Sour Fluids Management Using Non-chemical H2S Scavenger

Day 3 Wed, March 20, 2019 Pub Date : 2019-03-15 DOI:10.2118/194990-MS

P. Dhulipala, Jagrut Jani, M. Wyatt, J. Leidensdorf, Soma Chakraborty

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Abstract

The objective of this study was to develop and apply a non-chemical based environmentally preferable hydrogen sulfide scavenger that addresses secondary issues caused by current chemical scavengers like triazine and glyoxal and to confirm its ability to mitigate sulfide in different applications. Recombinant DNA and protein expression technologies were exploited to develop this novel H2S scavenger. This non-chemical scavenger (NCS) is generated by cloning the cDNA sequence from a thermophilic organism and expression of the encoded protein in suitable vector. Non-chemical based formulation was developed and blended in a pilot plant. The efficacy of the scavenger was evaluated in sour brine, crude oil and mixed production fluids from different sources. Sulfide concentrations before and after reactions in headspace were measured by using Dräger gas detection tubes (ASTM D5705). Corrosion testing was performed using kettle tests. Field assessment of the scavenger was carried out by treating sour oil at the Bakken oil field as per the field testing plan. In this study, H2S mitigation was addressed using a novel non-chemical scavenger generated from thermophilic bacteria from lab scale to pilot scale. Functional studies conducted by treatment of soured brine and oil revealed 72% and 90% reduction in H2S concentration respectively. The scavenger showed a 75% reduction of sulfide in simulated mixed production samples containing 30:70 ratio of brine and oil. Limited testing of this scavenger in field showed reduction of headspace sulfide from 400 ppm to 2 ppm. In addition, the field data showed less than 0.5% BS&W. The scavenger also showed no significant increase in corrosion during the scavenging reaction. These studies confirm that this novel non-chemical scavenger can be successfully used to mitigate H2S in various systems without causing adverse effects that were seen with chemical scavengers. A non-chemical scavenger has several advantages such as meeting environmental regulations, reducing, or eliminating secondary effects like solids formation, corrosion, scaling, and health hazards that are associated with current chemical scavengers.

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使用非化学H2S清除剂管理含酸流体

本研究的目的是开发和应用一种非化学基础的环保硫化氢清除剂，以解决当前化学清除剂如三嗪和乙二醛引起的次要问题，并确认其在不同应用中减轻硫化氢的能力。利用重组DNA和蛋白质表达技术开发了这种新型的H2S清除剂。该非化学清道夫(NCS)是通过从嗜热生物中克隆cDNA序列并在合适的载体中表达而产生的。在中试工厂开发和混合了非化学基础配方。在不同来源的含酸盐水、原油和混合采出液中评价了该清除剂的效果。使用Dräger气体检测管(ASTM D5705)测量顶空反应前后的硫化物浓度。采用釜式试验进行腐蚀试验。根据现场测试计划，通过处理Bakken油田的酸性油，对该清除剂进行了现场评估。在这项研究中，从实验室规模到中试规模，使用一种由嗜热细菌产生的新型非化学清除剂来缓解H2S。对酸化盐水和酸化油进行的功能研究表明，H2S浓度分别降低了72%和90%。在盐油比为30:70的模拟混合生产样品中，该清除剂的硫化物含量降低了75%。该清除剂在现场的有限测试表明，将顶空硫化物从400ppm降至2ppm。此外，现场数据显示BS&W小于0.5%。清除剂在清除反应中也没有明显的腐蚀增加。这些研究证实，这种新型的非化学清除剂可以成功地用于减轻各种系统中的H2S，而不会产生化学清除剂所见的不良影响。非化学清除剂有几个优点，例如符合环境法规，减少或消除与当前化学清除剂相关的固体形成、腐蚀、结垢和健康危害等次生效应。

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, March 20, 2019

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