Momentum interaction in buoyancy-driven gas-liquid vertical channel flows

L.F. Echeverri; S. Acharya; P.W. Rein

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Momentum interaction in buoyancy-driven gas-liquid vertical channel flows

机译：浮力驱动的气液垂直通道流中的动量相互作用

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Drag coefficient correlations for bubbles in buoyancy-driven two-phase flows have generally been derived from data on low-viscosity media and within the bubbly flow regime. In a number of applications, e.g. evaporative crystallizers, there is a need to extend this correlation to higher viscosity flows and slug regimes. In this paper, the momentum interaction in gas-liquid vertical channel flow has been studied experimentally over a wide range of void fractions using a circulation loop facility where the buoyancy is the only driving force for liquid circulation. A model for the drag in gas-liquid buoyant flows has been developed, and is applicable for a wide range of viscosity and void fractions.

机译：浮力驱动的两相流中气泡的阻力系数相关性通常是从低粘度介质上以及气泡流域内的数据得出的。在许多应用中，例如蒸发结晶器，需要将这种关系扩展到更高的粘度流量和段塞状态。在本文中，已经使用循环回路装置对气液垂直通道流动中的动量相互作用进行了实验研究，该装置的浮力是液体循环的唯一驱动力。已经开发了气液浮力流中阻力的模型，并且适用于各种粘度和空隙率。

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《International Journal of Heat and Mass Transfer》 |2010年第10期|2284-2293|共10页
作者
L.F. Echeverri; S. Acharya; P.W. Rein;
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作者单位

Audubon Sugar Institute, LSU Agricultural Center, St. Gabriel, LA, USA Department of Mechanical Engineering, Louisiana State University, Baton Rouge, LA, USA;

Department of Mechanical Engineering, Louisiana State University, Baton Rouge, LA, USA;

Audubon Sugar Institute, LSU Agricultural Center, St. Gabriel, LA, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
drag coefficient correlations; buoyancy-driven two-phase flows; gas-liquid vertical channel flow; circulation loop facility; momentum interaction;

机译：阻力系数相关性浮力驱动的两相流;气液垂直通道流量;循环回路设施;动量相互作用;

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1. CONJUGATE HEAT TRANSFER AND BUOYANCY-DRIVEN SECONDARY FLOW IN THE COOLING CHANNELS WITHIN A VERTICAL SLAB [J] . Cheng CH., Yu JH. Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 1995,第4期

机译：垂直板内冷却通道中的共轭传热和浮力驱动的二次流
2. Flow pattern and pressure drop of vertical upward gas-liquid flow in sinusoidal wavy channels [J] . Nilpueng K, Wongwises S Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2006,第6期

机译：正弦波状通道内垂直向上气液流动的流型和压降
3. Simulation of Dispersed-Annular Gas-Liquid Flows in Vertical Channels [J] . V.M.Aipchenkov, L.I.Zaichik, O.I.Melikhov Thermal engineering . 2001,第3期

机译：垂直通道中分散环空气液流动的模拟
4. A CORRELATION FOR HEAT TRANSFER TO TWO-COMPONENT GAS-LIQUID FLOWING IN VERTICAL CHANNELS [C] . Mirza M. Shah ASME International Mechanical Engineering Congress and Exposition . 2019

机译：在垂直通道中流动的热传递与双组分气液的相关性
5. Buoyancy-driven two phase flow and boiling heat transfer in narrow vertical channels. [D] . Geisler, Karl John Larson. 2007

机译：在狭窄的垂直通道中由浮力驱动的两相流和沸腾传热。
6. Influence of buoyancy-driven flow on mass transfer in a two-stream microfluidic channel: Introduction of cryoprotective agents into cell suspensions [O] . Rohini Bala Chandran, Jennifer Reinhart, Erin Lemke, 2012

机译：浮力驱动的流动对两流微流通道中传质的影响：将冷冻保护剂引入细胞悬液
7. Buoyancy-Driven Channelling Flow in Vertical Porous Layer. [O] . Takashi Masuoka, Yasuyuki Takatsu, Takaharu Tsuruta, 1994

机译：垂直多孔层中的浮力驱动窜流。
8. Two-Phase Gas-Liquid Flow Dynamics: Part I. Flow Oscillations in Transparent, Parallel, Vertical, Heated Channels. Part II. Acoustic Velocity in Two-Phase Flow [R] . Gouse, S. W., Evans, R. G., Deane, C. W., 1967

机译：两相气液流动力学：第一部分：透明，平行，垂直，加热通道中的流动振荡。第二部分。两相流中的声速

Momentum interaction in buoyancy-driven gas-liquid vertical channel flows

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