类似减压病的脉动气液流动:计算流体动力学模拟与实验验证。

IF 1.6 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Sotiris Evgenidis, Thodoris Karapantsios
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引用次数: 2

摘要

背景:本工作采用二维计算流体力学(CFD)模拟了类似减压病(DCS)时人体腔静脉内流动的脉动性气泡流,旨在说明某些参数对气泡血流的影响,从而为设计:a)在流动回路内脉动流动条件下进行相应的体外气泡流动实验,b)在猪体内进行试验,以评估一种新的电阻抗谱技术检测其血液中的气泡(如DCS过程中发现的气泡)。材料与方法:采用市售ANSYS 2019-R3 CFD软件模拟类似DCS的脉动气泡流。通过实验验证了模拟结果,该实验由配备了电、光学和压力诊断装置的流环提供垂直共电流向上脉动气泡流。结果:体外振荡气泡流实验初步验证了脉动条件下的CFD模拟。然后,计算研究了脉动参数对孔隙率α和流速U剖面的影响。孔隙率沿柱呈周期性剧烈波动,波动强度随脉动幅度增大而增大。30 μm气泡的U和α径向分布均匀,而300 μm气泡的U和α径向分布呈核峰分布。结论:类似于DCS的脉动气泡流动的CFD模拟提供了不同尺寸的亚毫米气泡对流速和空隙率分布的影响的非常规信息,这有望改进检测DCS中发现的气泡的体外和体内试验的设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pulsatile gas-liquid flow resembling Decompression Sickness: Computational Fluid Dynamics simulation and experimental validation.

Background: This work performs two-dimensional Computational Fluid Dynamics (CFD) simulations of pulsatile bubbly flow in a column resembling the flow inside human vena cava during Decompression Sickness (DCS), aiming to illustrate the effect of certain parameters in bubbly blood flow and so facilitate the design of the: a) corresponding in-vitro bubbly flow experiments under pulsatile flow conditions inside a flow loop and b) in-vivo trials on swines for assessing a novel electrical impedance spectroscopy technique on the detection of bubbles (as those found during DCS) in their bloodstream.

Materials and methods: The commercially available ANSYS 2019-R3 CFD code was employed to simulate the pulsatile bubbly flow that resembled DCS. Simulations were validated against experiments conducted in a vertical co-current upward pulsatile bubbly flow provided by a flow loop equipped with electrical, optical and pressure diagnostics.

Results: CFD simulations under pulsatile conditions were initially validated by oscillatory in-vitro bubbly flow experiments. Then, the influence of pulsation parameters on void fraction, α, and flow velocity, U, profiles was computationally investigated. Intense periodic fluctuations of void fraction were observed along the column and their intensity increases with pulsation amplitude. Moreover, U and α radial profiles were uniform for bubbles 30 μm but showed a core-peaking profile for bubbles 300 μm.

Conclusions: CFD simulations of pulsatile bubbly flow resembling DCS provided unconventional information about the influence of different-sized sub-millimetre bubbles on the flow velocity and void fraction profiles, which are expected to improve the design of in-vitro and in-vivo trials for the detection of bubbles such as those found in DCS.

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来源期刊
International Maritime Health
International Maritime Health PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
2.90
自引率
13.60%
发文量
37
审稿时长
20 weeks
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