Qualification of UNS N08028 and UNS N08825 Material as a Cost-Effective Solution for Extreme Sour Environment

Day 3 Wed, November 13, 2019 Pub Date : 2019-11-11 DOI:10.2118/197572-ms

Justine Lamy, Akio Mizukami, Cécile Millet, G. Néel, Nicolas Bouchart

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Abstract

In recent years, Oil and Gas operators have faced new challenges with higher H2S partial pressure wells, especially in the Middle East. NACE MR 0175 part III provides guidance on the material selection for Corrosion Resistant Alloys; however, the well conditions considered by the Operator (total pressure 5526 psi, 1044 psi H2S, 279°F) are on the border of the UNS N08028 / UNS N08825 application domain, and therefore the recommendation would be to use a higher alloy, UNS N06985 material. This paper describes a methodology to perform fine material selection for such critical conditions considering the representativeness of the testing condition and specific laboratory testing to qualify a suitable material for the intended application. The objective was to evaluate the suitability of UNS N08028 and UNS N08825 material 110 ksi in the conditions described above. Based on actual reservoir conditions and fluid analysis, the test solution was defined to represent actual corrosiveness of the environment. Solution components, gas phases and in situ pH were defined using OLI® Stream Analyzer Thermodynamic software to reach the specified conditions at the test temperatures. Then, Stress Corrosion Cracking was assessed based on SSRT (Slow Strain Rate Test) as per NACE TM 0198-2016 [9], a rather conservative test as the material is stressed in its plastic domain; and C-ring as per NACE TM 0177-2016 [12], performed on rolled material to be representative of the final material surface finish. All SSRT specimens showed a high ductility ratio and the absence of secondary cracking on the gauge section on both grades. All SCC C-ring specimens exposed to the environment successfully completed 720 hours exposure on both grades. Both UNS N08028 and UNS N08825 materials successfully passed the SSRT and C-ring tests, allowing the Operator to optimize the material selection by choosing a grade specifically qualified for their application and reducing the overall tubular cost by 30%.

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UNS N08028和UNS N08825材料作为极酸环境的高性价比解决方案的鉴定

近年来，油气运营商面临着更高H2S分压井的新挑战，特别是在中东地区。NACE MR 0175第III部分提供了耐腐蚀合金材料选择的指导;然而，作业者考虑的井况(总压5526 psi, H2S 1044 psi, 279°F)处于UNS N08028 / UNS N08825应用范围的边界，因此建议使用更高合金的UNS N06985材料。本文描述了一种方法来执行这样的关键条件下的精细材料选择，考虑到测试条件的代表性和特定的实验室测试，以确定合适的材料用于预期的应用。目的是评价UNS N08028和UNS N08825材料110 ksi在上述条件下的适用性。根据实际油藏条件和流体分析，定义了代表实际环境腐蚀性的测试溶液。使用OLI®Stream Analyzer热力学软件定义溶液组分、气相和原位pH值，以在测试温度下达到规定的条件。然后，根据NACE TM 0198-2016[9]，基于SSRT(慢应变率测试)评估应力腐蚀开裂，这是一种相当保守的测试，因为材料在其塑性域中受到应力;根据NACE TM 0177-2016[12]，在轧制材料上进行测试，以代表最终材料表面光洁度。所有SSRT试件均表现出较高的延性比，且在两个等级的规范截面上均未出现二次开裂。所有暴露在环境中的SCC c环标本都成功地完成了720小时的两个等级暴露。UNS N08028和UNS N08825材料均成功通过了SSRT和c环测试，使作业者能够通过选择特别适合其应用的等级来优化材料选择，并将管柱总成本降低30%。

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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Day 3 Wed, November 13, 2019

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