Representative thesis: Average parameter model of adiabatic capillary performance simulation
Finite element simulation of air flow field and temperature field in refrigerator
1. Ding Guoliang, Ouyang Hua, Li Hongguang. Digital design technology of refrigeration and air conditioning equipment. Beijing: China Building Industry Press, 2008.
2. Ding Guoliang, Huang Dongping. Carbon dioxide refrigeration technology. Beijing: Chemical Industry Press, 2007.
3. Ding Guoliang, Zhang Chunlu and Nye. Calculation method and practical chart of thermophysical properties of new refrigerants for refrigeration and air conditioning. Shanghai: Shanghai Jiaotong University Press, 2003.
4. Ding Guoliang, Zhang Chunlu. Intelligent simulation of refrigeration and air conditioning equipment. Beijing Science Press 2002.
5. Ding Guoliang, Zhang Chunlu. Simulation and optimization of refrigeration and air conditioning equipment. Beijing: Science Press, 200 1.
6. Ding Guanglin, Peng, H, Jiang, Wang Weitao, Gao, Yang Feng, Migration Characteristics of Nanoparticles during Pool Boiling of Nano-Refrigerant and Nano-Refrigerant-Oil Mixture, International Journal of Refrigeration, Volume 32,No. 1, 2009:14-/kloc.
7. Ding Guolin, Hu Haitao, Huang Xiaochun, Deng, B, Gao, Yang Feng, Experimental study and correlation of R4 10A two-phase friction pressure drop in 5 mm micro-tubes, Journal of Refrigeration, Vol. 32,No. 1, 2009:150-/KLOC-0.
8. Ding Guanglin, Ma, Xu Gang, Zhang Ping, Han Weizhi, Kasahara, Natsuo Yamaguchi, Practical Measurement Method of Refrigerant Mass Distribution in Refrigeration System, International Journal of Refrigeration, Vol.32, No.2, 2009: 327-334.
9. Ding Guanglin, Han Wenzhi, Zhao Dade, Wu Zhenguo, Popularization of implicit curve fitting method for quickly calculating thermodynamic properties of supercooled working fluids, HVAC. R research, vol. 15, No.5, 2009: 875-888.
10. ding guanglin, Wu, Zheng Gang, Wang, Shen gu, mi, extension of application range of implicit curve fitting method for thermodynamic properties of refrigerants to critical pressure, journal of international refrigeration, vol. 30, No.3, 2007: 4 18-432.
1 1. ding guanglin, new development of simulation technology of vapor compression refrigeration system, international journal of refrigeration, vol. 30, No.7, 2007:119-1/kloc-0.
12. ding guanglin, fu, Li, performance analysis and improvement of air-cooled water units, applied thermal energy engineering, vol. 25,No. 1, 2005: 135- 145.
13. Ding Guanglin, Wu, Zheng Gang, Liu, Inagaki, T, Wang, K.J., Deep Valley, M, Implicit Curve Fitting Method for Fast Calculation of Thermodynamic Properties of Pure Refrigerant and Mixed Refrigerant, International Journal of Refrigeration, Vol.28, No.6, 2005: 92 1-932.
14. ding Guilin, Zhang Chunlin, Zhan Tiantai, approximate integral neural network model of heat exchanger, heat transfer research in Asia, No.3, 2004: 153- 160.
15. ding Guilin, Zhang Chunlin, Lu, Zhang Zhilin, dynamic simulation and application of natural convection bypass double-loop cycle refrigerator-freezer part I: component model, applied thermal energy engineering, vol.24, No.0/0, 2004:1513-
16. Ding Guanglin, Qiao Haitao, Lu Zhilin, Methods to improve the thermal uniformity inside refrigerators, Applied Thermal Energy Engineering, Vol.24, No.0/3, 2004: 1827- 1840.
17. Ding Guilin, Zhang Chunlin, Liu, H, Fast Neural Network Simulation Model of Finned Tube Condenser, Heat Transfer-Asian Studies, 3 1, No.7, 2002: 55 1-557.