137: 103777.
  12. [12] Junhui Lu, Haishan Cao, JunMing Li*, Experimental study of condensation heat transfer of steam in the presence of non-condensable gas CO2 on a horizontal tube at sub-atmospheric pressure. Experimental Thermal and Fluid Science, 2019; 105: 278–288.
  13. [13] Junhui Lu, Haishan Cao, JunMing Li*, Condensation heat and mass transfer of steam with non-condensablegases outside a horizontal tube under free convection. International Journal of Heat and Mass Transfer, 2019; 139: 564–576.
  14. [14]  Junhui Lu, Haishan Cao, JunMing Li. Diffusion layer model for condensation of vapor with the presence of noncondensable gas under natural convective condensation. Progress in Nuclear Energy, 2020, 118: 103078.
  15. [15]  Junhui Lu, Haishan Cao, JunMing Li. Theoretical modeling of vapor condensation in the presence of non-condensable gas on a horizontal tube. Journal of Heat Transfer, 2019, 141(12): 121501.
  16.  [16] Junhui Lu, Haishan Cao, JunMing Li. Energy and cost estimates for separating and capturing CO2 from CO2/H2O using condensation coupled with pressure/vacuum swing adsorption. Energy, 2020, 202:117604.
  17. [17]穆连波,王随林,鲁军辉等.烷烃脱氢加热炉排烟余热深度回收协同烟压控制性能分析[J/OL].化工进展:1-18[2023-11-24].https://doi.org/10.16085/j.issn.1000-6613.2023-0750.
  18. [18]李聪娜,鲁军辉,胡旭等.湿烟气在开孔翅片管外凝结换热数值模拟[J].锅炉技术,2023,54(03):1-9.
  19. [19] 鲁军辉,李俊明.H2O-CO2、H2O-N2、H2O-He水平管外自然对流凝结换热特性研究[J].化工学报, 2022,73(09):3870-3879.
  20. [20] 鲁军辉,李俊明.CO2/H2O混合气体在水平管外凝结换热与分离特性研究[J].工程热物理学报,2021,42(03):706-711. (EI)
  21. [21]​ 任可欣, 鲁军辉*, 王随林, 唐进京. 低湿CO2/H2O混合气体吸附特性实验研究[J].化工进展, 2022, 41(12):13. (EI)
  22. [22]​ 唐进京, 鲁军辉*, 李俊明,王随林.CO2/H2O吸附分离特性研究[J].中国电机工程学报, 2022(006):042. (EI)
  23. [23]​ 鲁军辉, 王随林, 唐进京, 任可欣. 可再生能源与余热协同辅助碳捕集技术研究现状与展望[J].华电技术,2021,43(11):97-109.
  24. [24]​ 许雨若,王随林,穆连波,鲁军辉,王鹏.烟气热回收与净化耦合系统换热与吸收性能实验研究[J].锅炉技术,2022,53(02):6-14.
  25. [25]​ 江雨薇,王随林,鲁军辉,张彤,穆连波.低温烟气凝结换热及对天然气热效率的影响实验研究[J].锅炉技术,2021,52(02):5-11.
  26. [26]​ Hu Wen, Jun-Hui Lu*, Yang Xiao, Jun Deng. Thermogravimetric and thermal properties analysis of bituminous coal from coalfield fire area[J]. International Journal of Oil Gas and Coal Technology[J], 2016,13(1):60–72. (SCI)
  27. [27]​ Hu Wen, Jun-hui Lu, Yang Xiaoa, Jun Deng. Temperature dependence of thermal conductivity, diffusion and specific heat capacity for coal and rocks from coalfield[J]. Thermochimica Acta, 2015, (619) : 41–47. (SCI)
  28. [28]​  Yang Xiao, Jun-Hui Lu, Cai-Ping Wang, Jun Deng. Experimental Study of High-Temperature Fracture Propagation in Anthracite and Destruction of Mudstone from Coalfield Using High-Resolution Microfocus X-ray Computed Tomography [J]. Rock Mechanics and Rock Engineering, (2016) 49:3723–3734. (SCI)
  29. [29]​ Jun Deng, Yang Xiao, Junhui Lu, Hu Wen, Yongfei Jin. Application of composite fly ash gel to extinguish outcrop coal fires in China[J]. Natural Hazards, 2015, 79(2): 881–898. (SCI)
  30. [30]​ Jun Deng, Yang Xiao, Qingwei Li, Junhui Lu, Hu Wen. Experimental studies of spontaneous combustion and anaerobic cooling of coal[J]. Fuel, 2015 (157): 261–269. (SCI)
  31. [31]​ Yang Xiao, Rui Zhao, Qing-Xiang Huang, Jun Deng, Jun-Hui Lu. Numerical tests on thermal cracking characteristics of rocks with different scales[J]. Advances in Mechanical Engineering, 2018, Vol. 10(8): 1–11. (SCI)
  32. [32]​ 鲁军辉, 李俊明*.含不凝性气体蒸汽水平管外凝结的传热传质影响因素分析,中国制冷学会年会. 2017.
  33. [33]​ 文虎, 鲁军辉, 李青蔚, 张丹丹. 不同低变质煤自然升温特性参数实验研究[J]. 煤炭工程, 2014, 47(7): 97–100.
  34. [34]​ 郑学召, 鲁军辉, 肖旸, 赵彦辉, 李青蔚. 高水分含量对煤自然发火特性参数影响的试验研究[J] . 安全与环境学报, 2014, 14 (4): 71–75.
  35. [35]​ 肖旸, 周一峰, 马砺, 鲁军辉. 热–力作用对岩石热破坏模式及其阈值影响的数值模拟[J]. 西安科技大学学报, 2017, 37 (5):630–635.
  36. [36]​ 马砺, 刘庚, 肖旸, 鲁军辉, 何勇军. 煤田火区发展演化的多场耦合作用过程[J].科技导报, 2016, 34(2):190–194.
  37. [37]​ 肖旸, 周一峰, 马砺, 鲁军辉. 煤田火区煤体裂隙演化过程中温–压耦合模型研究[J]. 煤矿安全, 2017, 48(3):32–35.
  38. [38]​ 金永飞, 靳运章, 鲁军辉, 路燕涛, 陈柏成. 2002–2014 年我国煤矿重特大事故特征及发生规律研究[J]. 安全与环境学报, 2017, 17 (2): 799–803.
  39. [39]​ 肖旸,李青蔚, 鲁军辉. 空气相对湿度对煤自燃特性的影响研究[J]. 中国安全科学学报, 2015, 15 (3): 35–40.
  40. [40]​ 张辛亥, 李青蔚, 肖旸, 鲁军辉. 风化煤自燃性程序升温氧化实验研究[J]. 矿业安全与环保, 2015, 42( 5) : 5–9.
访问量: 开通时间 :2020-10-31 最后更新时间 :2024-02-26