CALCULATING LIQUID DROPLETS SETTLING ON A CYLINDER IN GAS-LIQUID SPRAY FLOW.

被引:5
|
作者
Pawlowski, M. [1 ]
Siwon, B. [1 ]
机构
[1] Technical Univ of Szczecin, Dep of, Chemical Engineering & Physical, Chemistry, Szczecin, Pol, Technical Univ of Szczecin, Dep of Chemical Engineering & Physical Chemistry, Szczecin, Pol
来源
International Journal of Heat and Fluid Flow | 1984年 / 5卷 / 03期
关键词
FLUID MECHANICS - Fluid Dynamics - HEAT TRANSFER - Cylinders;
D O I
10.1016/0142-727X(84)90075-4
中图分类号
学科分类号
摘要
Adding atomized liquid to air flowing around a cylinder gives and appreciable increase in heat transfer by forming a liquid film on the cylinder surface. The heat transfer coefficient depends upon the amound of liquid forming the film, which is limited by two phenomena: droplet deflection from the liquid film on the surface and droplets not striking the cylinder. This paper presents a method of calculating the quantity of liquid droplets settling on a cylinder surface in a gas-liquid spray flow.
引用
收藏
页码:179 / 184
相关论文
共 50 条
  • [21] SETTLING VELOCITIES OF PARTICLES IN BUBBLY GAS-LIQUID MIXTURES
    SMUK, D
    SCOTT, DS
    MACINTYRE, RD
    REILLY, IG
    CANADIAN JOURNAL OF CHEMICAL ENGINEERING, 1991, 69 (06): : 1382 - 1388
  • [22] Solids entrainment into gas, liquid, and gas-liquid spray jets in fluidized beds
    Briens, Cedric
    Berruti, Franco
    Felli, Vittorio
    Chan, Edward
    POWDER TECHNOLOGY, 2008, 184 (01) : 52 - 57
  • [23] Physical understanding of gas-liquid annular flow and its transition to dispersed droplets
    Kumar, Parmod
    Das, Arup Kumar
    Mitra, Sushanta K.
    PHYSICS OF FLUIDS, 2016, 28 (07)
  • [24] STATISTICAL EVALUATION OF LIQUID PHASE DISTRIBUTIONS IN GAS-LIQUID TWO-PHASE FLOW. (FROTH AND HUGE WAVE FLOW REGIMES).
    Sekoguchi, Kotohiko
    Takeishi, Masayuki
    Yahiro, Kazuhiro
    Takahashi, Kenji
    1732, (29):
  • [25] SIMILARITY ANALYSIS OF GAS-LIQUID SPRAY SYSTEMS
    YEUNG, WS
    JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME, 1982, 49 (04): : 687 - 690
  • [26] BEHAVIOR OF GAS-LIQUID INTERFACE IN A HORIZONTAL TUBE AFTER THE STEP CHANGE OF AIR FLOW.
    Saitoh, Shizuo
    Maekawa, Noriyuki
    Hihara, Eiji
    Saitoh, Takamoto
    Bulletin of the JSME, 1986, 29 (258): : 4241 - 4246
  • [27] PREDICTION OF FRICTIONAL PRESSURE DROP IN GAS-LIQUID ANNULAR TWO-PHASE FLOW.
    Ghosal, S.K.
    Sen, N.
    Journal of the Institution of Engineers (India): Chemical Engineering Division, 1981, 61 : 44 - 47
  • [28] APPLICATION OF AN ELECTRICAL CONDUCTIVITY MICROPROBE FOR THE CHARACTERIZATION OF BUBBLE BEHAVIOR IN GAS-LIQUID BUBBLE FLOW.
    Steinemann, Juergen
    Buchholz, Rainer
    Particle Characterization, 1984, 1 (03): : 102 - 107
  • [29] BEHAVIOR OF THE GAS-LIQUID INTERFACE IN A HORIZONTAL TUBE AFTER THE STEP CHANGE OF AIR FLOW.
    Saitoh, Shizuo
    Maekawa, Noriyuki
    Hihara, Eiji
    Saitoh, Takamoto
    1872, (52):
  • [30] Effects of liquid flow on gas-liquid mass transfer
    Kumagai, T
    Iguchi, M
    TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN, 2001, 87 (04): : 159 - 166
12345