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DING Guoliang

CVs of Prof. DING Guoliang (G.L. Ding)

丁国良2

Education 
B.S., Refrigeration and Cryogenics, 1987, Shanghai Jiao Tong University, China
M.S., Refrigeration and Cryogenics, 1990, Shanghai Jiao Tong University, China
Ph.D., Refrigeration and Cryogenics, 1993, Shanghai Jiao Tong University, China

Fields of Interest
1) Simulation and optimization of refrigeration and air-conditioning systems
2) Application of environment friendly refrigerants
3) Heat and transfer characteristics in refrigeration and air-conditioning systems

Summary
Dr. Guoliang DING was promoted to Associate Professor in Dec. 1994, and full Professor in Dec. 1998. He had been appointed as Chairman of the Department of Power and Energy Engineering, Shanghai Jiao Tong University for 8 years since Feb. 2002. He worked as Post Doctor in University of Karlsruhe, Germany from May 1996 to July 1997 and worked as visiting Professor in University Karlsruhe, Germany twice from January 2000 to April 2000 and from February 2004 to April 2004 respectively. He also served as visiting Professor in University of Tokyo, Japan from May 2007 to August 2007. 
Prof. Ding has published 11 books, about 100 domestic journal papers, and about 70 international journal papers. These publications have altogether 1100+ citations. He contributes a lot in the field of simulation and optimization techniques for refrigeration and air conditioning systems are his major contributions, which have been applied in many world’s top refrigeration and air conditioning companies including Whirlpool, Embraco, Daikin, Toshiba, Fujitsu, Honeywell, Bosch-Siemens, Haier, Gree, Midea, exerting significant economic impacts. Some of the simulation techniques have even been applied outside refrigeration, e.g. the simulation technique for micro and nano scale fluid flowing has been applied in a Japanese semiconductor company.

Selected Awards, Honors and Positions in Professional Societies

  1. The Science and Technology Progress Award (2nd Prize, Rank 1), 2009, “Digital design technology of air conditioner heat exchanger based on graph theory and artificial intelligence”, granted by Shanghai, China.
  2. The Science and Technology Progress Award (2nd Prize, Rank 2), 2008, “Security of transportation in sea and energy saving of refrigerated container under complicated conditioners”, granted by the Ministry of Education, China.
  3. The Science and Technology Progress Award (2nd Prize, Rank 1), 2003, “Intelligent simulation technology for room air conditioners, granted by Shanghai, China.
  4. The Science and Technology Progress Award (2nd Prize, Rank 3), 1997, “Matching characteristics of refrigeration appliances (household refrigerators), granted by Shanghai, China.
  5. The Science and Technology Progress Award (2nd Prize, Rank 3), 1991, “Dynamic and distributed parameter characteristics of refrigeration appliances”, granted by the Commission of Education, China.
  6. Editorial board member of Energy and Power Engineering, 2010
  7. Editorial board member of Journal of Mechanical & Electrical Engineering, 2010
  8. Vice President of Shanghai Society of Refrigeration , 2007
  9. Editorial board member of The Open Nanoscience Journal, 2007
  10. Editorial board member of Recent Patents on Engineering, 2006
  11. Outstanding Talents of the New Century-Outstanding Young Professors Promotion Program, 2005, granted by Ministry of Education, China
  12. Editorial board member of Building Energy & Environment, 2004
  13. Editorial board member of Refrigeration Air Conditioning & Electric Power Machinery , 2001
  14. Shanghai Rising-star Program,1999

Keynote speech
G. L. Ding, Digital design methods for refrigeration systems, Proceeding of The 22nd International Congress of Refrigeration. August 20-26, 2007, Beijing (Keynote speech, Paper No. B2-80)

Invited Review paper
G.L.Ding, Recent Developments in Simulation Techniques for Vapour-Compression Refrigeration Systems, International Journal of Refrigeration, 2007, 30 (7): 1119-1133

Selected Research Projects

  1. G.L. Ding, Mechanism and model of nano-particle migration during boiling of nano-refrigerant and lubricant mixture, RMB 0.37 million, 2010-2012, National Natural Science Foundation of China
  2. G.L. Ding, Series contracts on development of room air condioner with small diameter tubes, improving energySmall air contioner, RMB 3.2 million,2006-2011, International Copper Association
  3. G.L. Ding, Virtual product system design & development simulation tools, USD 0.4 million,2007-2010, Whirlpool and Embraco
  4. G.L. Ding, Enhancing energy efficiency of air conditioner using nanofluid, RMB 0.5 million,2006-2008, Program for New Century Excellent Talents in University of China
  5. G.L. Ding, Explicit, reversible, fast and stable calculation method for refrigerant thermodynamic properties in the range of trans-critical, RMB 0.2 million,2006-2008 , National Natural Science Foundation of China

 

Selected Patents

  1. G.L.Ding, C.L.Zhang, J.Liu, W.J.Wei, Calculation method of refrigerant thermodynamic properties as well as simulation software for heat transfer calculation based on this calculation method of refrigerant thermodynamic properties, Japanese Patent, P. 4529368,2010
  2. G.L.Ding, C.L.Zhang, J.Liu, W.J.Wei, Simulation method and software for heat exchanger, Japanese Patent, P. 4329503号, 2009
  3. G.L.Ding, Air conditioner and water heater using hybrid energy, ZL200610027968.9,2008
  4. G.L.Ding, Device for injecting nanoparticle into refrigeration sysem,ZL200610023228.8,2007
  5. G.L.Ding, Variable air velocity room air conditioner, ZL200410053485.7,2006
  6. G.L.Ding, C.L.Zhang, Pressure releasing device for trans-critical carbon dioxide refrigeration system, ZL03117078.1,2005
  7. G.L.Ding, Z.L.Lu, C.L.Zhang, Two-path domestic refrigerator, ZL03116027.1,2004

 

Selected Publications

  1.  H. Peng, G.L. Ding, H.T. Hu, W.T. Jiang. Effect of nanoparticle size on nucleate pool boiling heat transfer of refrigerant/oil mixture with nanoparticles. International Journal of Heat and Mass Transfer, 2011, 54(9-10): 1839-1850
  2. W.T. Jiang, G.L. Ding,  H. Peng,, H.T. Hu. Modeling of nanoparticles’ aggregation and sedimentation in nanofluid. Current Applied Physics, 2010, 10: 934-941
  3. G.L. Ding, H. Peng, W.T. Jiang, Y.F. Gao. The migration characteristics of nanoparticles in the pool boiling process of nanorefrigerant and nanorefrigerant–oil mixture, International Journal of Refrigeration, 2009, 32 (1): 114-123
  4. G.L. Ding, Haitao Hu, Xiangchao Huang, Bin Deng, Yifeng Gao. Experimental investigation and correlation of two-phase frictional pressure drop of R410A–oil mixture flow boiling in a 5 mm microfin tube, International Journal of Refrigeration, 2009, 32 (1): 150-161
  5. G.L. Ding, Xiaokui Ma, Ping Zhang, Weizhe Han, Shinichi Kasahara, Takahiro Yamaguchi. Practical methods for measuring refrigerant mass distribution inside refrigeration system, International Journal of Refrigeration, 2009, 32 (2): 327-334
  6. G.L. Ding, Weizhe Han, Dan Zhao, Zhigang Wu. Extension of the implicit curve-fitting method for fast calculation of thermodynamic properties of subcooled refrigerants, HVAC&R Research, 2009, 15 (5): 875-888
  7. G.L. Ding, Zhigang Wu, Kaijian Wang, Masaharu Fukaya. Extension of the applicable range of the implicit curve-fitting method for refrigerant thermodynamic properties to critical pressure, International Journal of Refrigeration, 2007, 30 (3): 418-432
  8. G.L. Ding, Long Fu. Performance analysis and improvement of air-to-water chiller for application in wide ambient temperature range, Applied Thermal Engineering, 2005, 25: 135-145
  9. G.L. Ding, Zhigang Wu, Jian Liu, Takefumi Inagaki, Kaijian Wang, Masaharu Fukaya. An implicit curve-fitting method for fast calculation of thermal properties of pure and mixed refrigerants, International Journal of Refrigeration, 2005, 28(6): 921-932
  10. G.L. Ding, Chun-Lu Zhang, Tao Zhan. An approximate integral model with an artificial neural network for heat exchangers, Heat Transfer-Asia Research, 2004, 33(3): 153-160
  11. G.L. Ding, Chunlu Zhang, Zhili Lu. Dynamic simulation of natural convection bypass two-circuit cycle refrigerator–freezer and its application - Part I: Component models, Applied Thermal Engineering, 2004, 24 (10): 1513–152
  12. G.L. Ding, Qiao Hong-Tao, Lu, Zhi-Li. Ways to improve thermal uniformity inside a refrigerator, Applied Thermal Engineering, 2004, 24(13): 1827-1840
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