基于非等温三相流模型的欠平衡钻井井底压力预测  被引量：2

作　　者：FALAVAND-JOZAEI A HAJIDAVALLOO E SHEKARI Y GHOBADPOURI S FALAVAND-JOZAEI A;HAJIDAVALLOO E;SHEKARI Y;GHOBADPOURI S(Department of Mechanical Engineering,Ahvaz Branch,Islamic Azad University,Ahvaz 6134937333,Iran;Department of Mechanical Engineering,Shahid Chamran University of Ahvaz,Ahvaz 6135783151,Iran;Drilling Research Center,Shahid Chamran University of Ahvaz,Ahvaz 6135783151,Iran;Department of Mechanical Engineering,Yasouj University,Yasouj 7591874934,Iran)

机构地区：[1]伊斯兰阿萨德大学阿瓦士分校机械工程系,阿瓦士6134937333,伊朗 [2]阿瓦士沙希德查姆兰大学机械工程系,阿瓦士6135783151,伊朗 [3]阿瓦士沙希德查姆兰大学钻井研究中心,阿瓦士6135783151,伊朗 [4]亚苏季大学机械工程系,亚苏季7591874934,伊朗

出　　处：《石油勘探与开发》2022年第2期358-365,共8页Petroleum Exploration and Development

摘　　要：考虑欠平衡钻井中钻屑的影响以及由于地层和钻井液之间热量传递导致的温度变化,应用气-液-固三相流模型来模拟井筒流体,计算井筒温度和压力分布,分析不同参数对环空内流体压力和温度分布的影响。研究表明,与两相流模型及其他考虑地温梯度的三相流模型相比,考虑传热的非等温三相流模型能够更加准确地预测欠平衡钻井井底压力。井筒内黏性耗散、旋转钻柱与井壁间摩擦及钻头钻进产生的热源以及储集层油气流入对环空内流体温度分布有重要影响,进而对井底压力产生重要影响。井底流体温度随着液相流量、循环时间、液相和气相比热容的增加而降低,随着气相流量的增加而升高。井底压力与气相和液相流量的相关性较强,液相流量增加则井底压力增大,气相流量增加则井底压力减小;井底压力与循环时间、液相和气相比热容的相关性较弱。The present study aims at investigating the effect of temperature variation due to heat transfer between the formation and drilling fluids considering influx from the reservoir in the underbalanced drilling condition.Gas-liquid-solid three-phase flow model considering transient thermal interaction with the formation was applied to simulate wellbore fluid to calculate the wellbore temperature and pressure and analyze the influence of different parameters on fluid pressure and temperature distribution in annulus.The results show that the non-isothermal three-phase flow model with thermal consideration gives more accurate prediction of bottom-hole pressure(BHP)compared to other models considering geothermal temperature.Viscous dissipation,the heat produced by friction between the rotating drilling-string and well wall and drill bit drilling,and influx of oil and gas from reservoir have significant impact on the distribution of fluid temperature in the wellbore,which in turn affects the BHP.Bottom-hole fluid temperature decreases with increasing liquid flow rate,circulation time,and specific heat of liquid and gas but it increases with increasing in gas flow rate.It was found that BHP is strongly depended on the gas and liquid flow rates but it has weak dependence on the circulation time and specific heat of liquid and gas.BHP increase with increasing liquid flow rate and decreases with increasing gas flow rate.

关 键 词：欠平衡钻井 井底压力 流体温度 钻屑 三相流模型 温度分布 井筒传热 

分 类 号：TE21[石油与天然气工程—油气井工程]