VAPORIZATION AND DISPERSION FROM A SURFACE TO A TURBULENT BOUNDARY LAYER.

被引:0
|
作者
Chyou, Shang-Woo [1 ]
Sleicher, Charles A. [1 ]
机构
[1] Univ of Washington, Seattle, WA, USA, Univ of Washington, Seattle, WA, USA
来源
Industrial & Engineering Chemistry, Fundamentals | 1986年 / 25卷 / 04期
关键词
CHEMICALS - ICE - MASS TRANSFER - PESTICIDES - WATER;
D O I
暂无
中图分类号
学科分类号
摘要
Concentration profiles and mass-transfer rates are calculated theoretically for a vaporizing area on a large flat surface having a fully developed turbulent boundary layer assumed to be stationary, homogeneous, adiabatic, and barotropic. The range of Schmidt numbers covered is 0. 72-20. The mass flux at the surfaces is correlated empirically and should prove useful in understanding and interpreting the vaporization of chemicals, including pesticides, water, or ice, under some field conditions. The vaporization rate from an area is found to be proportional to the 0. 65 power of the wind speed, to the 0. 71 power of the length of the area in the flow direction, and to the diffusivity with a power ranging from 0. 4 to 0. 5.
引用
下载
收藏
页码:659 / 661
相关论文
共 50 条
  • [1] VAPORIZATION AND DISPERSION FROM A SURFACE TO A TURBULENT BOUNDARY-LAYER
    CHYOU, SW
    SLEICHER, CA
    INDUSTRIAL & ENGINEERING CHEMISTRY FUNDAMENTALS, 1986, 25 (04): : 659 - 661
  • [2] EVAPORATION FROM A PLANE LIQUID SURFACE INTO A TURBULENT BOUNDARY LAYER.
    Brighton, P.W.M.
    Journal of Fluid Mechanics, 1985, 159 : 323 - 345
  • [3] WAVE THEORY OF THE DEVELOPED TURBULENT BOUNDARY LAYER.
    Zharov, V.A.
    Fluid mechanics. Soviet research, 1987, 16 (04): : 51 - 63
  • [4] HEAT TRANSFER IN COMPRESSIBLE TURBULENT BOUNDARY LAYER.
    Bauer, K.
    Winkler, W.
    Grigull, U.
    1978,
  • [5] WALL SHEAR FLUCTUATIONS IN A TURBULENT BOUNDARY LAYER.
    Narayanan, M.A.Badri
    Raghu, S.
    Poddar, Kamal
    1600, (22):
  • [6] INTEGRAL CHARACTERISTICS OF THE TRANSIENT TURBULENT BOUNDARY LAYER.
    Mishuyev, A.V.
    Zhilkin, A.P.
    Fluid mechanics. Soviet research, 1985, 14 (02): : 38 - 44
  • [7] MECHANISM OF ENERGY REDISTRIBUTION IN A TURBULENT BOUNDARY LAYER.
    Sivykh, G.F.
    Fluid Dynamics, 1986, 21 (04) : 659 - 661
  • [8] CARBON VAPORIZATION INTO A NONEQUILIBRIUM, STAGNATION-POINT BOUNDARY LAYER.
    Suzuki, Tateyuki
    1600, (16):
  • [9] Dispersion of a Passive Scalar Fluctuating Plume in a Turbulent Boundary Layer. Part III: Stochastic Modelling
    Marro, Massimo
    Salizzoni, Pietro
    Soulhac, Lionel
    Cassiani, Massimo
    BOUNDARY-LAYER METEOROLOGY, 2018, 167 (03) : 349 - 369
  • [10] Dispersion of a Passive Scalar Fluctuating Plume in a Turbulent Boundary Layer. Part II: Analytical Modelling
    Marro, Massimo
    Nironi, Chiara
    Salizzoni, Pietro
    Soulhac, Lionel
    BOUNDARY-LAYER METEOROLOGY, 2015, 156 (03) : 447 - 469
12345