Optimization and test for structural parameters of UAV spraying rotary cup atomizer
Abstract
Keywords: rotary cup atomizer, atomization, droplet VMD, droplet SRW, optimization, mathematical model, response surface
DOI: 10.3965/j.ijabe.20171003.3119
Citation: Zhou Q Q, Xue X Y, Qin W C, Cai C, Zhou L F. Optimization and test for structural parameters of UAV spraying rotary cup atomizer. Int J Agric & Biol Eng, 2017; 10(3): 78–86.
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He X K. Improving severe draggling actuality of plant protection machinery and its application techniques. Transactions of the CSAE, 2004; 20(1): 13–15. (in Chinese)
Qiu B J, Wang L W, Cai D L, Wu J H, Ding G R, Guan X P. Effects of flight altitude and speed of unmanned helicopter on spray deposition uniform. Transactions of the CSAE, 2013; 29(24): 25–32. (in Chinese)
Kilroy B. Aerial application equipment guide. United States Department of Agriculture Forest Service, 2003; pp. 3–17.
Yan Y f, Zhang L, Gao Z Y, Pu G. Atomization performance of low pressure swirl atomizing nozzle. CIESC Journal, 2009; 60(5): 1141–1147.
Liao J, Zang Y, Zhou Z Y, Luo X W. Quality evaluation method and optimization of operating parameters in crop aerial spraying technology. Transactions of the CSAE, 2015; 31(Supp.2): 38–46. (in Chinese)
Yuan H Z, Wang G B. Effects of droplet size and deposition density on field efficacy of pesticides. Plant Protection, 2015; 41(6): 9–16.
Mao Y J, Wang X, Ma W. Numerical analysis method for predicting droplet size distribution of nozzles. Transactions of the CSAE, 2009; 25 (Supp.2): 78–82. (in Chinese)
Qin W C, Xue X Y, Zhou L X, Zhang S C, Sun Z, Kong W, et al. Effects of spraying parameters of unmanned aerial vehicle on droplets deposition distribution of maize canopies. Transactions of the CSAE, 2014; 30(5): 50–56. (in Chinese)
Zhang S C, Xue X Y, Qin W C, Sun Z, Ding S M, Zhou L X. Simulation and experimental verification of aerial spraying drift on N-3 unmanned spraying helicopter. Transactions of the CSAE, 2015; 31(3): 87–93. (in Chinese)
Zhou L X, Xue X Y, Sun Z, Zhang S C, Kong W, Zhang T, et al. Experimental study on electrical-driven centrifugal nozzle of aerial sprays. Chinese Agricultural Mechanization, 2011; (1): 107–111. (in Chinese)
Fan Q N. The research on the pesticide spray system using for the mini unmanned helicopter. Nanjing: Nanjing Forestry University, 2011. (in Chinese)
Ledebuhr R, Hetherington M H. Rotary atomizer drip control method and apparatus. CA 2763916 A1 [P]. 2013.
Hooper G H S, Spurgin P A. Droplet size spectra produced by the atomization of a ULV formulation of fenitrothion with a Micronair AU5000 rotary atomizer. Crop Protection, 1995, 14(1): 27–30.
Dong H M, Zhu Z P, Tao X P, Zhao L, Yan H R. Distribution characteristics of fog droplets from air-cooling fan. Transactions of the CSAE, 2004; 20(2): 118–121. (in Chinese)
Craig I P, Hewitt A, Terry H. Rotary atomiser design requirements for optimum pesticide application efficiency. Crop Protection, 2014; 66:34–39.
Ahmed M, Youssef M S. Influence of spinning cup and disk atomizer configurations on droplet size and velocity characteristics. Chemical Engineering Science, 2014; 107(14): 149–157.
Ru Y, Jin L, Zhou H P, Jia Z C. Performance experiment of rotary hydraulic atomizing nozzle for aerial spraying application. Transactions of the CSAE, 2014; 30(3): 50–55. (in Chinese)
Liu J, Yu Q, Guo Q. Experimental investigation of liquid disintegration by rotary cups. Chemical Engineering Science, 2012; 73(19): 44–50.
Ellwood K R J, Tardiff J L, Alaie S M. A simplified analysis method for correlating rotary atomizer performance on droplet size and coating appearance. Journal of Coatings Technology & Research, 2013; 11(3): 1–7.
Ahmed M, Youssef M S. Characteristics of mean droplet size produced by spinning disk atomizers. Journal of Fluids Engineering, 2012; 134(7): 3412–3427.
Rahimi-Gorji M, Pourmehran O, Gorji-Bandpy M, Ganji D D. An analytical investigation on unsteady motion of vertically falling spherical particles in non-Newtonian fluid by collocation method. Ain Shams Engineering Journal, 2014; 59(2): 531–540.
Mohebi M M, Evans J R G. The trajectory of ink-jet droplets: Modelling and experiment. Chemical Engineering Science, 2005; 60(13): 3469–3476.
Colbert S A, Cairncross R A. A discrete droplet transport model for predicting spray coating patterns of an electrostatic rotary atomizer. Journal of Electrostatics, 2006; 64(3): 234–246.
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