Effective Treatment of Humic Acid Foulants in SAGD Produced Water

Chunli Li, Zhiwei Yue, Xiao-ying Tian, John Hazlewood
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Abstract

Humic acids, one major type of organic foulants in steam assisted gravity drainage (SAGD) produced water, can precipitate on surface and downhole equipment in SAGD facilities, resulting in high cleaning costs, potential equipment damage and decrease of injectivity of disposal wells. In this paper, a cost-effective chemical solution is presented where an alcohol ethoxylate surfactant/chelating agent package can efficiently disperse the organic fouling molecules in SAGD produced water; therefore, the approach is expected to significantly mitigate the humic acid related fouling issues in the SAGD system. In this study, a variety of commercially available surfactant products were evaluated for their aids in well injectivity on humic acid molecules in the freshly obtained SAGD produced water. The lab testing filtration apparatus was specially designed to simulate the sandstone formation geology of SAGD disposal wells. An "efficiency factor" was defined to grade the dispersing performance of the surfactant and/or surfactant/chelating agent package in the lab filtration tests. The efficiency factor provides a reasonable estimation regarding how well the chemical can reduce the plugging risk in a disposal well as compared to the untreated produced water. Among all the surfactant products tested, an alcohol ethoxylate surfactant with the appropriate molecular structure shows distinguished dispersing performance on humic acids in SAGD produced water. However, the surfactant alone was found inconsistent in the dispersing performance when different batches of the produced water were involved. Inclusion of the specific metal chelating agents to the above surfactant formulation improved the dispersing performance consistency. The chelator molecules presumably help destroy the intermolecular bridges among humic acid molecules in the SAGD produced water; thereby, increasing the dispersing effectiveness of the alcohol ethyoxylate surfactants. Tests show that the efficiency factor of the surfactant/chelating agent package is higher than 8, which implies that the formulation could lead to eight times extension of the interval between workovers on SAGD disposal wells, a significant reduction for the operational downtime and costs. This study presented a cost-effective chemical solution to help disperse the humic acid molecules in SAGD produced water, which can help significantly reduce the fouling risk caused by organic foulants, improve injectivity and extend the intervals between workovers of SAGD disposal wells.
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SAGD采出水中腐植酸污染的有效处理
腐植酸是蒸汽辅助重力排水(SAGD)采出水中的一种主要有机污染物,它会沉淀在SAGD设施的地面和井下设备上,导致清洗成本高,潜在的设备损坏和处置井的注入能力下降。本文提出了一种经济有效的化学解决方案,即乙醇乙氧基酸表面活性剂/螯合剂包包能够有效分散SAGD采出水中的有机污垢分子;因此,该方法有望显著缓解SAGD系统中腐植酸相关的污染问题。在这项研究中,评估了各种市售表面活性剂产品对新获得的SAGD采出水中腐植酸分子的井注入能力。实验室测试过滤装置是专门为模拟SAGD处置井的砂岩地层地质而设计的。在实验室过滤测试中,定义了一个“效率因子”来对表面活性剂和/或表面活性剂/螯合剂组合的分散性能进行分级。与未经处理的产出水相比,效率系数提供了一个合理的估计,即化学物质在多大程度上降低了处置井的堵塞风险。在所测试的表面活性剂产品中,具有适当分子结构的醇乙氧基酸表面活性剂对SAGD采出水中腐植酸的分散性能较好。然而,当不同批次的采出水参与其中时,表面活性剂的分散性能并不一致。在上述表面活性剂配方中加入特定的金属螯合剂,提高了分散性能的一致性。螯合剂分子可能有助于破坏SAGD采出水中腐植酸分子之间的分子间桥;从而提高了乙醇乙基酸酯表面活性剂的分散效能。测试表明,表面活性剂/螯合剂组合的效率系数高于8,这意味着该配方可以将SAGD处理井的修井间隔延长8倍,显著减少作业停机时间和成本。本研究提出了一种具有成本效益的化学解决方案,可以帮助分散SAGD采出水中的腐植酸分子,从而显著降低有机污染物造成的结垢风险,提高注入能力,延长SAGD处理井的修井间隔。
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