通过时间相关狭窄的无阀泵送流量增加:一种新型装置

IF 1.8 Q3 MECHANICS Fluids Pub Date : 2023-09-12 DOI:10.3390/fluids8090249
Christos Manopoulos, Dimitrios Mathioulakis
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引用次数: 0

摘要

本文提出了一种新的流量增加装置,并在卧式无阀闭环泵中进行了实验研究,该装置采用时间相关狭窄(收敛发散通道)作为流量整流器,而不是常用的恒开锥管作为流量整流器。狭窄是泵的柔性管的一部分,由附着在可调预张力压缩弹簧上的半圆柱形表面形成,压缩弹簧将管压在平板上。狭窄位于泵钳的两侧,其形状随时间变化,不需要任何外部电源,作为流体压力和弹簧预紧力的函数。弹簧预紧力通过试错程序进行调整,旨在为每个夹紧频率实现净流量最大化。对于检查的俯仰频率(5 Hz至11 Hz,最大净流量)和压缩比为38%至75%,最大净流量为无狭窄情况的720%。结果表明,节流环的狭窄位置、节流环的开度、节流环处的压缩比和节流环的压缩频率是节流环增强的重要参数。
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Flow Rate Augmentation of Valveless Pumping via a Time-Dependent Stenosis: A Novel Device
A novel device of flow rate augmentation is proposed and experimentally examined in a horizontal valveless closed loop pump using a time-dependent stenosis (convergent–divergent channel) in contrast with the commonly used taper tubes of constant opening as flow rectifiers. The stenosis, being a part of the flexible tube of the pump, is formed by a semi-cylindrical surface attached to a compression spring of adjustable pretension compressing the tube against a flat plate. Located at either side of the pump pincher, the shape of the stenosis changes in time, without any external power source, as a function of the fluid pressure and the pretension of the spring. The spring pretension is adjusted by a trial-and-error procedure aiming for net flow rate maximization for each pinching frequency. For the examined pitching frequencies (5 Hz to 11 Hz, for which net flow rate is maximized) and for compression ratios 38% to 75%, the maximum net flow rate was found to be 720% of the non-stenosis case. Important parameters for flow enhancement were found to be the stenosis location along the loop, its opening, the compression ratio at the pincher area and the pinching frequency.
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来源期刊
Fluids
Fluids Engineering-Mechanical Engineering
CiteScore
3.40
自引率
10.50%
发文量
326
审稿时长
12 weeks
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