Feasibility Analysis and Field Application of Waste Oily Sludge Resource Utilization Technology in Oilfield

Yao Wang, Wang Siwen, Rui Li, Hao Wang
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Abstract

Oily sludge is one of the main wastes produced during oilfield development. The composition of oily sludge is complex, resulting in difficult separation and high processing cost. The existing technologies such as landfill, microbiological deterioration, heat treatment and solvent extraction are difficult to meet the needs of oily sludge treatment. It is necessary to develop a highly efficient and cheap reutilization technology for oily sludge. For this reason, we have proposed to recycle the oily sludge which can be utilized to profile control in water injection and thermal recovery wells. In the process of research, we have developed five aspects of work: First, three-phase separation of oily sludge was carried out by distillation, and water quality, oil-phase composition and solid particle size were analyzed. The compatibility of oily sludge and oil reservoir was investigated. Second, the mechanism and influence factors of the oily sludge for profile control were studied by long core model test and microscope observation. Third, suspension analysis and mobility analysis were developed on oily sludge, and experimental results were used to research oily sludge profile control agent. Fourth, numerical simulation was used to optimize the engineering design of Oily Sludge Profile Control (OSPC). Fifth, ground process flow of oily sludge for profile control was designed. The following conclusion can be drawn from the study: OSPC is a Reutilization Technology for oily sludge, which could seal up oily sludge in-situ in oil reservoir and be favorable for increasing production of oil wells through profile control. Through the rheology and plugging test, it was clear that OSPC could greatly reduce the pollution risk of oily sludge and the ground treatment cost, and solid phase and oil phase of mud were retained in the formation. It could plug high permeability channels and high permeability area (the plugging rate was more than 90%) to adjust water/steam injection profile of water/thermal recovery wells. Profile control agent, engineering design method and ground process flow for oily sludge were developed. The technology applied 72 wells in the oilfield, 184 thousand tons of oily sludge were used in total, production of crude oil was increased by 84 thousand barrels, and a lot of sludge treatment costs could be saved.
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油田废油泥资源化利用技术的可行性分析及现场应用
含油污泥是油田开发过程中产生的主要废弃物之一。含油污泥成分复杂,分离困难,处理成本高。现有的填埋、微生物变质、热处理、溶剂萃取等技术难以满足含油污泥处理的需要。开发高效、廉价的含油污泥资源化利用技术势在必行。为此,我们提出对含油污泥进行循环利用,可用于注水井和热采井的调剖。在研究过程中,我们开展了五个方面的工作:首先,通过蒸馏对含油污泥进行三相分离,并对水质、油相组成和固体粒度进行分析。研究了含油污泥与油藏的相容性。其次,通过长岩心模型试验和显微镜观察,研究了含油污泥调剖机理及影响因素。第三,对含油污泥进行悬浮分析和流动性分析,并利用实验结果对含油污泥调剖剂进行研究。第四,采用数值模拟方法对含油污泥剖面控制(OSPC)的工程设计进行优化。第五,设计了含油污泥调剖地面工艺流程。研究得出以下结论:OSPC是一种含油污泥资源化利用技术,可以将含油污泥就地封存在油藏中,有利于油井调剖增产。通过流变性和堵漏试验表明,OSPC可大大降低含油污泥的污染风险和地面处理成本,并可将泥浆的固相和油相保留在地层中。封堵高渗透通道和高渗透区域(封堵率达90%以上),调整水/热采井注汽剖面。提出了含油污泥的调剖剂、工程设计方法和地面工艺流程。该技术在该油田应用了72口井,共使用含油污泥18.4万吨,增加原油产量8.4万桶,节约了大量污泥处理费用。
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