復(fù)合式三相旋流分離器分離性能分析

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Huang Tiancheng，Wang Yutong，Yao Zhoukun，et al.Separation performance of composite thre-phase hydrocyclone[J]．China Petroleum Machinery，2025，53（5）：117-124.

中圖分類號：TE934 文獻(xiàn)標(biāo)識碼：A DOI：10.12473/CPM.202404063

Separation Performance of Composite Three-Phase Hydrocyclone

Huang TianchengWang Yutong Yao Zhoukun Zhou Sizhu Gong JunlinYuan Xinmei （School ofMechanicalEnginering，YangtzeUniversity；InstituteofMechanicalStructureStrengthand Vibration，Yangtzei

Abstract： To improve the separation performance of cyclone， a composite three-phase hydrocyclone was designed.By means of numerical simulation，the influences of three main structural parameters on the separation performance of the composite hydrocyclone were analyzed.Based on the single-factor analysis results，an orthogonal test was designed and performed，and variance analysis was conducted on the test results.It is found that as thelength of the first-stage cyclone chamber and the insertion depth ofthe second-stage cyclone chamber increase， the total separation eficiency of the composite hydrocyclone tends to increase and then decrease.As the upper cone angle increases，the total separation effciency gradually decreases.The optimal structural dimensions of the hydrocycloneare obtainedas folows：the length ofthefirst-stage cyclone chamber is 9Omm，the insertion depth of the second-stage cyclone chamber is 20mm ， and the upper cone angle is 0° . The three structural parameters are ranked as the insertion depth of the second-stage cyclone chamber > the length of the first-stage cyclone chamber > （204號 theupper cone angle，with respect to the weight of influence on the separation eficiencyof the hydrocyclone.The research results provide a reference for structural design of cyclones.

Keywords：composite three-phase hydrocyclone; structural size；insertion depth of cyclone chamber； lengthof cyclone chamber; upper cone angle； separation performance

0引言

旋流器是一種廣泛應(yīng)用于石油礦山行業(yè)的分離設(shè)備[1-4]。（剩余12100字）