Cement Packer: Recovery of Bypassed Reserves in Highly Deviated Well Using Large-Volume Cement Through Coiled Tubing, Offshore Niger Delta

Day 3 Wed, August 07, 2019 Pub Date : 2019-08-05 DOI:10.2118/198727-MS

C. Amos, E. Osanaiye, S. Louis, E. Ighavini, Grace Ahabike, A. Olofin, Rebecca Ejukorlem-Okusi

{"title":"Cement Packer: Recovery of Bypassed Reserves in Highly Deviated Well Using Large-Volume Cement Through Coiled Tubing, Offshore Niger Delta","authors":"C. Amos, E. Osanaiye, S. Louis, E. Ighavini, Grace Ahabike, A. Olofin, Rebecca Ejukorlem-Okusi","doi":"10.2118/198727-MS","DOIUrl":null,"url":null,"abstract":"\n Recently, a multinational exploration and production (E&P) company identified an opportunity for production optimization in a shallow reservoir with the zone of interest behind casing and without using any form of isolation for completions.\n A major challenge during this operation was the engineering design, as this was the first time a catenary cement operation of more than 31.8 m3 (200 bbl) of slurry would be pumped through coiled tubing (CT), in addition to the high well deviation (~79°) consideration for installation of the cement retainer. Additionally, insufficient deck space on the platform and load-bearing capacity to accommodate the intervention spread presented a potential derailer for the attic oil development.\n A rigless well intervention program was designed using a 1.75-in. (125K) CT catenary system unit, which could be installed on a barge. The system would allow better CT reach and a higher injector snub/pull capacity. CT was used to install the cement retainer, punch holes in the 4 1/2-in. tubing, and pump cement.\n A total of 34.6 m3 (218 bbl) of 15.8-lbm/gal resilient slurry was pumped through CT, which was equivalent to pumping a cement volume approximately six times greater than the CT volume. This was necessary to place a 1056-m cement packer in the 4 1/2-in. tubing 9 5/8-in. casing annulus and place 200 m of cement on the cement retainer.\n The operation was successfully completed using CT, avoiding more costly rig options for recompletion of the well. Zonal isolation was achieved, and the bypassed reservoir pay was perforated with ~600 B/D production. This approach proved to be cost-effective, with savings of approximately USD 1.3 million, which was achieved without compromising operational and safety performance.\n Rigless recompletion has been a cost-effective approach for production optimization in mature fields. However, existing well architecture, access to bypassed hydrocarbon pays, and environmental characteristics present challenges for developing some of these reserves.","PeriodicalId":11250,"journal":{"name":"Day 3 Wed, August 07, 2019","volume":"85 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-08-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Day 3 Wed, August 07, 2019","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2118/198727-MS","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Recently, a multinational exploration and production (E&P) company identified an opportunity for production optimization in a shallow reservoir with the zone of interest behind casing and without using any form of isolation for completions. A major challenge during this operation was the engineering design, as this was the first time a catenary cement operation of more than 31.8 m3 (200 bbl) of slurry would be pumped through coiled tubing (CT), in addition to the high well deviation (~79°) consideration for installation of the cement retainer. Additionally, insufficient deck space on the platform and load-bearing capacity to accommodate the intervention spread presented a potential derailer for the attic oil development. A rigless well intervention program was designed using a 1.75-in. (125K) CT catenary system unit, which could be installed on a barge. The system would allow better CT reach and a higher injector snub/pull capacity. CT was used to install the cement retainer, punch holes in the 4 1/2-in. tubing, and pump cement. A total of 34.6 m3 (218 bbl) of 15.8-lbm/gal resilient slurry was pumped through CT, which was equivalent to pumping a cement volume approximately six times greater than the CT volume. This was necessary to place a 1056-m cement packer in the 4 1/2-in. tubing 9 5/8-in. casing annulus and place 200 m of cement on the cement retainer. The operation was successfully completed using CT, avoiding more costly rig options for recompletion of the well. Zonal isolation was achieved, and the bypassed reservoir pay was perforated with ~600 B/D production. This approach proved to be cost-effective, with savings of approximately USD 1.3 million, which was achieved without compromising operational and safety performance. Rigless recompletion has been a cost-effective approach for production optimization in mature fields. However, existing well architecture, access to bypassed hydrocarbon pays, and environmental characteristics present challenges for developing some of these reserves.

查看原文本刊更多论文

水泥封隔器:在尼日尔三角洲海上大斜度井中，通过连续油管使用大量水泥回收漏失储量

最近，一家跨国勘探与生产(E&P)公司在套管后的浅层油藏中发现了一个生产优化的机会，并且在完井时不使用任何形式的隔离。此次作业的主要挑战是工程设计，因为这是第一次通过连续油管(CT)泵入超过31.8 m3(200桶)的悬链线固井作业，此外还需要考虑安装水泥保持器的大井斜(~79°)。此外，平台甲板空间和承载能力不足，无法容纳干预铺开，这是阁楼石油开发的潜在障碍。设计了一套无钻机修井方案，使用了1.75 in。(125K)连续油管悬链线系统单元，可安装在驳船上。该系统可以提供更好的连续油管延伸范围和更高的注入器缓压/抽吸能力。使用连续油管安装水泥保持器，在4 1/ 2in井眼打孔。油管，泵送水泥。连续油管一共泵入了34.6立方米(218桶)15.8磅/加仑的弹性泥浆，相当于泵入的水泥体积大约是连续油管体积的6倍。这对于在4 - 1/2-in井中放置1056米水泥封隔器是必要的。油管9 5/8-in套管环空，在水泥保持器上放置200米的水泥。该作业使用连续油管成功完成，避免了昂贵的再完井钻机选择。实现了层间隔离，并以600桶/天的产量对经过的储层产层进行了射孔。事实证明，这种方法具有成本效益，节省了约130万美元，并且在不影响操作和安全性能的情况下实现了这一目标。在成熟油田，无钻机再完井已经成为一种经济有效的生产优化方法。然而，现有的油井结构、绕过的油气层以及环境特征给开发这些储量带来了挑战。

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 3 Wed, August 07, 2019

自引率

0.00%

发文量