Fit For Service Qualification for Sour Service High Strength Production Casing For High Temperature

L. I. L. Lima, C. Gomes, C. Landier, M. Lima, Kevin Schleiss, A. F. Lazaro, B. Diehl, Ilson Palmieri
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Abstract

In recent years the application of high strength carbon steel with 125ksi specified minimum yield strength as a production casing in deepwater and high-pressure reservoirs has increased. Sulfide stress cracking (SSC) can develop when high strength carbon steel is exposed to a sour environment. The H2S partial pressure in these sour reservoirs is above the 0.03 bar limit for this material at room temperature. Materials SSC performance evaluation requires an accurate simulation of field conditions in the laboratory. To evaluate the production casing SSC behavior, some fit for service (FFS) tests were carried out considering the well geothermic temperature profile for the materials selection. This paper presents a fit for service qualification carried out on Casing 125 ksi SMYS (Specified Minimum Yield Strength) materials. Two products with 125ksi SMYS were considered: one that has existed for several years and one developed more recently with a better SSC resistance – above the pH2S limit considered for the standard 125ksi SMYS material. The results obtained in this test program allowed casing 125 ksi SMYS materials selection for temperature above 65°C and environment more severe in terms of pH2S than the domain previously established for this grade. This allowed a new well production design, which saves one casing phase and avoids the necessity to use intermediate liners to prevent collapse.
符合酸役高温高强度生产套管的使用资格
近年来,规定最低屈服强度为125ksi的高强度碳钢作为生产套管在深水和高压油藏中的应用越来越多。当高强度碳钢暴露在酸性环境中时,会发生硫化物应力开裂。在室温下,这些含硫储层中的H2S分压高于该材料的0.03 bar极限。材料SSC性能评估需要在实验室中精确模拟现场条件。为了评估生产套管的SSC性能,考虑到井的地热温度分布,进行了一些适合使用(FFS)的测试,以选择材料。本文介绍了一种适用于125 ksi最小屈服强度(SMYS)套管材料使用鉴定的方法。考虑了两种125ksi的SMYS产品:一种已经存在了几年,另一种是最近开发的,具有更好的SSC电阻-高于标准125ksi SMYS材料的pH2S限制。在该测试程序中获得的结果允许套管选择125 ksi的SMYS材料,温度高于65°C, pH2S环境比之前为该等级建立的领域更为严峻。这就实现了新的井生产设计,节省了一个套管阶段,避免了使用中间衬管来防止坍塌。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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