Droplet characterization of a novel orifice spray nozzle

被引:1
|
作者
Owens, EH [1 ]
Liu, WP [1 ]
Smith, GH [1 ]
Leonard, MT [1 ]
机构
[1] Heriot Watt Univ, Edinburgh EH14 4AS, Midlothian, Scotland
来源
ATOMIZATION AND SPRAYS | 2005年 / 15卷 / 05期
关键词
D O I
10.1615/AtomizSpr.v15.i5.50
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
An experimental study of a novel atomizing nozzle is presented. The novelty of the nozzle lies in the incorporation of a self-driven, hydraulic turbine, which provides improved atomization performance. The inclusion of this rotating component promotes smaller particle sizes within the plume for a given pressure and flow rate. Two versions of the nozzle are presented and a comparison of their respective atomization performances is given. The second version of the nozzle was shown to operate consistently at lower pressure and produce increased homogeneity within the droplet plume. The Sauter mean diameter (SMD) was found to vary within the range 60-140 mu m. The observed droplet size distributions suggest that the nozzle produces a spray similar to that produced by a pressure atomizer, or a two-phase atomizer in the central core of the spray plume, whereas the distribution found in the outer region of the plume resembled that produced by spinning-disk atomizers.
引用
收藏
页码:567 / 584
页数:18
相关论文
共 50 条
  • [1] Quantitative Characterization of Single Orifice Hydraulic Flat Spray Nozzle
    Sharma, D. M.
    Lai, W. T.
    ADVANCES IN COMPUTATION, MODELING AND CONTROL OF TRANSITIONAL AND TURBULENT FLOWS, 2016, : 225 - 231
  • [2] FLOW, SPRAY PATTERN, AND DROPLET SPECTRA CHARACTERISTICS OF AN ELECTRONICALLY ACTUATED VARIABLE-ORIFICE NOZZLE
    Luck, J. D.
    Pitla, S. K.
    Sama, M. P.
    Shearer, S. A.
    TRANSACTIONS OF THE ASABE, 2015, 58 (02) : 261 - 269
  • [3] Influence of Herbicide Active Ingredient, Nozzle Type, Orifice Size, Spray Pressure, and Carrier Volume Rate on Spray Droplet Size Characteristics
    Creech, Cody F.
    Henry, Ryan S.
    Fritz, Bradley K.
    Kruger, Greg R.
    WEED TECHNOLOGY, 2015, 29 (02) : 298 - 310
  • [4] Optical patternation of a multi-orifice spray nozzle
    Lim, J
    Sivathanu, Y
    ATOMIZATION AND SPRAYS, 2005, 15 (06) : 687 - 698
  • [5] SPRAY NOZZLE WEAR EFFECTS ON DROPLET POPULATION
    Baio, Fabio H. R.
    Zanin, Alex R. A.
    Teodoro, Larissa P. R.
    Fontoura, Joao V. P. F.
    Teodoro, Paulo E.
    ENGENHARIA AGRICOLA, 2022, 42 (04):
  • [6] AIRSPEED AND ORIFICE SIZE AFFECT SPRAY DROPLET SPECTRA FROM AN AERIAL ELECTROSTATIC NOZZLE FOR ROTARY-WING APPLICATIONS
    Martin, Daniel E.
    Carlton, James B.
    ATOMIZATION AND SPRAYS, 2012, 22 (12) : 997 - 1010
  • [7] AIRSPEED AND ORIFICE SIZE AFFECT SPRAY DROPLET SPECTRUM FROM AN AERIAL ELECTROSTATIC NOZZLE FOR FIXED-WING APPLICATIONS
    Martin, D. E.
    Carlton, J. B.
    APPLIED ENGINEERING IN AGRICULTURE, 2013, 29 (01) : 5 - 10
  • [8] Effect of angled spray nozzle designs on spray distribution and droplet spectrum
    Negrisoli, Matheus Mereb
    de Souza, Diego Miranda
    Rodrigues, Danilo Morilha
    de Jesus, Patrick Julio
    Raetano, Carlos Gilberto
    REVISTA CIENCIA AGRONOMICA, 2021, 52 (03):
  • [9] EFFECT OF NOZZLE TYPE AND OPERATION ON SPRAY DROPLET SIZE
    BOUSE, LF
    TRANSACTIONS OF THE ASAE, 1994, 37 (05): : 1389 - 1400
  • [10] Effects of Nozzle Spray Angle on Droplet Size and Velocity
    Hoffmann, W. Clint
    Fritz, Bradley K.
    Bagley, William E.
    Kruger, Greg R.
    Henry, Ryan S.
    Czaczyk, Zbigniew
    PESTICIDE FORMULATION AND DELIVERY SYSTEMS, VOL 33: SUSTAINABILITY: CONTRIBUTIONS FROM FORMULATION TECHNOLOGY, 2014, 1569 : 139 - 150
12345