塔克拉克拉市塔克拉克拉市油田过出水治理纳米化学设计

Sakar Soka, H. Sidiq
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摘要

高渗透带、断层、水窜、天然裂缝或诱导裂缝等导致的过早和过量产水是油气田开发中普遍存在的问题。过量的产水会增加腐蚀、乳化液和结垢的速度,从而缩短油井的生产寿命,降低井口流动压力,从而影响油井的经济效益。有几种技术用于控制过量的水生产,如化学和机械。在这项工作中,采用一种新的化学方法来解决位于伊拉克库尔德斯坦地区的Taq Taq油田的过量产水问题。由于储层单元是高度裂缝化的碳酸盐岩,因此确定了通过裂缝进入储层的产水。因此,这项工作设计的化学物质是为了选择性地减少过量的产水,并在预计会出现过量产水的区域实现裂缝连通性。制备了三种纳米溶液,并对其流变性能进行了研究。只有一个被选中,并符合现场筛选标准。纳米溶液的组成主要是聚丙烯酰胺与水泥、粘土和无机交联剂的纳米复合材料混合。所有纳米溶液都经过了广泛的筛选,并研究了它们的机械强度、韧性和拉伸模块。结果表明,纳米溶液的强度随纳米浓度的增加而增加。同样,纳米复合材料也显著提高了它们的粘度和抗降解能力。利用扫描电子显微镜(SEM)对所研究材料的纳米尺寸和分布进行了表征。
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Nano Chemical Design for Excessive Water Production Control in Taq Taq Oil Field
A common problem in oil and gas field is premature and excessive water production through higher permeable thief zone, faults, water conning or channeling and natural or induced fracture. Excessive water production impacts the economics of a well through increasing rate of corrosion, emulsion and scale formation, consequently shortening its production life and lowering flowing wellhead pressure. There are several techniques used to control excessive water production such as chemical and mechanical. In this work a novel chemical approach was followed to tackle excessive water production in Taq Taq oil field located in Kurdistan Region Iraq. Water production into the reservoir was determined to be through the fractures as the reservoir units are highly fractured carbonates. Therefore, the chemicals designed by this work were to reduce excessive water production selectively and fracture connectivity in the zones where excessive water production is expected. Three nano-solutions have been prepared and investigated for their rheological properties. Only one is selected and met the field screening criteria. The composition of the nano-solutions were mainly polyacrylamide mixed with nano composite of cement, clay and inorganic cross-linker. All nano-solution underwent extensive screening and studied for their mechanical strength, toughness and tensile module. Results showed that nano-solutions strength increases with increasing the nano concentration. Similarly, their viscosity and degradation resistance are improved noticeably with nano composites. The scanning Electron Microscopy (SEM) was also used to characterized the nano size and distribution studied by this work.
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