Open Access
Issue
MATEC Web of Conferences
Volume 25, 2015
2015 International Conference on Energy, Materials and Manufacturing Engineering (EMME 2015)
Article Number 01005
Number of page(s) 5
Section Energy Engineering
DOI https://doi.org/10.1051/matecconf/20152501005
Published online 06 October 2015
  1. Zhu Xingye, Yuan Shouqi. & Li Hong. 2009. Orthogonal test for the structure parameters of complete fluidic sprinkler. Transactions of the CSAE, 25(4): 103–107. (in Chinese with English abstract).
  2. 1985. People’s Republic of China national standards, sprinkler irrigation engineering and technical specifications (GBJ a 85 to 85).
  3. Gan Zhemin. & Yang Sheng hua. 1998. The formula and experimental research the range of the whirl sprinkler. Transactions of the Chinese Society for Agricultural Machinery, 29(4):145–149. (in Chinese).
  4. Tuo Yunfei. & Yang Luhua. 2006. Experimental study and theoretical formula of the sprinkler range. Transactions of the CSAE. 22(1):23–26.
  5. Wang Bolei. 2008. Modeling and Experiment Validation on the Rotational Sprinkler Nozzle Range. Transactions of the CSAE. 39(1):41–45.
  6. Wang Bolei. & Ma Xiaoyi. 2008. Prediction of Sprinkler Nozzle Range Based on L-M Optimized Algorithm. Transactions of the CSAE. 39(5):35–40.
  7. Giulio Lorenzini. & Onorio Saro. 2013. Thermal fluid dynamic modelling of a water droplet evaporating in air. International Journal of Heat and Mass Transfer 62: 323–335. [CrossRef]
  8. Playán, E., Salvador, R., Faci, J.M., Zapata, N., Martínez-Cob A.. & Sánchez, I. 2005. Day and night wind drift and evaporation losses in sprinkler solid-sets and moving laterals. Agric. Wat. Manage. 76(3): 139–159. [CrossRef]
  9. Ozgur Oguz Taskiran. & Metin Ergeneman. 2014. Trajectory based droplet collision model for spray modeling. Fuel. 115: 896–900. [CrossRef]
  10. Huang Xiuqiao, Liao Yongcheng. & Liu Xinmin. 1995. The compound uniformity of sprinkler irrigation system under wind condition: a study on its calculation theories and methods. Journal of Irrigation and Drainage, 14(1): 12–18. (in Chinese).
  11. Yan H J, Bai G. & He J Q, et al. 2010. Model of droplet dynamics and evaporation for sprinkler irrigation. Bio-systems Engineering, 2010, 106 (4): 440–447.
  12. Xu Hong, Gong Shihong. & Jia Ruiqing, et al. 2010. Study on droplet size distribution of ZY sprinkler head. Journal of Hydraulic Engineering, 41(12):1416–1422. (in Chinese).
  13. Wang Bolei, Ma Xiaoyi. & Hao Jingjing. 2008. Measurement of Sprinkler Nozzle Droplet Size Using Adobe Software. Journal of Irrigation and Drainage. 27(4): 18–21.
  14. Gong Xinghuil. & Zhu Delan, et al. 2014. Drop Size Distribution of Fixed Spray-plate Sprinklers with Two-dimensional Video Disdrometer. Transactions of the Chinese Society for Agricultural Machinery, 45(8): 129–133. (in Chinese)
  15. C. Bautista-Capetillo, M. Zavala, & A. Martínez-Cob. 2014. Closure to Using thermal units for crop coefficient estimation and irrigation scheduling improves yield and water productivity of corn (Zea mays L.). ASCE.
  16. Li, J., Kawano, H. & Yu, K., 1994. Droplet size distributions from different shaped sprinkler nozzles. Trans. ASAE 37 (6), pp.1871–1878. [CrossRef]
  17. Montero, J., Tarjuelo, J.M. & Carrión, P., 2001. SIRI-AS: a simulation model for sprinkler irrigation: II. Calibration and validation of the model. Irrig. Sci. (20): 85–98.
  18. Carrión, P., Tarjuelo, J.M. & Montero, J., 2001. SIRI-AS: a simulation model for sprinkler irrigation: I. Description of the model. Irrig. Sci. (20):73–84.
  19. YU Liming. & WU Pute. 2002. Influence of the Combination Distance, Work Pressure and Layout Form of Sprinkler Head on Uniformity Coefficient in Irrigation. Research of Soil and Water Conservation. 9(1):154–157.
  20. C. Bautista-Capetillo. O. Robles. & H. Salinas. 2014. A particle tracking velocimetry technique for drop characterization in agricultural sprinklers. Irrig Sci. 32: 437–447. [CrossRef]
  21. Zhu Xingye, Liu Junping. & Yuan Shouqi. 2013. Effect on spraying uniformity based on geometrical parameters and combined spacing of rotational fluidic sprinkler. Transactions of the Chinese Society of Agricultural Engineering. 29 (6):66–72.
  22. Li Jiusheng. & Rao Minjie. 1999. Evaluation Methods of Sprinkler Water Non-uniformity. 15 (4): 78–82.
  23. Yuan Shouqi, Wei Yangyang. & Li Hong, et al. 2010. Structure design and experiments on the water distribution of the variablerate sprinkler with non-circle nozzle. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 26(9): 149–153. (in Chinese with English abstract).
  24. Liu Junping, Yuan Shouqi. & Li Hong, et al. 2011. Combination uniformity improvement of impact sprinkler. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 27(7):107–111. (in Chinese with English abstract).
  25. Li Xiaoping. & Luo Jinyao. 2005. Overlapping computation for water distribution uniformity of triangular combination by using water distribution data of single sprinkler. Journal of Hydraulic Engineering, 36(2): 238–242. (in Chinese).
  26. Zhang Zhiyu. 2006. Intelligent simulation of drip’s distribution and optimization of combined space between on sprinkler head. Baoding: Agricultural University of Hebei. (in Chinese).
  27. Wang Bolei. 2008. Surfer software to draw sprinkler water distribution-based methods. 30 (3): 62–63.
  28. Yuan Shouqi, Zhu Xingye. & Li Hong, et al. 2008. Simulation of combined irrigation for complete fluidic sprinkler based on MATLAB. Drainage and Irrigation Machinery, 26(1): 47–52. (in Chinese)
  29. Han Wenting. 2008. Calculation of sprinkler irrigation uniformity by double interpolation using cubic splines and linear lines. Transactions of the Chinese Society for Agriculture Machinery, 39(10):134–139. (in Chinese).
  30. Lao Dongqing. & Han Wenting. 2010. Research on software for sprinkler water distribution dynamic simulation and spacing optimization. Water Saving Irrigation, (1): 42–46. (in Chinese).
  31. Zhang Yang. 2012. Water Distribution Dynamic Simulation and Spacing Optimization System in Sprinkler System Based on C# and OpenGL. Yangling Jiangsu University.
  32. Li Yongchong & Yan Haijun.2013. Simulation of Sprinkler Water Distribution with Droplet Dynamics and Evaporation. Transactions of the Chinese Society for Agricultural Machinery. 44 (7): 127 –132.
  33. Huang Zhigang. & Li Chunguang.2008. To investigate the factors affecting sprinkler uniformity. Modern Agricultural Sciences and Technology, 17: 355–358.
  34. Han Qibiao. & Sun Hao. 2011. Research status and development trends on sprinkler uniformity coefficient. Water Saving Irrigation. (12): 74–77.
  35. Wangyong Bin, Shi Yiping. & Hujia Feng. 2002. Special multifunctional nozzle design study. Zhejiang University, (3):237–241. [CrossRef]
  36. Kang Shaozhong. & Cai Huanjie. 2004. Technique in-novation and research fields of modern agricultural and ecological water-saving in the future. Transactions of the CSAE, 20(1):1–6.
  37. 2005. Study on water distribution uniformity of sprinkler system. Wu Han: Wu Han University.

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