Research Instersts

1、太阳能吸热器光热转换技术

      Solar-Thermal Conversion Technologies of Solar Receivers for Concentrating Solar Power (CSP)

2、高通量太阳能热化学转化与储能技术

      High-Temperature Solar Thermochemical Energy Storage (TCES)

3、太阳能光电催化合成氨系统集成技术(绿氨技术)

      System Integration of Photocatalytic Ammonia Synthesis (Green Synthesis of Nitrogen-to-Ammonia Fixation)

4、缠绕管式换热器设计

      Design of Wound Tube Heat Exchanger

 

 

Journal Papers

  1. J. Fang, C. Zhang, N. Tu, J. Wei, M.A. Qaisrani, J. Wei, Z. Zhou, B. Xiao, Numerical investigation on heat transfer and thermoelastic stress in a solar cavity receiver, Appl. Therm. Eng. 198 (2021) 117430.
  2. B. Yuan, L. Liu, C. Cui, J. Fang(通讯作者), Y. Zhang, J. Wei, Micro-pin-finned Surfaces with Fractal Treelike Hydrophilic Networks for Flow  Boiling Enhancement., ACS Appl. Mater. Interfaces. 13 (2021) 48189–48195.
  3. J. Fang, C. Zhang, N. Tu, J. Wei, Z. Wan, Thermal characteristics and thermal stress analysis of a superheated water/steam solar cavity receiver under non-uniform concentrated solar irradiation, Appl. Therm. Eng. 183 (2021) 116234.
  4. J. Fang, N. Tu, J.F. Torres, J. Wei, J.D. Pye, Numerical investigation of the natural convective heat loss of a solar central cavity receiver with air curtain, Appl. Therm. Eng. 152 (2019) 147–159.
  5. J. Fang, N. Tu, J. Wei, X. Du, Effects of surface optical and radiative properties on the thermal performance of a solar cavity receiver, Sol. Energy. 171 (2018) 157–170.
  6. J. Fang, N. Tu, J. Wei, T. Fang, X. Du, Numerical investigation of the tube layout effects on the heat losses of solar cavity receiver, J. Therm. Sci. Eng. Appl. 10 (2017) 011008–10.
  7. J. Fang, N. Tu, J.J. Wei, Effects of absorber emissivity on thermal performance of a solar cavity receiver, Adv. Condens. Matter Phys. 2014 (2014) ID 564639-10.
  8. J. Fang, N. Tu, J. Wei, Numerical investigation of start-up performance of a solar cavity receiver, Renew. Energy. 53 (2013) 35–42.
  9. J. Fang, J. Wei, X. Dong, Y. Wang, Thermal performance simulation of a solar cavity receiver under windy conditions, Sol. Energy. 85 (2011) 126–138.
  10. Y. Jin, J. Fang(通讯作者), J. Wei, X. Wang, A comprehensive model of a cavity receiver to achieve uniform heat flux using air-carbon particles mixture, Appl. Energy. 220 (2018) 616–628.
  11. Z. Wan, J. Wei, M.A. Qaisrani, J. Fang, N. Tu, Evaluation on thermal and mechanical performance of the hot tank in the two-tank molten salt heat storage system, Appl. Therm. Eng. 167 (2020) 114775.
  12. Y. Jin, J. Fang, J. Wei, M.A. Qaisrani, X. Wang, Thermal performance evaluation of a cavity receiver based on particle’s radiation properties during the day time, Renew. Energy. 143 (2019) 622–636.
  13. M. Khalid, J. Wei, G. Zhang, H. Xie, J. Fang, M.A. Qaisrani, Z. Wang, Mujib-Ur-Rehman, Optical performance of quasi-stationary, low-concentration, and low-profile compound parabolic concentrators, J. Renew. Sustain. Energy. 11 (2019).
  14. M.A. Qaisrani, J. Fang, Y. Jin, Z. Wan, N. Tu, M. Khalid, M.U. Rahman, J. Wei, Thermal losses evaluation of an external rectangular receiver in a windy environment, Sol. Energy. 184 (2019) 281–291.
  15. M.A. Qaisrani, J. Wei, J. Fang, Y. Jin, Z. Wan, M. Khalid, Heat losses and thermal stresses of an external cylindrical water/steam solar tower receiver, Appl. Therm. Eng. 163 (2019) 114241.
  16. Y. Jin, J. Fang, J. Wei, M.A. Qaisrani, X. Wang, Homogenization of solar flux distribution in a carbon aerosol entrapped cavity receiver, Energy. 182 (2019) 21–36.
  17. N. Tu, J. Fang, Z. Wan, J. Wei, Effects of the superheater layout on the thermal performance of a central cavity receiver, Appl. Therm. Eng. 158 (2019) 113784.
  18. Z. Wan, J. Fang, N. Tu, J. Wei, M.A. Qaisrani, Numerical study on thermal stress and cold startup induced thermal fatigue of a water/steam cavity receiver in concentrated solar power (CSP) plants, Sol. Energy. 170 (2018) 430–441.
  19. L. Zhang, J. Fang, J. Wei, G. Yang, Numerical investigation on the thermal performance of molten salt cavity receivers with different structures, Appl. Energy. 204 (2017) 966–978.
  20. N. Tu, J.J. Wei, J. Fang, Numerical investigation on uniformity of heat flux for semi-gray surfaces inside a solar cavity receiver, Sol. Energy. 112 (2015) 128–143.
  21. N. Tu, J. Wei, J. Fang, Numerical study on thermal performance of a solar cavity receiver with different depths, Appl. Therm. Eng. 72 (2014) 20–28.
  22. N. Tu, J. Wei, J. Fang, Experimental and Numerical Study on the Thermal Performance of a Water/Steam Cavity Receiver, Energies. 6 (2013) 1198–1216.
  23. M. Yuan, J. Wei, Y. Xue, J. Fang, Subcooled flow boiling heat transfer of FC-72 from silicon chips fabricated with micro-pin-fins, Int. J. Therm. Sci. 48 (2009) 1416–1422.
  24. A. Ma, J. Wei, M. Yuan, J. Fang, Enhanced flow boiling heat transfer of FC-72 on micro-pin-finned surfaces, Int. J. Heat Mass Transf. 52 (2009) 2925–2931.
  25. 张沧洪, 屠楠, 方嘉宾(通讯作者), 单侧非均匀热流边界下水/蒸汽太阳能吸热管热应力研究, 发电技术. 42 (2021) 699–706.
  26. 王新赫, 杜轩成, 刘彦铄, 张军社, 方嘉宾(通讯作者), 魏进家, 氢气和甲醇联产的太阳能化学链甲烷湿重整系统模拟, 中国科技论文. 14 (2019) 430–409.
  27. 方嘉宾, 魏进家, 董训伟, 王跃社, 腔式太阳能吸热器热性能的模拟计算, 工程热物理学报. 30 (2009) 428–432.
  28. 张莉, 方嘉宾, 魏进家, 圆锥螺旋管腔式熔融盐吸热器热性能的数值研究, 太阳能学报. 40 (2019) 1832–1836.
  29. 屠楠, 魏进家, 方嘉宾, 太阳能腔式吸热器表面反射率的选择, 工程热物理学报. 35 (2014) 700–704.
  30. 屠楠, 方嘉宾, 魏进家, 太阳能腔式吸热器不同启动状态下启动性能研究, 工程热物理学报. 33 (2012) 1900–1903.
  31. 魏进家, 屠楠, 方嘉宾, 太阳能腔式吸热器启动过程性能的数值模拟, 工程热物理学报. 32 (2011) 1023–1027.
  32. 马爱香, 魏进家, 袁敏哲, 方嘉宾, 方柱微结构表面上FC-72的流动沸腾强化换热实验研究, 工程热物理学报. 30 (2009) 66–68.

Conference Papers

  1. J. Fang, C. Zhang, N. Tu, J. Wei, T. Han, Numerical Investigation on Heat Transfer and Thermoplastic Stress in Concentrating Solar Receiver Tubes, 8th Asian Symp. Comput. Heat Transf. Fluid Flow, Qingdao, China, 2021.
  2. J. Fang, C. Zhang, N. Tu, J. Wei, T. Han, Numerical Investigation on heat transfer and thermoelastic stress induced by temperature gradients and mechanical constraints in solar receiver tubes, 13th Int. Conf. Appl. Energy, Online, 2021.
  3. J. Fang, C. Zhang, N. Tu, J. Wei, Numerical study on the thermal stress of a water/steam solar cavity receiver with boiling panels and the superheater, SolarPACES, Online, 2020.
  4. J. Fang, N. Tu, J. Wei, X. Du, Effect of surface thermal radiation properties on the heat losses of a solar cavity receiver, 9th Int. Conf. Appl. Energy, Cardiff, UK, 2017.
  5. J. Fang, J.J. Wei, Experimental and Numerical Study of Steam/Water Cavity Receiver in Solar Thermal Power Tower System, Int. Conf. Energy Environ. Econ. Sustain., Lahore, Pakistan, 2016: (特邀报告).
  6. J. Fang, N. Tu, J. Wei, Numerical Investigation on the Effect of Tube Layout on the Heat Loss of Solar Cavity Receiver, SolarPACES, Cape Town, South Africa, 2015.
  7. J. Fang, N. Tu, J. Wei, Numerical study on thermal performance of solar cavity receiver under different kinds of tube layout, 7th Int. Conf. Appl. Energy, Abu Dhabi, UAE, 2015.
  8. J. Fang, J. Wei, L. Guo, Experimental Study of the Thermal Performance of Solar Cavity Receiver during Start-Up Process, 4th Int. Symp. Heat Transf. Energy Conserv., Guangzhou, China, 2012.
  9. J. Fang, J. Wei, L. Guo, Experimental Study on Thermal Hydraulic Performance of Water/Steam Solar Cavity Receiver, Sanya Int. CSP Forum, Sanya, China, 2011.
  10. J. Fang, J. Wei, Y. Wang, Thermal performance simulation of solar cavity Receiver under diffeRent wind environment, SolarPACES, Perpignan, China, 2010.
  11. J. Fang, J. Wei, X. Dong, Y. Wang, A Calculation Method for Evaluating Thermal loss of Solar Cavity Receiver, Asia-Pacific Power Energy Eng. Conf., Wuhan,China, 2009.
  12. 方嘉宾, 阳能腔式吸热器热性能和安全可靠性, 新能源技术交流会议, 西安, 中国, 2019. (特邀报告)
  13. 方嘉宾, 杜轩成, 魏进家, 不同几何结构下太阳能腔式吸热器对流热损失的数值研究, 中国太阳能热发电大会, 呼和浩特, 中国, 2016.
  14. 方嘉宾, 屠楠, 魏进家, 不同布管方式下太阳能腔式吸热器热性能的研究, 第十四届全国过控专业校级交流会, 南昌, 中国, 2015.
  15. 方嘉宾, 屠楠, 魏进家, 吸热管布置方式对太阳能腔式吸热器热性能的影响, 中国太阳能热发电大会, 敦煌, 中国, 2015.
  16. 方嘉宾, 屠楠, 魏进家, 太阳能腔式吸热器半灰吸热表面辐射特性研究, 中国工程热物理学会多相流年会, 南京, 中国, 2015.
  17. 方嘉宾, 魏进家, 不同环境风下腔式太阳能吸热器热性能的数值模拟, 中国工程热物理学会多项流学术会议学术会议, 吉林, 中国, 2009 (邀请报告).
  18. 方嘉宾, 魏进家, 董训伟, 王跃社, 腔式太阳能吸热器热流密度及管道壁温和热损失的模拟计算, 中国工程热物理学会多项流学术会议, 青岛, 中国, 2008.

Patents

  1. 方嘉宾, 张晓君, 魏进家, 韩涛, 张慧新, 刘汉卿, 一种利用高温烟气助熔玻璃的玻璃窑炉及方法, 专利申请号: 202110962068.8
  2. 方嘉宾, 屠楠, 魏进家, 王晓文, 韩涛, 张沧洪, 一种均匀传热的太阳能甲烷重整反应装置和方法, 专利申请号: 202010027258.6
  3. 方嘉宾, 韩涛, 魏进家, 张晓君, 刘汉卿, 张慧新, 一种玻璃纤维窑炉结构, 专利申请号: 202110963478.4
  4. 方嘉宾, 窦正刚, 电机的风扇及其电机, 专利授权号: 201420570368.7
  5. 马彦花, 马英, 方嘉宾, 吴鹏, 李博文, 和婷, 郭智群, 陈蓉, 一种山地农田节能自动灌溉装置, 专利申请号: 202110652182.0
  6. 魏进家, 靳亚斌, 方嘉宾, 屠楠, 一种太阳能腔式吸热器开口处热流密度测定方法, 专利授权号: ZL201610307543.7
  7. 魏进家, 靳亚斌, 方嘉宾, 屠楠, 一种太阳能吸热器壁面热流密度均匀化装置, 专利授权号: 201620087612.3
  8. 魏进家, 靳亚斌, 方嘉宾, 屠楠, 一种太阳能吸热器壁面热流密度均匀化装置及方法, 专利授权号: 201610060469.3
  9. 贾兰苑, 方嘉宾, 电机风扇及具有该电机风扇的电机, 专利授权号: 201420569229.2
  10. 邓晓升, 何啸天, 方嘉宾, 电动机的转子支架及其电动机, 专利授权号: 201420569486.6
  11. 郭烈锦, 魏进家, 张西民, 王跃社, 方嘉宾. 一种太阳能腔式吸热器的模拟装置. 专利授权号: ZL200910021308.3
  12. 郭烈锦, 魏进家, 张西民, 王跃社, 方嘉宾. 一种太阳能腔式吸热器启动与运行的保护系统. 专利授权号:ZL201010616526.4
  13. 魏进家, 庞明军, 高秀峰, 方嘉宾. 三段式尾流增速气垫船船体. 专利授权号:ZL200910023232.8
  14. 魏进家, 薛艳芳, 方嘉宾, 高秀峰. 一种电子元器件用沸腾换热装置. 专利授权号:ZL200910022072.5
  15. 魏进家, 王剑峰, 方嘉宾, 高秀峰. 一种表面活性剂溶液的减阻特性实验装置. 专利授权号:ZL200910022073.X
  16. 魏进家, 庞明军, 高秀峰, 方嘉宾. 一种提高表面活性剂减阻流传热特性的方法和装置. 专利授权号:ZL200810232197.6
  17. 魏进家, 薛艳芳, 方嘉宾, 高秀峰, 袁敏哲. 一种芯片的沸腾强化换热结构及其制作方法. 专利授权号:ZL200810236502.9