考慮耦合效應(yīng)的頁巖油井筒溫壓分布預(yù)測分析

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中圖分類號：TE355文獻(xiàn)標(biāo)識碼：ADOI：10.12473/CPM.202405045

Dong Kangxing，Guo Shukui，Jin Zhongshi，etal.Predictionand analysis of temperature and pressure distribution ir shale oil welbore considering coupling effect [J]. China Petroleum Machinery，2025，53（5）：110-116.

Prediction and Analysis of Temperature and Pressure Distribution in Shale Oil Wellbore Considering Coupling Effect

Dong Kangxing1Guo Shukui'Jin Zhongshi2Zhao Xinrui'Chen Yongfeng1Guo Zhuang' （1.SchoolofMechanical Scienceand Enginering，Northeast Petroleum University；.No.8OperationAreaofNo.2OilPro duction Plant，CNPC Daqing Oilfield Company Limited）

Abstract：The temperature and pressure in wellore are important parameters for production prediction，performance analysis and production design of shale oil wels.Based on field monitoring data，a temperature and pressure prediction method for oil and gas mixed welbore under multi-field coupling was proposed using wellbore pressure model，wellbore heat transfer theory and drift model.Then，the constructed coupling model was solved using the Newton iteration method，and verified through a comparative analysis of coupling by combining with literature dataand measured data from shale oil wels in Daqing Oilfield.Finally，using this model，the sensitivities of gas production，liquid production and disslved gas-oil ratio to temperature and pressre were analyzed.The results show thatan increase in liquid/gas production leads toan increase in temperature，whilean increase in dissolved gas-oil ratio has litle impact on temperature.The increase in liquid production leads toan increase in pressure，the increase in gas production leads toa decrease in pressre before increasing，and the increase in dissolved gas-oil ratio leads to a decrease in overallpressure trend.The pressre and temperature predicted using the proposed method have errors of 1.39% and 1.44% respectively compared to the measured data， which can meet the requirements of engineering calculations. The conclusions provide guidance for the development of shale oil wells.

Keywords：shale oil well；drift model；temperature-pressure coupling model；wellbore temperature and pressure prediction; gas production; liquid production; dissolved gas-oil ratio

0引言

頁巖油開采時，井筒內(nèi)頁巖油和頁巖氣的物性參數(shù)受溫度和壓力的相互影響，加上頁巖油井具有產(chǎn)氣量大，流型復(fù)雜及高溫高壓的特點，使得測量頁巖油井筒的溫度壓力分布變得困難。（剩余9606字）