{"title":"PEP Bekasi中Migas产生的分析和优化","authors":"Hernowo Widodo, M Samsuri, Samsul Ma’rif","doi":"10.31599/bpe.v1i2.1310","DOIUrl":null,"url":null,"abstract":"Abstract\nBased on the results of the mass balance analysis and a review at PEP, it was concluded that the total feed intake from all wells was BOPD at 770 barrels/day, gas at 12.1882 MMSCFD, and BLPD at 15975.2 barrels/day, the total product produced was 8 ,541226% oil at 1568.760 barrels/day, 8.989134% condensate at 1651.027 barrels/day, 0.056535% gas at 10.3838214 MMSCFD, and 82.4131% water injection at 15136.748 barrels/day . In the Water Injection Plant process it produces sludge of 16286.812 kg or 0.90001% of the processed formation water, the formation of sludge is due to the addition of chemicals in the formation water treatment process.\nKeywords: Mass balance, crude oil, gas\n Abstrak \nBerdasarkan hasil analisis neraca massa dan peninjauan di PEP didapatkan antara lain total feed masuk dari seluruh sumur adalah BOPD sebesar 770 barrel/hari, gas sebesar 12,1882 MMSCFD, dan BLPD sebesar 15975,2 barrel/hari, total produk yang dihasilkan adalah 8,541226% minyak sebesar 1568,760 barrel/hari, 8,989134% condensat sebesar 1651,027 barrel/hari, 0,056535% gas sebesar 10,3838214 MMSCFD, dan 82,4131% air injeksi sebesar 15136,748 barrel/hari. Pada proses Water Injection Plant menghasilkan sludge sebesar 16286,812 kg atau 0,90001 % dari air formasi yang diolah, terbentuknya sludge dikarenakan adanya penambahan bahan kimia pada proses pengolahan air formasi.\nKata kunci: Neraca massa, minyak mentah, gas.\nReference:\nPatton. 1981. Oilfield Water System. Campbell Petroleum Series, Norman, OK: John M. Campbell.\nFaust, S.D.dan O.M. Aly. (1998). Chemistry of Water Treatment. Lewis Publisher. USA.\nHendricks, David W. 2006. Water Treatment Unit Process: Physical and Chemical. CRC Press. Florida.\nHowe, J. K., et al. (2012). Principle of Water Treatment. John Wiley and Sons, Inc. New Jersey.\nKemmer, EN. 1979. Water; The Universal Solvent, 2nd ed. Oak Brook, IL: Nalco Chemical Co.\nSubarnas, Nandang. 2007. Terampil Berkreasi. Jakarta: Grafindo Media Pratama.\nManurung, Tambak, dkk. 2012. Efektivitas Biji Kelor (Moringa oleifera) Pada Pengolahan Air Sumur Tercemar Limbah Domestik. Dalam Jurnal Ilmiah Fakultas Teknik LIMIT’s. Vol 8, No.1: 37-41.\nSutresna, Nana. 2007. Cerdas Belajar Kimia untuk Kelas XI SMA. Jakarta: Grafindo Media Pratama.\nWebsite Official Pertamina, http://www.pertamina.com","PeriodicalId":192894,"journal":{"name":"JURNAL BHARA PETRO ENERGI","volume":"417 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2022-07-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Analisa Dan Optimasi Produksi Sumur Migas Di PEP Bekasi\",\"authors\":\"Hernowo Widodo, M Samsuri, Samsul Ma’rif\",\"doi\":\"10.31599/bpe.v1i2.1310\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract\\nBased on the results of the mass balance analysis and a review at PEP, it was concluded that the total feed intake from all wells was BOPD at 770 barrels/day, gas at 12.1882 MMSCFD, and BLPD at 15975.2 barrels/day, the total product produced was 8 ,541226% oil at 1568.760 barrels/day, 8.989134% condensate at 1651.027 barrels/day, 0.056535% gas at 10.3838214 MMSCFD, and 82.4131% water injection at 15136.748 barrels/day . In the Water Injection Plant process it produces sludge of 16286.812 kg or 0.90001% of the processed formation water, the formation of sludge is due to the addition of chemicals in the formation water treatment process.\\nKeywords: Mass balance, crude oil, gas\\n Abstrak \\nBerdasarkan hasil analisis neraca massa dan peninjauan di PEP didapatkan antara lain total feed masuk dari seluruh sumur adalah BOPD sebesar 770 barrel/hari, gas sebesar 12,1882 MMSCFD, dan BLPD sebesar 15975,2 barrel/hari, total produk yang dihasilkan adalah 8,541226% minyak sebesar 1568,760 barrel/hari, 8,989134% condensat sebesar 1651,027 barrel/hari, 0,056535% gas sebesar 10,3838214 MMSCFD, dan 82,4131% air injeksi sebesar 15136,748 barrel/hari. Pada proses Water Injection Plant menghasilkan sludge sebesar 16286,812 kg atau 0,90001 % dari air formasi yang diolah, terbentuknya sludge dikarenakan adanya penambahan bahan kimia pada proses pengolahan air formasi.\\nKata kunci: Neraca massa, minyak mentah, gas.\\nReference:\\nPatton. 1981. Oilfield Water System. Campbell Petroleum Series, Norman, OK: John M. Campbell.\\nFaust, S.D.dan O.M. Aly. (1998). Chemistry of Water Treatment. Lewis Publisher. USA.\\nHendricks, David W. 2006. Water Treatment Unit Process: Physical and Chemical. CRC Press. Florida.\\nHowe, J. K., et al. (2012). Principle of Water Treatment. John Wiley and Sons, Inc. New Jersey.\\nKemmer, EN. 1979. Water; The Universal Solvent, 2nd ed. Oak Brook, IL: Nalco Chemical Co.\\nSubarnas, Nandang. 2007. Terampil Berkreasi. Jakarta: Grafindo Media Pratama.\\nManurung, Tambak, dkk. 2012. Efektivitas Biji Kelor (Moringa oleifera) Pada Pengolahan Air Sumur Tercemar Limbah Domestik. Dalam Jurnal Ilmiah Fakultas Teknik LIMIT’s. Vol 8, No.1: 37-41.\\nSutresna, Nana. 2007. Cerdas Belajar Kimia untuk Kelas XI SMA. Jakarta: Grafindo Media Pratama.\\nWebsite Official Pertamina, http://www.pertamina.com\",\"PeriodicalId\":192894,\"journal\":{\"name\":\"JURNAL BHARA PETRO ENERGI\",\"volume\":\"417 1\",\"pages\":\"0\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2022-07-26\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"2\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"JURNAL BHARA PETRO ENERGI\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.31599/bpe.v1i2.1310\",\"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.v1i2.1310","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 2
摘要
摘要根据质量平衡分析结果和PEP的回顾,得出所有井的总采食量为BOPD 770桶/天,气为12.1882 MMSCFD, BLPD为15975.2桶/天,总产量为8541226%的油(1568.760桶/天),8.989134%的凝析油(1651.027桶/天),0.056535%的气(10.3838214 MMSCFD), 82.4131%的注水(15136.748桶/天)。在注水厂过程中产生的污泥为16286.812 kg,占处理后地层水的0.90001%,污泥的形成是由于地层水处理过程中添加了化学物质。关键词:质量平衡,原油,天然气Abstrak Berdasarkan hasil分析,neraca massa和peninjauan di PEP didapatkan antara总饲料masuk dari seluruh sumur adalah BOPD sebesar 770桶/哈里,天然气sebesar 12,1882 MMSCFD,但BLPD sebesar 15975,2桶/哈里,总产量yang dihasilkan adalah 8,541226% minyak sebesar 1568,760桶/哈里,8,989134%凝析sebesar 1651,027桶/哈里,0,056535%天然气sebesar 10,3838214 MMSCFD,丹82,4131%的空气注入量为15136,748桶/哈里。帕达处理注水厂孟哈西尔坎污泥16286,812千克重,0.0001%达空气formasi yang diolah, terbentuknya污泥dikarenakan adanya penambahan bahan kimia帕达处理pengolahan空气formasi。Kata kunci: Neraca massa, minyak mentah, gas.参考:巴顿。1981. 油田水系统。坎贝尔石油系列,诺曼,OK: John M. Campbell。浮士德,s.d.d.o.m.阿里。(1998)。水处理化学。刘易斯的出版商。美国。大卫·亨德里克斯,2006。水处理单元工艺:物理和化学。CRC出版社。佛罗里达。Howe, J. K.等(2012)。水处理原理。约翰威利父子公司新泽西。克姆,EN。1979. 水;通用溶剂,第二版,橡树溪,伊利诺斯州:纳尔科化学公司,subarnas,南当,2007。Terampil Berkreasi。雅加达:Grafindo Media praatama。Manurung, Tambak, dkk。2012年。(辣木)彭哥拉罕航空公司。Dalam journal Ilmiah Fakultas技术有限公司。第八卷,第1期:37-41。苏特雷斯纳,娜娜,2007。雅加达:Grafindo Media praatama。官方网站:http://www.pertamina.com
Analisa Dan Optimasi Produksi Sumur Migas Di PEP Bekasi
Abstract
Based on the results of the mass balance analysis and a review at PEP, it was concluded that the total feed intake from all wells was BOPD at 770 barrels/day, gas at 12.1882 MMSCFD, and BLPD at 15975.2 barrels/day, the total product produced was 8 ,541226% oil at 1568.760 barrels/day, 8.989134% condensate at 1651.027 barrels/day, 0.056535% gas at 10.3838214 MMSCFD, and 82.4131% water injection at 15136.748 barrels/day . In the Water Injection Plant process it produces sludge of 16286.812 kg or 0.90001% of the processed formation water, the formation of sludge is due to the addition of chemicals in the formation water treatment process.
Keywords: Mass balance, crude oil, gas
Abstrak
Berdasarkan hasil analisis neraca massa dan peninjauan di PEP didapatkan antara lain total feed masuk dari seluruh sumur adalah BOPD sebesar 770 barrel/hari, gas sebesar 12,1882 MMSCFD, dan BLPD sebesar 15975,2 barrel/hari, total produk yang dihasilkan adalah 8,541226% minyak sebesar 1568,760 barrel/hari, 8,989134% condensat sebesar 1651,027 barrel/hari, 0,056535% gas sebesar 10,3838214 MMSCFD, dan 82,4131% air injeksi sebesar 15136,748 barrel/hari. Pada proses Water Injection Plant menghasilkan sludge sebesar 16286,812 kg atau 0,90001 % dari air formasi yang diolah, terbentuknya sludge dikarenakan adanya penambahan bahan kimia pada proses pengolahan air formasi.
Kata kunci: Neraca massa, minyak mentah, gas.
Reference:
Patton. 1981. Oilfield Water System. Campbell Petroleum Series, Norman, OK: John M. Campbell.
Faust, S.D.dan O.M. Aly. (1998). Chemistry of Water Treatment. Lewis Publisher. USA.
Hendricks, David W. 2006. Water Treatment Unit Process: Physical and Chemical. CRC Press. Florida.
Howe, J. K., et al. (2012). Principle of Water Treatment. John Wiley and Sons, Inc. New Jersey.
Kemmer, EN. 1979. Water; The Universal Solvent, 2nd ed. Oak Brook, IL: Nalco Chemical Co.
Subarnas, Nandang. 2007. Terampil Berkreasi. Jakarta: Grafindo Media Pratama.
Manurung, Tambak, dkk. 2012. Efektivitas Biji Kelor (Moringa oleifera) Pada Pengolahan Air Sumur Tercemar Limbah Domestik. Dalam Jurnal Ilmiah Fakultas Teknik LIMIT’s. Vol 8, No.1: 37-41.
Sutresna, Nana. 2007. Cerdas Belajar Kimia untuk Kelas XI SMA. Jakarta: Grafindo Media Pratama.
Website Official Pertamina, http://www.pertamina.com
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