高密度铯/钾 (Cs/K) 甲酸盐流体在五口高产的 Martin Linge 高速气井中从储层钻井到上部完井装置得到了成功应用。四口井采用裸眼砾石充填 (OHGP) 完井，一口井采用独立砂筛管。

此次砾石充填作业标志着全球成功完成的最高密度载液OHGP，比重为2.06。在压力和温度条件（745-780 bar 和 135-140°C）下进行的复杂操作几乎符合高压/高温 (HP/HT) 的要求，包括控压钻井 (MPD)、过平衡筛管运行和通过在整个操作过程中使用相同的基础盐水，简化了裸眼砾石充填。

甲酸铯/钾储层钻井液和筛管液采用生物聚合物添加剂和最少的碳酸钙桥颗粒进行设计。选择透明的 Cs/K 甲酸盐盐水作为砾石充填载体液。在所有操作阶段使用 Cs/K 甲酸盐液体降低了操作阶段之间转换的复杂性。此外，储层仅暴露于一种滤液，而不使用破坏性的加重固体。

该钻井液促进了 MPD 的成功，并在由砂岩、煤柱和页岩互层组成的储层中获得了具有非常好的井眼质量的井。浓缩甲酸盐盐水基流体的页岩稳定特性为延长裸眼时间提供了可接受的条件，并允许在运行筛管之前在近高压/高温条件下进行额外的测井运行，包括孔隙压力测量。在循环筛网运行液并安装筛网之前，进行了一次自下而上的清理。在整个钻井和筛管运行阶段，井喷和渗流损失都很低。任何一口井都不需要进行破碎剂处理。所有井均具有良好的初期产能和较高的产能指数。

Equinor 的 Martin Linge 油田在所需的高流体密度下成功进行了 OHGP 作业，为在充满挑战的高压环境下完井树立了新标准。

本摘要摘自 SJ Nilsen、HU Obrestad、H. Kaarigstad、N. Mansurova、TA Solvoll、Equinor ASA、J. Lasechen、S. Howard、B. Abrahams 和 C. Busengdal 撰写的论文 SPE 212487，中矿特种流体。该论文已经过同行评审，并可在 OnePetro 的 SPE 期刊上以开放获取方式获取。

High-density cesium/potassium (Cs/K) formate fluids were successfully utilized from reservoir drilling to upper completion installation in five productive Martin Linge high-rate gas wells. Four wells were completed with openhole gravel pack (OHGP) and one with standalone sand screens.

The gravel packing operation marks what is the highest density carrier fluid OHGP successfully completed worldwide, with a specific gravity of 2.06. A complex operation under pressure and temperature conditions (745–780 bar and 135–140°C) that almost qualify as high pressure/high temperature (HP/HT), including managed pressure drilling (MPD), overbalanced screen running, and openhole gravel packing, was simplified by using the same base brine throughout the operation.

Cs/K formate reservoir drilling fluid and screen-running fluid were designed with biopolymeric additives and minimal calcium-carbonate-bridging particles. Clear Cs/K formate brine was chosen as gravel pack carrier fluid. The use of Cs/K formate fluids for all stages of the operation reduced the complexity of transitioning between the operational stages. In addition, the reservoir was only exposed to one filtrate without application of damaging weighting solids.

The drilling fluid contributed to successful MPD and delivered wells with very good hole quality in the reservoir, which consisted of interbedded sandstone, coal stringers, and shale. The shale-stabilizing properties of concentrated formate brine-based fluids provided acceptable conditions for extended openhole time and allowed additional logging runs, including pore pressure measurements, under near-HP/HT conditions, before running the screens. One bottom-up cleanout was conducted before the screen-running fluid was circulated in and the screens installed. The spurt and seepage losses were low throughout the drilling and screen-running phases. No breaker treatment was required in any of the wells. All wells have proved to have good initial productivity and high well productivity index.

The successful OHGP operations performed with the high fluid densities required in Equinor’s Martin Linge field have set a new standard for well completions in challenging high-pressure environments.

This abstract is taken from paper SPE 212487 by S. J. Nilsen, H. U. Obrestad, H. Kaarigstad, N. Mansurova, and T. A. Solvoll, Equinor ASA, and J. Løchen, S. Howard, B. Abrahams, and C. Busengdal, Sinomine Specialty Fluids. The paper has been peer reviewed and is available as Open Access in SPE Journal on OnePetro.