• 电话:0531-55721501
  • 传真:0531-55721513
  • 邮编:250101
  • 邮箱:fangzh_45@163.com

      著作

      “隔热”,《化工百科全书,第五卷》,北京:化学工业出版社,1994

      《高等传热学》,北京:高等教育出版社,2003

      《中央空调维护保养实用技术》,(主审),北京:中国建筑工业出版社,2003

      《医院空调设计手册》(译著),北京:科学出版社,2004

      《地埋管地源热泵技术》,北京:高等教育出版社,2006

      《高等传热学(第二版)》,北京:高等教育出版社,2008  附:习题参考答案

      《Heat Transfer Modeling of the Ground Heat Exchangers for the Ground-Coupled Heat Pump Systemsin Modeling and Optimization of Renewable Energy Systems, ISBN: 978-953-51-0600-5, InTech, 2012

      专利名称

      申请(专利)

      授权公告号

      申请公布号

      1

      地热弹簧

      CN03216680.X

      CN2624130

      2

      地热弯头

      CN03216681.8

      CN2665497

      3

      地源热泵空调/制冷复合系统

      CN200820022371.X

      CN201203296

      4

      地源热泵空调/制冷复合系统

      CN200810016312.6

      CN101270933

      5

      一种地埋管换热器钻孔回填材料

      CN200610043807.9

      CN1887778

      6

      一种地埋管换热器钻孔回填材料

      CN200610043808.3

      CN1868959

      7

      一种地埋管换热器钻孔回填材料

      CN200610043809.8

      CN1868960

      8

      地源热泵地埋管回填设备

      CN200910215107.7

      CN101761235A

      9

      非恒定功率条件下岩土热物性现场测试方法

      CN200810238160.4

      CN101430317

      10

      桩埋螺旋管式地源热泵系统及其地热换热器的传热模型

      CN200810159583.7

      CN101408359

      11

      基于地源热泵的便携式岩土热物性测试仪及其方法

      CN200610042581.0

      CN1815211

      12

      利用地埋管换热的季节性蓄热系统

      CN201210198774.0

      CN102692150A

      13

      高精度温湿度传感器

      CN89205591.X

      CN2055247

      14

      地源热泵地埋管回填设备

      CN200920351363.4

      CN201605812U

      15

      发表的主要论文 (部分供下载)

    • 1. Wenke Zhang, Hongxing Yang, Lin Lu, Zhaohong Fang, Investigation on heat transfer around buried coils of pile foundation heat exchangers for ground-coupled heat pump applications, International Journal of Heat and Mass Transfer,(55): 21-22, 6023–6031, 2012.下载
    • 2. H. Zhao, P. Cui, L. Lu, Z. Fang. Numerical Analysis of the Thermo-Mechanical Behavior of Energy Piles, Proceedings of the International Conference on Sustainable Energy Technologies (SET2012), #152, Vancouver, 2012
    • 3. Fang Zhaohong, Diao Rairen, Yang Hongxing, Zhang Wenke. Combined conduction and advection heat transfer around a buried coil, Proceedings of the 8thInternational Symposium on Heat Transfer, ISHT8-07-09, Beijing, 2012下载
    • 4. Yi Man, Hongxing Yang, Jinggang Wang, Zhaohong Fang. In situ operation performance test of ground coupled heat pump system for cooling and heating provision in temperature zone. Applied Energy; 97: 913-920. 2012
    • 5. Yi Man, Ping Cui and Zhaohong Fang (2012). Heat Transfer Modeling of the Ground Heat Exchangers for the Ground-Coupled Heat Pump Systems, Modeling and Optimization of Renewable Energy Systems, Dr. Arzu ?encan (Ed.), ISBN: 978-953-51-0600-5, InTech, 2012
    • 6. 方肇洪。地源热泵技术的研究与应用,山东建筑大学学报,27(10):8-11, 2012
    • 7. 于晓菲,于明志,张磊,方肇洪。基于实心圆柱面热源模型的岩土热物性测试方法,化工学报,63:84-87,2012
    • 8. 刁乃仁,崔萍,方肇洪。竖直地埋管换热器的传热分析方法概述,地源热泵,(5):5-10,2012
    • 9. 崔萍,刁乃仁,张方方,方肇洪。竖直地埋管换热器设计原理与模拟软件,地源热泵,(6):5-13,2012
    • 10. 崔萍,刁乃仁,方肇洪。竖直地埋管换热器设计方法与应用,地源热泵,(7):5-11,2012
    • 11. 刁乃仁,崔萍,方肇洪。竖直地埋管换热器设计及系统优化,地源热泵,(8):5-12,2012
    • 12. 方肇洪,刁乃仁,崔萍。有均匀渗流的介质中螺旋埋管的传热分析,地源热泵,(9):6-10,2012
    • 13. 刁乃仁,崔萍,方肇洪。竖直地埋管换热器常见设计问题分析,地源热泵,(10):5-10,2012
    • 14. Yi Man, Hongxing Yang, Nairen Diao, Ping Cui, Lin Lu & Zhaohong Fang. Development of spiral heat source model for novel pile ground heat exchangers. HVAC&R Research. 17(6): 1075-1088, 2011
    • 15. Yi Man, Hongxing Yang, Jeffrey D. Spitler, Zhaohong Fang. Feasibility study on novel hybrid ground coupled heat pump system with nocturnal cooling radiators for cooling load dominated buildings. Applied Energy; 88: 4160-4171. 2011下载
    • 16. Ping Cui, Xin Li, Yi Man, Zhaohong Fang, Heat transfer analysis of pile geothermal heat exchangers with spiral coils,Applied Energy, 88: 4113-4119. 2011下载
    • 17. Molina-Giraldo, N., Blum, P., Zhu, K., Bayer, P., Fang, Z., A moving finite line source model to simulate borehole heat exchangers with groundwater advection, International Journal of Thermal Sciences, 50(12): 2506-2513, 2011下载
    • 18. Mingzhi Yu, Xiaofei Yu, Lei Zhang and Zhaohong Fang. Method for determining deep ground thermal properties based on solid cylindrical heat source model, Applied Mechanics and Materials, 99-100: 881-884, 2011
    • 19. Mingzhi Yu, Xiaofei Yu, Lei Zhang and Zhaohong Fang. Numerical heat transfer model of buried pipe and ground thermal conductivity measurement, Applied Mechanics and Materials, 99-100: 112-115, 2011
    • 20. 李新,方亮,赵强,方肇洪。 螺旋埋管地热换热器的线圈热源模型及其解析解, 热能动力工程, 26(4):475~479,2011 下载
    • 21. 张磊,于明志,于晓菲,刘玉旺,方肇洪。地埋管数值传热模型及地下岩土导热系数测量,2011年全国工程热物理年会,西安,2011
    • 22. 于晓菲,于明志,张磊,方肇洪。基于实心圆柱面热源模型的岩土热物性测试方法,2011年全国工程热物理年会,西安,2011
    • 23. 崔萍,赵衡,方肇洪。能量桩技术—机遇与挑战,地源热泵,12: 24-29, 2011
    • 24. 方肇洪,张方方,吴建华,宋子海。地源热泵钻孔回填材料与设备,地源热泵,10: 26-29, 2011
    • 25. Zhaohong Fang, Nairen Diao, Ping Cui and Mingzhi Yu. The Ground-Coupled Heat Pump Technology in China, Proceedings of the 1st International Conference of Sustainable Urbanization, Hong Kong, 2010
    • 26. Man Y., Yang H., Diao N., Liu J. & Fang Z. A new model and analytical solutions for borehole and pile ground heat exchangers. International Journal of Heat and Mass Transfer 53: 2593-2601, 2010下载
    • 27. Diao Nairen, Cui Ping, Liu Junhong and Fang Zhaohong. R&D of the ground-coupled heat pump technology in China, Frontiers of Energy and Power Engineering in China, 4(1): 47-54, 2010下载
    • 28. Yang H, Cui P and Fang Z. Vertical-Borehole Ground-Coupled Heat Pumps: A Review of Models and Systems, Applied Energy, 87: 16-27, 2010.下载
    • 29. Yi Man, Hongxing Yang, Jinggang Wang, Zhaohong Fang. Operation performance investigation of ground coupled heat pump system for temperate region. International Journal of Low-Carbon Technologies; 6: 107-118. 2010下载
    • 30. Cui P, Diao N R, Yang H X and Fang Z H. Simulation Modelling and Design Optimization of Vertical Ground Heat Exchanger-GeoStar Program. Proceedings of the 9th International Conference on Sustainable Energy Technologies; Shanghai, China, 2010
    • 31. 樊玉杰,吴建华,张方方,方肇洪。地源热泵与太阳能供热空调复合系统的工程应用,中国建设信息供热制冷,2010(3):65-69, 2010
    • 32. 林芸,赵强,方肇洪。水平螺旋地埋管地源热泵的研究,暖通空调,40(4):104-109, 2010。
    • 33. 刘俊红,张文克,方肇洪。 桩埋螺旋管式地热换热器的传热模型,山东建筑大学学报,25(2):95-100,2010。
    • 34. 石磊,张方方,林芸,李新,刘俊红,方肇洪。桩基螺旋埋管换热器温度场分析,山东建筑大学学报,25(2):177-183,2010。
    • 35. 张方方,方肇洪。平板焊接热影响区的传热模型及其分析,焊接学报,31(7):109-112, 2010。
    • 36. Man Y., Yang H., Diao N., Liu J. & Fang Z. A new model and analytical solutions for borehole and pile ground heat exchangers. International Journal of Heat and Mass Transfer 53: 2593-2601, 2010
    • 37. Diao Nairen, Cui Ping, Liu Junhong and Fang Zhaohong. R&D of the ground-coupled heat pump technology in China, Frontiers of Energy and Power Engineering in China, 4(1): 47-54, 2010
    • 38. Cui P, Diao N R, Yang H X and Fang Z H. Simulation Modelling and Design Optimization of Vertical Ground Heat Exchanger-GeoStar Program. Proceedings of the 9th International Conference on Sustainable Energy Technologies; Shanghai, China, 2010
    • 39. Zhaohong Fang, Nairen Diao, Ping Cui and Mingzhi Yu. The Ground-Coupled Heat Pump Technology in China, Proceedings of the 1st International Conference of Sustainable Urbanization, Hong Kong, 2010
    • 40. Man Y., Yang H., Diao N., Liu J. & Fang Z. A new model and analytical solutions for borehole and pile ground heat exchangers. International Journal of Heat and Mass Transfer 53: 2593-2601, 2010
    • 41. Cui P, Diao N R, Yang H X and Fang Z H. Simulation Modelling and Design Optimization of Vertical Ground Heat Exchanger-GeoStar Program. Proceedings of the 9th International Conference on Sustainable Energy Technologies; Shanghai, China, 2010
    • 42. 崔萍,刁乃仁,杨洪兴,方肇洪,竖直地埋管换热器优化设计与模拟软件,建筑热能通风空调, 29(5),2010:50-54
    • 43. 樊玉杰,吴建华,张方方,方肇洪。地源热泵与太阳能供热空调复合系统的工程应用,中国建设信息供热制冷,2010(3):65-69, 2010
    • 44. 林芸,赵强,方肇洪。水平螺旋地埋管地源热泵的研究,暖通空调,40(4):104-109, 2010。
    • 45. 刘俊红,张文克,方肇洪。 桩埋螺旋管式地热换热器的传热模型,山东建筑大学学报,25(2):95-100,2010。
    • 46. 石磊,张方方,林芸,李新,刘俊红,方肇洪。桩基螺旋埋管换热器温度场分析,山东建筑大学学报,25(2):177-183,2010。
    • 47. 张方方,方肇洪。平板焊接热影响区的传热模型及其分析,焊接学报,31(7):109-112, 2010。
    • 48. 于明志,隋晓凤,刘玉旺,方肇洪,含湿率对多孔介质内水分分布及扩散的影响和机理分析,2010中国工程热物理学术会议论文集;2010
    • 49. Fang Z H, Diao N R, Cui P, Liu J H. R&D of the Ground-Coupled Heat Pump Technology in China, Proceedings of the 8th Sustainable Energy Technology International Conference, Aachen, 2009
    • 50. P. Cui, H. Yang, Z. Fang, Energy and exergy analysis of Hybrid Ground-Coupled Heat Pumps with hot water supply, International Journal of Exergy, 6(3): 388 – 404. 2009.
    • 51. Fang Z H, Diao N R, Cui P, Liu J H. R&D of the Ground-Coupled Heat Pump Technology in China, Proceedings of the 8th Sustainable Energy Technology International Conference, Aachen, 2009
    • 52. Mingzhi Yu, Yuwang Liu, Xiaofeng Sui, and Zhaohong Fang, Influence of water distribution and evolution on measuring accuracy of unconsolidated porous media thermal conductivity,2nd ASME Micro/Nanoscale Heat & Mass Transfer International Conference, December 18-21, 2009
    • 53. Yu Mingzhi, Sui Xiaofeng, Peng Xiaofeng, and Fang Zhaohong, Influence of moisture content on measurement accuracy of porous media thermal conductivity, Heat Transfer-Asian Research, 2009, 38(8): 492-500,
    • 54. 方亮,张方方,方肇洪。关于地埋管换热器热响应试验的讨论,建筑热能通风空调,28(4):48-51,2009
    • 55. 刘玉旺,于明志,王淑香,方肇洪,地埋管换热器回填材料导热系数实验研究,山东建筑大学学报,2009, 24(5):449-453;
    • 56. Man Yi, Yang Hongxing and Fang Zhaohong. Study on hybrid ground-coupled heat pump systems, Energy and Buildings, 40: 2028-2036, 2008.
    • 57. Zhou W, Yang H X and Fang Z H. Battery Behavior Prediction and Battery Working States Analysis of a Hybrid Solar-Wind Power Generation System. Renewable Energy. 2008; 33 (6): 1413-1423.
    • 58. 方肇洪。地源热泵与建筑节能,中国建设信息-供热制冷,2008(10):24-25,2008
    • 59. 于玮,樊玉杰,方肇洪。建筑冷热负荷对地源热泵系统的影响,暖通空调,38(8):73-77,2008
    • 60. 赵强,方肇洪,吴建华 某地源热泵系统分析与优化. 中国建设信息供热制冷. 2008;
    • 61. 刁乃仁,赵强,方肇洪 北京山水文园地源热泵复合系统方案设计. 地源热泵. 2008(3), 51-56;
    • 62. 于明志,隋晓凤,彭晓峰,方肇洪,含湿率对多孔介质热导率测量准确性的影响,化工学报,2008,59 (11): 2768-2773
    • 63. 赵啸琳,于明志,方肈洪,李宪春,岩土热物性测量用地热换热器传热模型分析,高等学校工程热物理第十四届全国学术会议,2008.
    • 64. Ping Cui, Hongxing Yang, Jeffrey D. Spitler, Zhaohong Fang. Simulation of hybrid ground-coupled heat pump with domestic hot water heating systems using HVACSIM+. Energy and Buildings, 40( 9): 1731-1736, 2009
    • 65. Zhaohong Fang, Nairen Diao, Mingzhi Yu and Ping Cui, Thermal analysis of geothermal heat exchangers in ground-coupled heat pump systems, Proceedings of The 9th International Energy Agency Heat Pump Conference, 4.16, Zurich, 2008
    • 66. P. Cui, H. Yang and Z. Fang, Numerical analysis and experimental validation of heat transfer in ground heat exchangers in alternative operation modes,Energy and Buildings, 40(6): 1060-1066, 2008
    • 67. Yu M Z, Peng X F, Fang Z H, Water Morphologies and Distribution in Wet Soil and Sands,ASME Micro/Nano Scale Heat Transfer International Conference, Tainan, 2008
    • 68. Xiaolin Zhao, Mingzhi Yu, and Zhaohong Fang, Heat Transfer Model for In Situ Measurement of Ground Thermal Properties with Unsteady Input Power, proceedings of the 7th International Symposium on Heat Transfer, Beijng, 2008
    • 69. Li Min, Diao Nai-ren, Fang Zhao-hong. Analysis of Seepage Flow in a Confined Aquifer with a Standing Column Well [J]. Journal of Hydrodynamics, Ser. B, 19(1): 84-91, 2007
    • 70. Ping Cui, Hongxing Yang, Zhaohong Fang. Investigation on the Operating Performance of Hybrid Ground Coupled Heat Pump Systems: a Case Study in Hong Kong, 6th International Conference on Sustainable Energy Technologies. Santiago, Chile,5-7th September 2007.
    • 71. Ping Cui, Hongxing Yang, Zhaohong Fang. Simulation modeling and design optimization of ground source heat pump systems. The Hong Kong Institution of Engineers Transactions, 14(1): 1-6, 2007
    • 72. Liangliang Sun, Mingzhi Yu and Zhaohong Fang, Thermal conductivity measurements of grouts using transient plane source method, 2007
    • 73. Ping Cui, Hongxing Yang, Zhaohong Fang. Heat transfer analysis of ground heat exchangers with inclined boreholes. Applied Thermal Engineering, 2006, 26(11-12): 1169-1175. 2006
    • 74. Z Fang, N Diao, M Yu and P Cui, , Proceedings of the 13th International Heat Transfer Conference, HEX-01, Sydney, 2006
    • 75. Zhou W, Yang HX and Fang ZH. Wind power potential and characteristic analysis of the Pearl River Delter region, China, Renewable Energy, Vol.31, pp.739-753, 2006.
    • 76. Zhou W, Yang HX, Fang ZH. Solar-Wind Power Potential Analysis of Bohai Sea Rim Region, China. World Renewable Energy Congress. Florence, Italy. P. 336. 2006
    • 77. 曲云霞,李安桂,张林华,方肇洪。闭环地源热泵系统建模,西安建筑科技大学学报(自然科学版),39(2):235-240,2007
    • 78. 方肇洪,刁乃仁,于明志,崔萍。地埋管地源热泵技术的研究和应用,,No.6: 12-16, 2007
    • 79. 于明志,彭晓峰,方肇洪,沙土孔隙内水分形态及分布, 山东建筑大学学报,2007,22(6):88-92
    • 80. 于明志,彭晓峰,方肇洪,地下岩土热物性及地下水渗流速度确定,应用基础与工程科学学报,2007,15(2):196-202
    • 81. 于明志,彭晓峰,方肇洪,李晓东,基于线热源模型的地下岩土热物性测试方法,太阳能学报,27(3):279-283,2006
    • 82. 于明志,彭晓峰,方肇洪,多孔介质中正逆向相变共存现象及机制,2006中国工程热物理学术会议论文集,433-438, 2006
    • 83. 于明志,彭晓峰,方肇洪,松散堆积沙中的水分形态及传递特性,2006中国工程热物理学术会议论文集,429-433, 2006
    • 84. 于明志,彭晓峰,方肇洪,沙土孔隙内水分分布实验研究,2006全国暖通空调制冷学术年会论文集. 2006
    • 85. 于明志,彭晓峰,方肇洪,李晓东,地下水渗流速度及土壤热物性. 2006全国暖通空调制冷学术年会论文集, 2006
    • 86. Ping Cui, Hongxing Yang, Zhaohong Fang. A Simulation Study on a New Hybrid GCHP System in Hong Kong. 5th International Conference on Sustainable Energy Technologies. 537-543, Vicenza, Italy 2006
    • 87. P. Cui, Y. Man and Z. H. Fang. Modeling of heat transfer in geothermal heat exchangers, Journal of Harbin Institute of Technology, 13 (9): 313-318, 2006.
    • 88. 陈卫翠,刘巧玲,贾立群,孙亮亮,方肇洪。地源热泵高性能回填材料,暖通空调,36(9):1-6,2006
    • 89. 于明志、彭晓峰、方肇洪,基于线热源模型的地下岩土热物性测试方法,太阳能学报,279-283,2006
    • 90. 满意,方肇洪。 地源热泵复合系统,地源热泵,1(1):52-56,2006
    • 91. 陈卫翠; 李旻; 刁乃仁; 方肇洪; 竖直埋管地热换热器的设计和参数分析,地源热泵,1(2):19-23,2006
    • 92. 孙亮亮,陈卫翠,方肇洪。利用瞬态平面热源法测定材料的导热系数,山东建筑工程学院学报,1378-1385,2006
    • 93. 李旻,刁乃仁,方肇洪,单井回灌地源热泵地下传热数值模型研究,太阳能学报,2006
    • 94. 李旻,刁乃仁,方肇洪,单井回灌地源热泵承压含水层渗流解析解,山东建筑工程学院学报,21(1):1-5,2006
    • 95. Ping Cui, Hongxing Yang, and Zhaohong Fang, A systematic simulation model and experiments on vertical ground heat exchangers in GCHP systems, Proceeding of the 6th International Conference on Tall Buildings, Hong Kong, P 881-887, 2005
    • 96. Zhou W, Yang H X, Fang Z H. A Novel Model for PV Module Energy Performance Prediction. 15th International Photovoltaic Science & Engineering Conference. Shanghai, China. 2005; 724-728.
    • 97. Weicui Chen, Ping Cui and Zhaohong Fang, Analyses on Temperature Distribution around an Inclined Borehole in Ground Heat exchangers, Proceeding of the 4th International Conference on Sustainable Energy Technologies. 273-276, 2005
    • 98. Min Li, Nairen Diao and Zhaohong Fang, Analytical Solution of Seepage Flow in a Confined Aquifer with a Standing Column Well, Proceeding of the 4th International Conference on Sustainable Energy Technologies. 226-230, 2005
    • 99. Binjian Chen, Zhaohong Fang and Jing Zhao, Fuel cell technologies in China, Proceeding of The 4th International Conference on Sustainable Energy Technologies. 411-414, 2005
    • 100. M. Z. Yu, X. F. Peng, Z. H. Fang, Water Transportation in Porous Media at Pore Scale, Proceedings of 2005 ASME Summer Heat Transfer Conference, 2005.
    • 101. 陈卫翠,崔萍,方肇洪, 倾斜埋管地热换热器稳态温度场分析,山东建筑工程学院学报,20(3),2005
    • 102. 潘雷,陈宝明,方肇洪,韩保华,郑宜涛。热箱法现场检测建筑物围护结构热阻的探讨,建筑热能通风空调,24(2):74-77,2005
    • 103. Nairen Diao, Qingyun Li and Zhaohong Fang, Heat Transfer in Ground Heat Exchangers with Groundwater Advection, International Journal of Thermal Sciences, 43 (12): 1203-1211, 2004
    • 104. Nairen Diao, Heyi Zeng and Zhaohong Fang, Improvement on Modeling of Heat Transfer in Vertical Ground Heat Exchangers, International Journal of HVAC&R Research, 10 (4): 459-470, 2004
    • 105. Yu MZ, Peng XF, Li XD, Fang ZH, A simplified model for measuring thermal properties of deep ground soil, Experimental Heat Transfer, 17(2): 119-130, 2004.下载
    • 106. M. Z. Yu, X. F. Peng, Z. H. Fang, Water morphology and transportation in unconsolidated porous media, International Forum on Heat Transfer, Kyoto, Japan, 299-300, 2004.
    • 107. Su D C, Diao N R and Fang Z H, , in Heat Transfer Science and Technology 2004, Proceeding of 6th International Symposium on Heat and Mass Transfer, Beijing, 362-367, 2004.
    • 108. Yu M Z, Peng X F, Fang Z H and Li X D, A model for determining deep ground thermal properties accounting for water advection, in Heat Transfer Science and Technology 2004, Proceeding of 6th International Symposium on Heat and Mass Transfer, Beijing, 665-669, 2004.
    • 109. Nairen Diao, Dengchao Su and Zhaohong Fang,Heat Transfer Analysis of Vertical Ground Heat Exchangers,in Proceedings of the 3rd International Conference on Sustainable Energy Technologies, Nottingham, U.K., PRT007, 2004
    • 110. 曾和义, 刁乃仁, 方肇洪,竖直埋管地热换热器钻孔内的传热分析,太阳能学报,25(3):399-403, 2004 下载
    • 111. 方肇洪,刁乃仁,地热换热器的传热分析,工程热物理学报,23(1):11-20,2004 下载
    • 112. 刁乃仁,方肇洪,地源热泵-建筑节能新技术,建筑热能通风空调,23(3):18-23,2004 下载
    • 113. 刁乃仁,苏登超,方肇洪. 常用水源热泵空调系统分析,工程建设与设计,No.4: 8-12, 2004.
    • 114. 李琴云,刁乃仁,方肇洪,竖直埋管地热换热器的设计,可再生能源,1:41-44,2004
    • 115. 方肇洪,地源热泵技术集成及其推广应用,通用机械,2004(9):13-17, 2004
    • 116. 周伟,方肇洪,曲云霞,循环液物性对地源热泵性能影响因素分析,制冷与空调,4(2):17-21,2004。 下载
    • 117. 陈彬剑,方肇洪,燃料电池技术的发展现状,节能与环保,No. 8:36-39,2004。
    • 118. 范军,刁乃仁,方肇洪,竖直 U型埋管地热换热器两支管间热量回流的分析,山东建筑工程学院学报,19(1):1-4,2004
    • 119. Zeng H Y, Diao N R and Fang Z H, Heat transfer analysis of boreholes in vertical ground heat exchangers, International Journal of Heat and Mass Transfer, 46 (23): 4467-4481, 2003.下载
    • 120. Zeng H Y, Diao N R and Fang Z H, Efficiency of vertical geothermal heat exchangers in ground source heat pump systems, Journal of Thermal Science, 12(1): 77-81, 2003
    • 121. 曾和义,方肇洪,双U 型埋管地热换热器的传热模型,山东建筑工程学院学报,18(1):11-15, 2003. 下载
    • 122. 曾和义,刁乃仁,方肇洪,地源热泵竖直埋管的有限长线热源模型,山东建筑工程学院学报,2003
    • 123. 刁乃仁,曾和义,方肇洪,竖直U型管地热换热器的准三维传热模型,热能动力工程,18(4):387-390,2003 下载
    • 124. 于明志,彭晓峰,方肇洪,用于现场测量深层岩土导热系数的简化方法,热能动力工程,18(5):512-514,2003
    • 125. 张林华,曲云霞,方肇洪,李安桂,地源热泵机组压缩机的合理匹配,流体机械,2003,31(7):59-63。
    • 126. 曲云霞,方肇洪,张林华,李安桂,太阳能辅助供暖的地源热泵经济性分析,可再生能源,2003(1): 8-10。
    • 127. 曲云霞,方肇洪,张林华,周伟,地表水源热泵系统的设计,可再生能源,3: 30-32, 2003
    • 128. 曲云霞,张林华,方肇洪,地源热泵系统辅助散热设备及其经济性能,可再生能源,2003(4),9-11。
    • 129. 周伟,方肇洪,曲云霞,防冻液对热泵机组换热性能的影响,建筑热能通风空调,22(4):26-29。2003. 下载
    • 130. 周伟,曲云霞,方肇洪, 冷凝器换热模型与仿真, 山东建筑工程学院学报, 2003, 18(1): 10-13. 7
    • 131. 李琴云,刁乃仁,方肇洪,美国开式回路地源热泵利用地下水的若干规定,节能与环保,No.3,40-42,2003 下载
    • 132. 刁乃仁,李琴云,方肇洪,有渗流时地热换热器温度响应的解析解,山东建筑工程学院学报, 2003, 18(3): 1-5。
    • 133. 苏登超,刁乃仁,方肇洪,热泵与建筑节能,能源技术,2003,24(1):28-29
    • 134. 方肇洪,刁乃仁,地热换热器的传热分析,中国工程热物理学会传热传质学学术会议论文集,1106-1112,北京,2003
    • 135. 刁乃仁,方肇洪,地源热泵竖直埋管换热器设计及其影响因素,中加建筑节能科技合作项目建筑节能技术西部研讨会论文集,178-189,兰州,2003
    • 136. 刁乃仁,方肇洪,地源热泵地热换热器设计与应用,第三步建筑节能(65%)技术与工程研讨会文集,67-77,北京,2003
    • 137. 刁乃仁,方肇洪,李琴云,影响竖直U型埋管地热换热器设计因素探讨,2003鲁港建筑设备工程技术交流研讨会,青岛,B13-18,2003
    • 138. 曾和义,刁乃仁,方肇洪,竖直埋管地热换热器的效能,中国建筑学会热能动力分会第12届学术交流大会,郑州,154-159,2003。
    • 139. 曲云霞,张林华,方肇洪,地源热泵应用于小型住宅的可行性研究,中国建筑学会热能动力分会第12届学术交流大会,郑州,359-362,2003。
    • 140. 方肇洪,刁乃仁,地源热泵与建筑节能,建筑新技术,中国建筑工业出版社,79-85,2003。
    • 141. Zeng H Y, Diao N R and Fang Z H, A finite line-source model for boreholes in geothermal heat exchangers, Heat Transfer – Asian Research, 31(7), 558-567, 2002下载
    • 142. Fang Z H, Diao N R and Cui P, Discontinuous operation of geothermal heat exchangers, Tsinghua Science and Technology, 7(2): 194-197, 2002. 下载
    • 143. Diao N R, Cui P and Fang Z H, The thermal resistance in a borehole of geothermal heat exchanger, Proc. 12th International Heat Transfer Conference, 339-343, France, 2002.
    • 144. Yu M Z, Diao N R, Su D C and Fang Z H, A Pilot Project of the Closed-Loop Ground- Source Heat Pump System in China, Proceeding of IEA 7th Heat Pump Conference, 356-364, Beijing, 2002.
    • 145. 于明志,方肇洪. 现场测试地下岩土平均热物性参数方法,热能动力工程,17(5):489-492,2002.
    • 146. 曲云霞,方肇洪,张林华,李安桂,地源热泵系统中防冻液的传热能力分析,流体机械,2002,31(10):47-51
    • 147. 曲云霞,张林华,方肇洪,李安桂,地源热泵地下环路的设计方法,流体机械,30(9),50-52,2002
    • 148. 曲云霞,张林华,方肇洪,李安桂,地下水源热泵及其设计方法,可再生能源,2002(6),11-14。
    • 149. 刁乃仁 方肇洪 过增元,地源热泵空调系统的研究开发与应用,节能与环保,No.1,23-26,2002 
    • 150. 方肇洪,刁乃仁,苏登超,建筑热泵空调的技术济济分析,山东暖通空调,No. 3, 2-7, 2002
    • 151. 于明志,方肇洪. 现场测量深层岩土热物性方法,工程热物理学报,23(3):354-356,2002 下载
    • 152. 刁乃仁,黄鸿翔,方肇洪,地源热泵—建筑节能新技术,建设科技,10,2002
    • 153. 曾和义,刁乃仁,方肇洪. 竖直埋管地热换热器的稳态温度场分析. 山东建筑工程学院学报, 17(1):1-6, 2002
    • 154. 曾和义,方肇洪. U型埋管地热换热器中介质轴向温度的数学模型. 山东建筑工程学院学报,2002, 17(1): 7-12.
    • 155. 柳晓雷,王德林,方肇洪,竖直埋管地热换热器的传热模型与计算,建筑热能通风空调,21(2),1-3,2001
    • 156. 曲云霞,张林华,方肇洪,地源热泵地热换热器的合理设计,山东暖通空调,10(4),4-8,2001
    • 157. 方肇洪,刁乃仁,苏登超,崔萍,竖直U型埋管地源热泵空调系统的设计与安装,现代空调,Vol. 3,101-105,中国建筑工业出版社,2001
    • 158. 崔萍,方肇洪,改进的常功率平面热源法,山东建筑工程学院学报,16(2), 48-52,2001
    • 159. 柳晓雷,王德林,方肇洪,垂直埋管地源热泵的圆柱面传热模型及简化计算,山东建筑工程学院学报,16(1), 2001
    • 160. 崔萍,刁乃仁,方肇洪,地源热泵间歇运行对地热换热器的影响,山东建筑工程学院学报,2001,16(1), 52-57, 2001 下载
    • 161. 方肇洪,柳晓雷,岳光溪,模式壁上稳态热流测量技术的误差分析,热能动力工程,14(5),350-352,1999
    • 162. 方肇洪, 解东来,刁乃仁,Error Analysis of Heat Flux Measurement on Membrane Waterwalls, Heat Transfer 1998, Vol.4, 97-100: 11th International Heat Transfer Conference, Korea, 1998.
    • 163. 方肇洪,解东来,刁乃仁,J.R. Grace and C.J. Lim, A New Method for Solving the Inverse Conduction Problem in Steady Heat Flux Measurement, Int. J. Heat Mass Transfer, 40(16), 1997
    • 164. 方肇洪, Local Heat Transfer in Circulating Fluidized Beds, Heat Transfer Science and Technology 1996, Higher Education Press, 1996
    • 165. 解东来,方肇洪, Heat Conduction in Membrane Waterwalls, Heat Transfer Science and Technology 1996, Higher Education Press, 1996
    • 166. 方肇洪,J. R. Grace, C. J. Lim, Local Particle Convective Heat Transfer along Surfaces in Circulating Fluidized Beds, Int. J. Heat Mass Transfer, 38, 1217-1224, 1995 (国际传热传质杂志:循环流化床中的局部对流换热)
    • 167. 方肇洪,J. R. Grace, C. J. Lim, Radiative Heat Transfer in Circulating Fluidized Beds, J. Heat Transfer, 117, 963-968, 1995 (美国机械工程师学会学报--传热杂志:循环流化床中的辐射换热)
    • 168. 陈宝明,方肇洪,王补宣,Natural Convective Heat and Mass Transfer by the Coupling of Temperature Gradient and Concentration Gradient in a Porous Medium, Journal of Hydrodynamics, Ser. B, 1, 45-49, 1995
    • 169. 陈宝明,王补宣,方肇洪,多孔介质自然对流中温度梯度与浓度梯度的相互耦合,工程热物理学报, 16 (2), 210-214, 1995
    • 170. 方肇洪,刁乃仁,Thermal Conductivity Measurement of Solids by the Revised Laser Flash Method, in Thermophysical Properties, International Academic Publishers, 132-137, 1993
    • 171. 陈宝明,方肇洪,Double diffusive natural convection in a porous enclosure, Proc. Joint Conference of 3rd International Symposium on Heat Transfer and 5th International Symposium on Transport Phenomena, 615-620, 1992
    • 172. 王补宣,虞维平,方肇洪,The Heat and Moisture Transport Properties of Wet Porous Media, Int. J. Thermophysics, 10(1), 1989
    • 173. 王补宣,方肇洪,Water Absorption and Measurement of the Mass Diffusivity in Porous Media, Int. J. Heat Mass Transfer, 31(2), 1988.
    • 174. 方肇洪,R. Taylor, Determination of Thermal Diffusivity of Liquids by Laser Flash Method, High Temps. - High Pressures, 19, 1987
    • 175. B-X Wang, L Z Han and Z H Fang. A study on the guarded hot plate apparatus with single specimen, Proc. 1st Asian Thermophysical Properties Conference, 1986
    • 176. B-X Wang, and Z H Fang. Analysis of the moment method for determining the moisture transport properties in porous media, in Heat Transfer Scienc and Technology, Hemisphere Pub. Cor., 594-601, 1987.
    • 177. B-X Wang, L Z Han and Z H Fang. Dynamic characteristics of the surface-installed heat flux meter, in Heat Transfer Science and Technology, Hemisphere Pub. Cor., 914-922, 1987.
    • 178. 方肇洪。表面粘贴式热流计的稳定时间, 山东建筑工程学院学报, 1(1), 1986
    • 179. 王补宣,方肇洪。含湿多孔介质的传热与传质和热湿迁移特性测定方法的探讨, 工程热物理学报, 6(1), 1985
    • 180. 王补宣,方肇洪。表面安装式热流计测量热流密度的稳定时间, 传热传质学文集, 科学出版社, 1985
    • 181. 王补宣,方肇洪。热流计对温度场的干扰及其误差分析, 传热传质学文集, 科学出版社, 1985
    • 182. 王补宣,方肇洪。管道保温层表面热流密度的计算模拟, 传热传质学文集, 科学出版社, 1985
    • 183. 方肇洪,韩礼钟。珍珠岩颗粒在锫烧炉中的加热与运动, 珍珠岩, 1(2), 1985
    • 184. 王补宣,方肇洪。Heat and mass transfer in porous media and a method proposed for determination of the moisture transport properties, Heat & Technology, 2(1), 29-43, 1984.
    • 185. 王补宣,方肇洪。热流计快速标定装置的传热分析, 计量学报, 5(2), 1984
    • 186. 王补宣,方肇洪。常功率平面热源法加热器热容量的影响, 工程热物理学报, 4(1), 1983
    • 187. B-X Wang, L Z Han and Z H Fang Measuring techniques for determining thermal diffusivity with a twin-plate device, in Heat Transfer 1982, Hemisphere Pub. Cor., 561-565, 1982.
    • 188. 王补宣,方肇洪。利用双平板导热仪测定导温系数的测试技术和误差分析, 工程热物理学报, 3(1), 1982
    • 189. B-X Wang, Z P Ren and Z H Fang. A method to determine the thermal diffusivity with a twin-plate device, in Thermal Conductivity 17, 1981.