Industry First Openhole Alternate Path Gravel Pack Completion in HPHT Environment: Fluid Development and Case History

Day 2 Wed, September 22, 2021 Pub Date : 2021-09-15 DOI:10.2118/206048-ms

Pradeep T. Pillai, Chih-Cheng Lin, J. Brege, R. Mohan, E. Derkach, V. Lafitte, B. Gadiyar, Tint Htoo Aung, J. Santamaría

{"title":"Industry First Openhole Alternate Path Gravel Pack Completion in HPHT Environment: Fluid Development and Case History","authors":"Pradeep T. Pillai, Chih-Cheng Lin, J. Brege, R. Mohan, E. Derkach, V. Lafitte, B. Gadiyar, Tint Htoo Aung, J. Santamaría","doi":"10.2118/206048-ms","DOIUrl":null,"url":null,"abstract":"\n For offshore wells requiring sand control, Open Hole Gravel Packing (OHGP) with or without shunted screen technology is a common completion technique. Prior to this paper, there has been no application of shunted screen OHGP in High-Pressure High-Temperature (HPHT) environment due to lack of a viscous fluid availability in high-density divalent brines (> 14.6 lbm/U.S. gal).\n For the case study, the fluid requirements in terms of density and temperature were 15.4 lbm/U.S. gal and 265°F, respectively. The only brine option at this density was a blend of calcium chloride/bromide and zinc bromide. In this brine and density, none of the existing fluids work hence a novel polymer-based fluid had to be developed. The fluid had to pass the following tests a) rheology before and after subjecting to high shear of both uncontaminated and contaminated fluids at 3 different temperatures b) sand settling tests at 4 different temperatures c) Production Screen Tester to ensure the fluid does not plug the screens during the job. System Integration Tests (SIT) were performed to ensure the mixing equipment would be able to batch mix the fluid and actual pumping equipment would function properly with the fluid. The field trial planning included simulations, pre-job meetings, and fluid management plan. The job was executed as per the procedure outlined during pre-job meetings.\n This paper discusses laboratory development, yard test qualification, and successful shunted screen OHGP case history of a novel 15.4 lbm/U.S. gal viscous gravel pack carrier fluid.","PeriodicalId":10928,"journal":{"name":"Day 2 Wed, September 22, 2021","volume":"233 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-09-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Day 2 Wed, September 22, 2021","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2118/206048-ms","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 2

Abstract

For offshore wells requiring sand control, Open Hole Gravel Packing (OHGP) with or without shunted screen technology is a common completion technique. Prior to this paper, there has been no application of shunted screen OHGP in High-Pressure High-Temperature (HPHT) environment due to lack of a viscous fluid availability in high-density divalent brines (> 14.6 lbm/U.S. gal). For the case study, the fluid requirements in terms of density and temperature were 15.4 lbm/U.S. gal and 265°F, respectively. The only brine option at this density was a blend of calcium chloride/bromide and zinc bromide. In this brine and density, none of the existing fluids work hence a novel polymer-based fluid had to be developed. The fluid had to pass the following tests a) rheology before and after subjecting to high shear of both uncontaminated and contaminated fluids at 3 different temperatures b) sand settling tests at 4 different temperatures c) Production Screen Tester to ensure the fluid does not plug the screens during the job. System Integration Tests (SIT) were performed to ensure the mixing equipment would be able to batch mix the fluid and actual pumping equipment would function properly with the fluid. The field trial planning included simulations, pre-job meetings, and fluid management plan. The job was executed as per the procedure outlined during pre-job meetings. This paper discusses laboratory development, yard test qualification, and successful shunted screen OHGP case history of a novel 15.4 lbm/U.S. gal viscous gravel pack carrier fluid.

查看原文本刊更多论文

业内首个高温高压环境下裸眼替代路径砾石充填完井:流体发展和案例历史

对于需要防砂的海上井，裸眼砾石充填(OHGP)是常用的完井技术，无论是否采用分流筛管技术。在此之前，由于高密度二价盐水(> ~ 14.6 lbm/ us)缺乏粘性流体可用性，分流筛管OHGP尚未在高压高温(HPHT)环境中应用加)。在案例研究中，流体的密度和温度要求为15.4 lbm/ us和265°F。在这种密度下，唯一的卤水选择是氯化钙/溴化钙和溴化锌的混合物。在这种盐水和密度下，现有的流体都不起作用，因此必须开发一种新型聚合物基流体。该流体必须通过以下测试:a)在3种不同温度下受污染流体和未受污染流体的高剪切作用前后的流变学测试;b)在4种不同温度下的沉砂测试;c)生产筛管测试，以确保流体在作业过程中不会堵塞筛管。进行了系统集成测试(SIT)，以确保混合设备能够批量混合流体，并且实际的泵送设备能够正常工作。现场试验计划包括模拟、作业前会议和流体管理计划。这项工作是按照工作前会议上概述的程序执行的。本文讨论了新型15.4 lbm/U.S.的实验室发展、现场测试资格和成功分流筛OHGP病例史Gal粘性砾石充填携砂液。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Day 2 Wed, September 22, 2021

自引率

0.00%

发文量