Analysis of the Steady Flow Characteristics through a Poppet Valve

JSAE Review Pub Date : 2004-03-08 DOI:10.4271/2004-01-1676

R. Gault, D. Thornhill, R. Fleck, D. O. Mackey, G. Chatfield

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引用次数: 6

Abstract

This paper describes the flow characteristics in the near throat region of a poppet valve under steady flow conditions. An experimental and theoretical procedure was undertaken to determine the total pressure at the assumed throat region of the valve, and also at a downstream location. Experiments of this type can be used to accurately determine the flow performance of a particular induction system. The static pressure recovery was calculated from the near throat region of the valve to the downstream location and was shown to be dependent on valve lift. Total pressure profiles suggest that for this particular induction system, the majority of pressure loss occurs downstream of the valve for lift/diameter ratios up to 0.1, and upstream of the valve for lift/diameter ratios greater than 0.1. Negligible pressure recovery was shown to exist from the cylindrical periphery of the valve head to the downstream location for all valve lifts, indicating that the flow had probably separated completely from the trailing edge of the valve seating face. The calculated discharge coefficients, based on the geometric throat static pressure measurements on the seating face, were in general less than those determined using the downstream static pressure, by as much as 12% in some instances towards the valves lower mass flow rate range.

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锥阀稳态流动特性分析

本文研究了稳态流动条件下锥阀近喉部的流动特性。进行了一个实验和理论程序，以确定在假设的阀喉区，也在下游位置的总压力。这种类型的实验可以用来准确地确定一个特定的感应系统的流动性能。计算了从阀门近喉道区域到下游位置的静压恢复，结果表明，静压恢复与阀门升程有关。总压力曲线表明，对于这种特殊的感应系统，大部分压力损失发生在升程/通径比大于0.1的阀门下游，而升程/通径比大于0.1的阀门上游。结果表明，从阀头的圆柱形外围到下游位置，所有阀门举升的压力恢复都可以忽略不计，这表明流体可能已经完全从阀门阀座表面的后缘分离。根据阀座表面的几何喉道静压测量结果计算出的排放系数，通常比使用下游静压确定的排放系数要小，在某些情况下，在阀门较低质量流量范围内，其误差可达12%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JSAE Review

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