Q油田高温、腐蚀性地热井套管设计

R. Wardana, Muhammad Akhwan
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引用次数: 0

摘要

套管设计是地热井钻井最关键的阶段。由于大多数问题都可以通过良好的井身设计提前预防。可以评估以前和现在的井问题,以加强套管设计,减轻主要原因及其与井套管的关系。本研究是通过NPT和套管损坏分析,提前分析套管在钻井和生产过程中可能遇到的问题,进行地热井套管设计。目的是在考虑轴向、环向、热应力以及腐蚀的影响下,构造地热井套管的设计深度和等级。所使用的方法是根据油井的可用DDR数据分析NPT,然后分析生产井发生的损坏,这些分析的结果将成为下一个油井套管设计的建议。结果表明,FDL-33井将使用回接系统,地面套管20“K55 133 ppf,350 mMD,带半优质连接,生产套管13-3/8”L80 68 ppf,1475.8 mMD,带有优质连接,产品回接套管13-3/8“L80 68 ppf,300 mMD,有优质连接,以及生产衬管9-5/8”L80 40 ppf,2695.3 mMD,具有半优质连接。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Geothermal Well Casing Design with High Temperature and Corrosive in Q Field
Casing design is the most crucial phase of drill a geothermal well. As most of problems could be prevented beforehand by having an excellent well casing design. Prior and present well problems may be assessed to enhance casing design mitigate leading causes and its relationship to well casing. This research is about geothermal well casing design by analyzing in advance the problems that the casing may encounter during drilling and production through NPT & casing damage analysis. The purpose is to construct design depth and grade of geothermal well casing from the effects of axial, hoop, and thermal stress, as well as corrosion. The method used is to analyze the NPT from the available DDR data of the wells and then analyze the damage that occurs to the production wells which then the results of these analysis’ become recommendations for of the next well casing design. The results show Well FDL-33 will use tie-back system with surface casing 20” K55 133 ppf at 350 mMD with semi-premium connection, production casing 13-3/8” L80 68 ppf at 1475.8 mMD with premium connection, production tieback casing 13-3 /8” L80 68 ppf at 300 mMD with premium connection, and production liner 9-5/8” L80 40 ppf at 2695.3 mMD with semi-premium connection.
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