{"title":"Pemilihan电潜泵(ESP)评估Untuk Menggantikan气举(GL) Di Sumur X Lapangan Offshore Y","authors":"Nugroho Marsiyanto, Eko Prasetio, Aly Rasyid","doi":"10.31599/bpe.v1i3.1739","DOIUrl":null,"url":null,"abstract":"Well X is located in the offshore Y field, where there are 7 production wells, all of which use an artificial lift in the form of a gas lift. In this field, oil is produced from the N oil layer while the gas layer comes from the K layer. Well X was drilled in May 2013 with a target of N oil formation at a depth of 9,007 ft MD, slope (450) and 4-1/2\" Liner completion. The initial production of well X was 1,632 BOPD; 5.3 MMSCFD; 0% BSW. Well X is the only well in the Y offshore field that does not penetrate the K gas formation, so gas production from nearby wells is used to produce oil from the N formation. well-to-well gas lift. Along with production time, the reservoir pressure in the N oil layer and K gas layer has decreased, so that oil production in well X has also decreased. With changes in company policy that optimize and increase gas production to increase gas sales to the industry around the company's operational areas since early 2017, the outgoing pressure on the Y platform has increased from 210 psi to 450 psi, causing a total oil well X could not pass through and produce due to high outgoing pressure on platform Y. Well X's last production data was on January 31 2017 with oil production of 179 BOPD and 1.25 MMSCD for gas production and gas lift injection of 0.75 MMSCFD, before finally shutting down.\nThe selection of another artificial lift as a substitute for the gas lift has been carried out to revive well X later. Based on the alloy table made by Weatherford for the selection of artificial lifts for conditions on the Y field platform, ESP has many advantages and appropriate flexibility compared to other types of artificial lifts. The ESP type D1050N which is a mix flow ESP has been selected and after installation in well X in August 2019 it has successfully revived with a production test of 885 BFPD, 681 BOPD, and 23% water content on September 3 2019. ESP in well X has been in production for 2 years, until finally experiencing a leaky tubing problem in September 2021 and requiring a new tubing replacement job along with a new ESP replacement to revive the X well.\nReference:\nBrown, E., Kermit, (1977). The Technology of Artificial Lift Method”, Volume 2a, Oklahoma; Pennwell Publishing Company.\nBrown, E., Kermit (1980). The Technology of Artificial Lift Method”, Volume 3a, Oklahoma; Pennwell Publishing Company.\nData-data Lapangan Sumur X Lapangan Offshore Y. (2019-2021).\nGabor, Takack. (2009). Electric Submersible Pump Manual Desingn, Operations and Maintenance. United States of America: Gulf Publishing Company.\nWeatherford. (2005). Artificial Lift System.\n ","PeriodicalId":192894,"journal":{"name":"JURNAL BHARA PETRO ENERGI","volume":"75 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2022-12-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Evaluasi Pemilihan Electric Submersible Pump (ESP) Untuk Menggantikan Gas Lift (GL) Di Sumur X Lapangan Offshore Y\",\"authors\":\"Nugroho Marsiyanto, Eko Prasetio, Aly Rasyid\",\"doi\":\"10.31599/bpe.v1i3.1739\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Well X is located in the offshore Y field, where there are 7 production wells, all of which use an artificial lift in the form of a gas lift. In this field, oil is produced from the N oil layer while the gas layer comes from the K layer. Well X was drilled in May 2013 with a target of N oil formation at a depth of 9,007 ft MD, slope (450) and 4-1/2\\\" Liner completion. The initial production of well X was 1,632 BOPD; 5.3 MMSCFD; 0% BSW. Well X is the only well in the Y offshore field that does not penetrate the K gas formation, so gas production from nearby wells is used to produce oil from the N formation. well-to-well gas lift. Along with production time, the reservoir pressure in the N oil layer and K gas layer has decreased, so that oil production in well X has also decreased. With changes in company policy that optimize and increase gas production to increase gas sales to the industry around the company's operational areas since early 2017, the outgoing pressure on the Y platform has increased from 210 psi to 450 psi, causing a total oil well X could not pass through and produce due to high outgoing pressure on platform Y. Well X's last production data was on January 31 2017 with oil production of 179 BOPD and 1.25 MMSCD for gas production and gas lift injection of 0.75 MMSCFD, before finally shutting down.\\nThe selection of another artificial lift as a substitute for the gas lift has been carried out to revive well X later. Based on the alloy table made by Weatherford for the selection of artificial lifts for conditions on the Y field platform, ESP has many advantages and appropriate flexibility compared to other types of artificial lifts. The ESP type D1050N which is a mix flow ESP has been selected and after installation in well X in August 2019 it has successfully revived with a production test of 885 BFPD, 681 BOPD, and 23% water content on September 3 2019. ESP in well X has been in production for 2 years, until finally experiencing a leaky tubing problem in September 2021 and requiring a new tubing replacement job along with a new ESP replacement to revive the X well.\\nReference:\\nBrown, E., Kermit, (1977). The Technology of Artificial Lift Method”, Volume 2a, Oklahoma; Pennwell Publishing Company.\\nBrown, E., Kermit (1980). The Technology of Artificial Lift Method”, Volume 3a, Oklahoma; Pennwell Publishing Company.\\nData-data Lapangan Sumur X Lapangan Offshore Y. (2019-2021).\\nGabor, Takack. (2009). Electric Submersible Pump Manual Desingn, Operations and Maintenance. United States of America: Gulf Publishing Company.\\nWeatherford. (2005). Artificial Lift System.\\n \",\"PeriodicalId\":192894,\"journal\":{\"name\":\"JURNAL BHARA PETRO ENERGI\",\"volume\":\"75 1\",\"pages\":\"0\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2022-12-19\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"JURNAL BHARA PETRO ENERGI\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.31599/bpe.v1i3.1739\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"JURNAL BHARA PETRO ENERGI","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31599/bpe.v1i3.1739","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
摘要
X井位于海上Y油田,该油田共有7口生产井,所有生产井均采用气举形式的人工举升。该油田油产自N油层,气产自K油层。X井于2013年5月钻探,目标层数为N,井深为9007英尺,井斜为450,尾管完井为4-1/2英寸。X井的初始产量为1632桶/天;5.3 MMSCFD;BSW正在0%。X井是Y海上油田中唯一一口没有穿透K层的井,因此附近井的天然气被用来开采N层的石油。井间气举。随着生产时间的延长,N油层和K气层的储层压力减小,X井的产油量也随之减小。自2017年初以来,随着公司政策的变化,优化和增加天然气产量,以增加对公司运营区域周围行业的天然气销售,Y平台的输出压力从210 psi增加到450 psi。X井的最后一次生产数据是在2017年1月31日,当时的产油量为179桶/天,产气量为1.25百万立方英尺/天,气举注气量为0.75百万立方英尺/天,最终关闭。随后,为了救活X井,又选择了另一种人工举升代替气举。基于威德福为Y油田平台条件下的人工举升设备选择合金表,与其他类型的人工举升设备相比,ESP具有许多优点和适当的灵活性。D1050N型电潜泵是一种混流电潜泵,在2019年8月安装在X井后,于2019年9月3日进行了885 BFPD、681 bpd和23%含水率的生产测试,成功恢复了生产。X井的ESP已经投入生产了2年,直到2021年9月出现油管泄漏问题,需要更换新的油管和新的ESP来恢复X井。参考文献:布朗,E.,克米特,(1977)。人工举升方法的技术”,卷2a,俄克拉何马州;彭威尔出版公司。布朗,E.,科米特(1980)。《人工举升方法技术》,第3a卷,俄克拉何马州;彭威尔出版公司。rapangan Sumur X . rapangan Offshore Y. (2019-2021)伽柏,Takack。(2009)。电动潜水泵说明书设计、操作和维护。美利坚合众国:海湾出版公司。威德福。(2005)。人工举升系统
Evaluasi Pemilihan Electric Submersible Pump (ESP) Untuk Menggantikan Gas Lift (GL) Di Sumur X Lapangan Offshore Y
Well X is located in the offshore Y field, where there are 7 production wells, all of which use an artificial lift in the form of a gas lift. In this field, oil is produced from the N oil layer while the gas layer comes from the K layer. Well X was drilled in May 2013 with a target of N oil formation at a depth of 9,007 ft MD, slope (450) and 4-1/2" Liner completion. The initial production of well X was 1,632 BOPD; 5.3 MMSCFD; 0% BSW. Well X is the only well in the Y offshore field that does not penetrate the K gas formation, so gas production from nearby wells is used to produce oil from the N formation. well-to-well gas lift. Along with production time, the reservoir pressure in the N oil layer and K gas layer has decreased, so that oil production in well X has also decreased. With changes in company policy that optimize and increase gas production to increase gas sales to the industry around the company's operational areas since early 2017, the outgoing pressure on the Y platform has increased from 210 psi to 450 psi, causing a total oil well X could not pass through and produce due to high outgoing pressure on platform Y. Well X's last production data was on January 31 2017 with oil production of 179 BOPD and 1.25 MMSCD for gas production and gas lift injection of 0.75 MMSCFD, before finally shutting down.
The selection of another artificial lift as a substitute for the gas lift has been carried out to revive well X later. Based on the alloy table made by Weatherford for the selection of artificial lifts for conditions on the Y field platform, ESP has many advantages and appropriate flexibility compared to other types of artificial lifts. The ESP type D1050N which is a mix flow ESP has been selected and after installation in well X in August 2019 it has successfully revived with a production test of 885 BFPD, 681 BOPD, and 23% water content on September 3 2019. ESP in well X has been in production for 2 years, until finally experiencing a leaky tubing problem in September 2021 and requiring a new tubing replacement job along with a new ESP replacement to revive the X well.
Reference:
Brown, E., Kermit, (1977). The Technology of Artificial Lift Method”, Volume 2a, Oklahoma; Pennwell Publishing Company.
Brown, E., Kermit (1980). The Technology of Artificial Lift Method”, Volume 3a, Oklahoma; Pennwell Publishing Company.
Data-data Lapangan Sumur X Lapangan Offshore Y. (2019-2021).
Gabor, Takack. (2009). Electric Submersible Pump Manual Desingn, Operations and Maintenance. United States of America: Gulf Publishing Company.
Weatherford. (2005). Artificial Lift System.
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