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首页|期刊导航|西南石油大学学报(自然科学版)|南缘深层高温高压井出砂临界压差预测研究

南缘深层高温高压井出砂临界压差预测研究OA北大核心CSTPCD

Prediction of Critical Pressure Difference for Sand Production of Deep HTHP Wells in Southern Margin

中文摘要英文摘要

深层超高压水平井出砂预测困难且针对性研究较少,难以制定合理有效的控砂和防砂措施,油田产量和经济效益受到较大的影响.综合考虑井筒内流体流动、高温差下井壁岩石的应力变化、流体渗流效应、地应力在井壁上的复杂分布、地层压力衰竭及水侵因素对出砂的影响,建立了适用于南缘深层高温高压井出砂临界压差的预测模型.分析表明,高生产压差是深井出砂的主导因素;高产造成的井筒与地层的温差会在井壁产生应力,影响井壁稳定性;生产后期地层孔隙压力下降会增大井筒周向应力,地层水侵会降低岩石强度,两者均会增大出砂风险;采用南缘实例井进行出砂压差验证后结果较吻合,研究成果可为类似深层高温高压井出砂临界压差预测和合理生产压差制定提供理论指导.

Sand production prediction of deep ultra-high pressure horizontal wells is difficult and there are few targeted studies,so it is difficult to formulate reasonable and effective sand control measures,which has a great impact on oilfield production and economic benefits.With comprehensive consideration of the fluid flow in the wellbore,the stress change of wellbore rock under high temperature difference,fluid seepage effect,the complex distribution of in-situ stress on the wellbore,the formation pressure failure and the influence of water invasion on sand production,this paper establishes a sand production prediction model suitable for the critical pressure difference of sand production in deep high temperature and high pressure wells in the southern margin.The analysis shows that high drawdown is the dominant factor;the temperature difference between the wellbore and the formation caused by high production will produce stress in the wellbore and affect the stability of the wellbore;in the later stage of production,the decrease of formation pore pressure will increase the circumferential stress of wellbore,and the invasion of formation water will reduce the rock strength,both of which will increase the risk of sand production.The results of sand production differential pressure verification by using the example well in the southern margin are consistent,which can provide guidance and reference for the prediction of sand production critical differential pressure of similar deep high temperature and high pressure wells and the formulation of reasonable production differential pressure.

马都都;蒋贝贝;刘涛;吴越;何园

中国石油新疆油田公司工程技术研究院,新疆克拉玛依 834000油气藏地质及开发工程全国重点实验室·西南石油大学,四川成都 610500

石油、天然气工程

深层油藏压力衰竭水侵井周应力出砂压差

deep reservoirpressure depletionwater intrusioncircumferential stresssand production differential pressure

《西南石油大学学报(自然科学版)》 2024 (003)

94-101 / 8

四川省自然科学基金面上基金(2022NSFSC0192)

10.11885/j.issn.1674-5086.2022.11.24.26

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