Investigating the Treatment of Oil and Gas Produced Water Using a Spray Dryer on a Bench Scale

Iranian Journal of Oil and Gas Science and Technology Pub Date : 2020-01-01 DOI:10.22050/IJOGST.2019.196098.1514

Mohammad Razaghiyan, M. Rahimi, H. Karimi

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引用次数: 1

Abstract

The current work investigates the performance of a single-stage, bench-scale system using a spray dryer to treat produced water. The produced water is generated in three large reservoirs of Ahvaz, Maroon, and Mansouri fields, which have different compositions but the same high total dissolved solids (TDS) and total organic carbon (TOC). The results of this study indicate that the newly developed bench scale rig is able to reduce the amount of TDS in the water produced in Ahvaz, Maroon, and Mansouri reservoirs to 98.78, 98.65, and 98.90, and TOC decreases the three types of the produced water to zero. Investigating the effect of independent parameters on the performance of this system using response surface methodology shows that the most effective parameters affecting the efficiency of the produced water treatment system are the entering carrier gas temperature (TGIT), the flow rate of the produced water (QL), the carrier gas flow rate entering the spray dryer (QG), and the atomizer pore size (d). Additionally, the optimal conditions are obtained as follows: TGIT = 113.7 °C, QL = 20.8 cc/min, QG = 59.9 m3/hr., and d = 0.03 mm.

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喷雾干燥机处理油气采出水的实验研究

目前的工作是研究使用喷雾干燥器处理采出水的单级实验系统的性能。采出水来自Ahvaz、Maroon和Mansouri油田的三个大型储层，它们的成分不同，但总溶解固体(TDS)和总有机碳(TOC)都很高。研究结果表明，新开发的台级钻机能够将Ahvaz、Maroon和Mansouri油藏采出水中的TDS降至98.78、98.65和98.90,TOC将三种类型的采出水中的TDS降至零。利用响应面法考察了独立参数对系统性能的影响，结果表明，影响采出水处理系统效率的最有效参数是进入载气温度(TGIT)、采出水流速(QL)、进入喷雾干燥器的载气流速(QG)和雾化器孔径(d)，并得出了最佳条件:TGIT = 113.7℃，QL = 20.8 cc/min, QG = 59.9 m3/hr。， d = 0.03 mm。

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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Iranian Journal of Oil and Gas Science and Technology

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