Solid Control System for Maximizing Drilling

IF 1.6 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Scientific Drilling Pub Date : 2018-10-31 DOI:10.5772/INTECHOPEN.76149

S. Irawan, Imros B. Kinif

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引用次数: 7

Abstract

This chapter focuses on the development of solid control system that is suited for drilling 12.25-inch hole. The first part discusses the performance of rate of penetration (ROP), equivalent circulating density (ECD) and drill string drag while the second part of the chapter discusses about the effect of solid control system performance to mud properties plastic viscosity (PV), yield point (YP), and low gravity solid (LGS). The input parameters were gathered from two different set up of solid control systems that were used in Well A and Well B. The result is mainly based on the performance of original solid control system new design vs. old design. Installation of distributor tank and channeling the mud to respective shale shakers significantly enhanced the system and operational performance. The ROP at 12.25-inch drilling was improved by 20%. New design, on an average, improved the ECD margin by reducing additional pressure exerted using original mud from 4.9 to 2.9%. High ECD margin is not recommended because it can break the weak formation. Mud properties while drilling the 12.25-inch hole section; PV, YP and LGS values were improved by 14, 17, and 25% respectively.

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最大化钻井的固体控制系统

本章重点介绍适合钻12.25英寸孔的固体控制系统的开发。第一部分讨论了钻速(ROP)、当量循环密度(ECD)和钻柱阻力的性能，第二部分讨论了固控系统性能对泥浆性能的影响，塑性粘度(PV)、屈服点(YP)和低重力固体(LGS)。输入参数是从A井和b井使用的两套不同的固体控制系统中收集的。结果主要基于原始固体控制系统的性能，新设计与旧设计。安装配液罐并将泥浆输送到各自的振动筛，显著提高了系统性能和作业性能。在12.25英寸钻井时，ROP提高了20%。平均而言，新设计通过将原始泥浆施加的额外压力从4.9%降低到2.9%，提高了ECD裕度。不建议使用高ECD裕度，因为这会破坏脆弱的地层。钻进12.25英寸井段时的泥浆特性;PV、YP和LGS值分别提高了14%、17%和25%。

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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