天然气水合物抑制剂的比较分析:局部和常规

Virtue Urunwo Elechi, S. S. Ikiensikimama, J. Ajienka, O. Akaranta, M. Onyekonwu, O. Okon
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引用次数: 4

摘要

本文研究了一种本地采购材料(LSM)在实验室微型流动回路中的性能,内径为1 / 2英寸,由316不锈钢管包裹在外部金属框架上的4英寸PVC管中制成。用常规水合物抑制剂2-(二甲氨基)甲基丙烯酸乙酯(2- dmaem)测定了LSM的性能。性能评价基于压力与时间、压力与时间变化、初始和最终压力与时间图。这些图显示,LSM在所有考虑的重量百分比(0.01wt% ~ 0.03wt %)上都优于传统的2-DMAEM。2-DMAEM的最佳抑菌率为0.02wt%,抑菌率为81.58%;2-DMAEM的抑菌率为73.68%。0.01wt%和0.03wt% LSM的抑菌率分别为72.81%,2-DMAEM的抑菌率分别为51.75%和76.32%。LSM是本地采购的,很容易在商业数量上获得,而且是环保的,因为它是基于植物的,而不是有毒和昂贵的2-DMAEM。建议开发LSM作为传统的天然气水合物抑制剂的替代品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative Analysis of Gas Hydrate Inhibitors: Local and Conventional
This paper takes a look at the performance of a Locally Sourced Material (LSM) in a laboratory mini flow loop of ½ -inch internal diameter, made from 316 stainless steel pipe sheathed in a 4-inch PVC pipe built on an external metal frame work. The performance of the LSM was measured with that of the conventional hydrate inhibitor 2-(Dimethylamino)ethylmethacrylate (2-DMAEM). The performance evaluation was based on Pressure versus time, change in pressure versus time and initial and final pressure versus time plots. These plots showed that LSM performed better than the conventional 2-DMAEM in all the weight percentages considered (0.01wt% −0.03wt %). The optimum weight percentage for inhibition was 0.02wt% with inhibition efficiency of 81.58% while that of 2-DMAEM was 73.68%. The inhibition efficiency for 0.01wt% and 0.03wt% of LSM wereboth 72.81% whereas that of 2-DMAEM were 51.75% and 76.32% respectively. The LSM is locally sourced, readily available in commercial quantity and also eco-friendly because it is plant based unlike the 2-DMAEM which is toxic and expensive. It is advised that the LSM be developed as an alternative to the conventional inhibitor for gas hydrate inhibition.
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