[1]黃旭,翟路生,金寧德.測量水平油水層狀流相含率的平行線電容傳感器[J].測井技術,2012,36(02):188-191.
 HUANG Xu,ZHAI Lusheng,JIN Ningde.A Parallelwire Capacitance Probe for Measuring Phase Volume Fraction in Horizontal Oilwater Stratified Flow[J].WELL LOGGING TECHNOLOGY,2012,36(02):188-191.
點擊復制

測量水平油水層狀流相含率的平行線電容傳感器()
分享到:

《測井技術》[ISSN:1004-1338/CN:61-1223/TE]

卷:
第36卷
期數:
2012年02期
頁碼:
188-191
欄目:
測井儀器
出版日期:
2012-04-30

文章信息/Info

Title:
A Parallelwire Capacitance Probe for Measuring Phase Volume Fraction in Horizontal Oilwater Stratified Flow
作者:
黃旭翟路生金寧德
天津大學電氣與自動化工程學院, 天津 300072
Author(s):
HUANG Xu ZHAI Lusheng JIN Ningde
School of Electrical Engineering and Automation, Tianjin University, Tianjin 300072, China
關鍵詞:
生產測井 水平油水層狀流 相含率 平行線電容傳感器 測量特性
Keywords:
production log horizontal oilwater stratified flow phase volume fraction parallelwire capacitance probe measurement characteristic
分類號:
O359
文獻標志碼:
A
摘要:
提出了一種用于水平油水層狀流相含率測量的平行線電容傳感器。采用有限元分析方法(FEM)考察了傳感器靈敏場分布,分析了傳感器幾何參數對靈敏場影響;構建了傳感器層狀流下的有限元模型,計算得到了水平油水層狀流條件下的傳感器靜態響應特性;在設計傳感器測量系統基礎上進行了傳感器水平油水層狀流相含率測量,結果表明,平行線電容傳感器輸出響應與有限元模型計算結果較好吻合,且對相含率具有較高的測量線性度及靈敏度。
Abstract:
Developed is a parallelwire capacitance probe for measuring phase volume fraction in horizontal oilwater stratified flow. The finite element method (FEM) is used to investigate the probe sensitivity field distribution and analyse the effect of probe geometry on its sensitivity field; and then we calculate the probe static output response of horizontal oilwater stratified flow based on FEM model with the probe geometry parameters. Finally, we design the probe’s measurement system and carry out the phase volume fraction measurement in horizontal oilwater stratified flow. The above obtained result shows that the probe output response has good agreement with the simulation result by using FEM model and indicates better response sensitivity and linearity to the variation of phase volume fraction in horizontal oilwater stratified flow.

參考文獻/References:

[1]Abouelwafa M S A, Kendall E J M. The Use of Capacitance Sensors for Phase Percentage Determination in Multiphase Pipelines [C]∥IEEE Transactions on Instrumentation and Measurement, 1980, 29(1): 2427.
[2]Geraets J J M, Borst J C. A Capacitance Sensor for Twophase Void Fraction Measurement and Flow Pattern Identification [J]. International Journal Multiphase Flow, 1988, 14(3): 305320.
[3]Xie C G, Stott A L, Plaskowski A. Design of Capacitance Electrodes for Concentration Measurements of Twophase Flow [J]. Measurement Science and Technology, 1990, 1(1): 6578.
[4]Elkow K J, Rezkallah K S. Void Fraction Measurements in Gasliquid Flows Using Capacitance Sensors [J]. Measurement Science and Technology, 1996, 7(8):11531163.
[5]徐文峰, 李文濤, 劉興斌,等. 一種測量低產液水平井含水率的筒狀電容傳感器 [J].測井技術,2008,32(5): 403405.
[6]Liu X B, Qiao H T, Ma G F, et al. A Theoretical Model for a Capacitance Tool and Its Application to Production Logging [J]. Flow Measurement and Instrumentation, 1998, 9(4): 249257.
[7]Da Silva M J, Schleicher E, Hampel U. Capacitance Wiremesh Sensor for Fast Measurement of Phase Fraction Distributions [J]. Measurement Science and Technology, 2007, 18(7): 22452251.
[8]Fagundes Netto J R, Fabre J, Peresson L. Shape of Long Bubbles in Horizontal Slug Flow [J]. International Journal Multiphase Flow, 1999, 25(6): 11291160.
[9]Huang S X, Zhuang X G, Wang D, et al. Water Holdup Measurement in Kerosenewater Twophase flow [J]. Measurement Science and Technology, 2007, 18(12): 37843794.

相似文獻/References:

[1]劉傳平.大慶長垣特高含水期聚合物驅巖石物理實驗研究[J].測井技術,2012,36(05):451.
 LIU Chuanping.On Petrophysical Experiments for Polymer Flooded Reservoir in Extra High Water Cut Stage of Daqing Placanticline[J].WELL LOGGING TECHNOLOGY,2012,36(02):451.
[2]戴月祥,程芳,袁瑛,等.雙層套管SGDT固井質量解釋方法[J].測井技術,2012,36(03):314.
 DAI Yuexiang,CHENG Fang,YUAN Ying,et al.Interpretation Method of SGDT Cementing Quality in the Double Casing[J].WELL LOGGING TECHNOLOGY,2012,36(02):314.
[3]鄭希科,樸玉琴,孟凡宇,等.水平井油水兩相流含水率解釋預測[J].測井技術,2012,36(03):318.
 ZHENG Xike,PIAO Yuqin,MENG Fanyu,et al.Water Cut Prediction of Oilwater Twophase Flow in Horizontal Well[J].WELL LOGGING TECHNOLOGY,2012,36(02):318.
[4]王魯海,李軍,關松,等.低流量條件下渦輪流量計的黏度響應特性[J].測井技術,2012,36(04):336.
 WANG Luhai,LI Jun,GUAN Song,et al.The Performance of Turbine Flowmeter with Viscosity Changes Under Low Flow Condition[J].WELL LOGGING TECHNOLOGY,2012,36(02):336.
[5]余厚全,魏勇,湯天知,等.基于同軸傳輸線電磁波檢測油水介質介電常數的理論分析[J].測井技術,2012,36(04):361.
 YU Houquan,WEI Yong,TANG Tianzhi,et al.Theoretical Analysis of Measuring Dielectric Constant of OilWater Mixture Based on Electromagnetic Wave on Coaxial Line[J].WELL LOGGING TECHNOLOGY,2012,36(02):361.
[6]于寶,孔垂廣,于靖民.一種用于低流量測量的浮子流量傳感器[J].測井技術,2012,36(04):401.
 YU Bao,KONG Chuiguang,YU Jingmin.A Float Flow Sensor for Low Flow Measurement[J].WELL LOGGING TECHNOLOGY,2012,36(02):401.
[7]張正玉.泵出式測井系統在四川地區復雜井中的應用[J].測井技術,2012,36(04):426.
 ZHANG Zhengyu.Application of Pumpout Logging System to Complex Wells in Sichuan Oilfield[J].WELL LOGGING TECHNOLOGY,2012,36(02):426.
[8]嚴正國,蘇娟.過套管電阻率測井信號采集與處理方法研究[J].測井技術,2012,36(01):20.
 YAN Zhengguo,SU Juan.Throughcasing Resistivity Logging Signal Acquisition and Processing Techniques[J].WELL LOGGING TECHNOLOGY,2012,36(02):20.
[9]王忠義,李自平,楊雪冰,等.磁測應力資料的測井解釋方法研究[J].測井技術,2012,36(01):51.
 WANG Zhongyi,LI Ziping,YANG Xuebing,et al.Study on Interpretation Method of Magnetismstress Log Data[J].WELL LOGGING TECHNOLOGY,2012,36(02):51.
[10]張洪,李得信,楊西娟,等.套損檢測技術在青海油田的應用[J].測井技術,2012,36(01):56.
 ZHNAG Hong,LI Dexin,YANG Xijuan,et al.The Casing Damage Detection Technology in Qinghai OilField[J].WELL LOGGING TECHNOLOGY,2012,36(02):56.

備注/Memo

備注/Memo:
收稿日期:20111202
基金項目: 國家自然科學基金項目資助(50974095,41174109)
作者簡介:黃旭,男,1983年生,碩士研究生,研究方向為檢測技術與自動化裝置。
文章編號:10041338(2012)02018804
更新日期/Last Update: 2012-04-30
p62走势图