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All Journal Al-MIKRAJ: Jurnal studi Islam dan Humaniora
Pratama Bagus Restu.S
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Economics, Econometrics & Finance Education Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Social Sciences

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Optimasi Produksi Migas Dengan Permanent Coiled Tubing Gas Lift Pada Sumur “VR-03” Lapangan Wacana Vely Remitha; Deny Fatryanto Edyzoh Eko Widodo; Teddy Kurniawan; Fatma; Rohima Sera Afifah; Viola Sri Wahyuni; Pratama Bagus Restu.S
AL-MIKRAJ Jurnal Studi Islam dan Humaniora (E-ISSN 2745-4584) Vol. 3 No. 1 (2022): Al-Mikraj, Jurnal Studi Islam dan Humaniora
Publisher : Pascasarjana Institut Agama Islam Sunan Giri Ponorogo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37680/almikraj.v3i1.7156

Abstract

The VR-03 well in the "WACANA" field is a well that has the potential to produce oil and gas. However, over time, the pressure on the VR-03 well is no longer able to flow fluid to the surface in a natural flow, so an artificial lift method is needed to help lift oil and gas to the surface. As an effort to help lift oil and gas to the surface, the permanent coioled tubing gas lift method was applied to the VR-03 well. Permanent coiled tubing gas lift is the most effective and economical injection method to be carried out on the "VR-03" well because of its simple installation and judging from the available parameters such as the size of the cooiled tubing, kick off point, and top node pressure which will make the "VR-03" well more optimal. After a PCTGL design planning simulation is done the oil flow rate has increased from previously no flow to 265.3 STB/day. With a maximum depth of gas injection point at a depth of 4900 ft and an optimum gas injection rate 2.85 MMscf/day.
Perencanaan Penggunaan Electrical Submersible Pump Pada Sumur “AM” Anastasyah Maulidiah; Engeline Malrin; Mirza; Yudiaryono; Esterina Natalia Paindan; Agista Ayu Ramadhani; Pratama Bagus Restu.S
AL-MIKRAJ Jurnal Studi Islam dan Humaniora (E-ISSN 2745-4584) Vol. 3 No. 1 (2022): Al-Mikraj, Jurnal Studi Islam dan Humaniora
Publisher : Pascasarjana Institut Agama Islam Sunan Giri Ponorogo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37680/almikraj.v3i1.7157

Abstract

"AM" wells are wells that no longer have the ability to produce fluid on their own. So it requires the utilization of artificial lift. The artificial lift process it self aims to increase fluid pressure so that it can flow to the surface. The production process for this well has been carried out by natural flow with a production of 593 BFPD. After several years of production, the reservoir pressure will decrease and the ability to lift the fluid will also decrease. If the pressure drop experienced by the reservoir is very large, the reservoir can no longer produce oil to the surface. But referring to the capability of the well, the production of this well can still be increased by using an Electric Submersible Pump (ESP) type artificial lift. Based on the desin method carried out is to plan the design of the artificial lift Electric SubmersibIe Pump (ESP) using manual calculations.
Desain Electrical Submersible Pump (ESP) Untuk Meningkatkan Laju Alir Produksi Pada Sumur “DT014” Darmiyati, Iin; Della Endangtri; Firdaus; Rohima Sera Afifah; Abdul Gafar Karim; Fatma; Muhammad Alif; Pratama Bagus Restu.S
AL-MIKRAJ Jurnal Studi Islam dan Humaniora (E-ISSN 2745-4584) Vol. 3 No. 2 (2023): Al-Mikraj, Jurnal Studi Islam dan Humaniora
Publisher : Pascasarjana Institut Agama Islam Sunan Giri Ponorogo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37680/almikraj.v3i2.7161

Abstract

Oil production from a well often decreases due to reduced reservoir pressure, so a production increase method or artificial lift is needed to maintain or increase the production flow rate. One of the commonly used artificial lift methods is the Electrical Submersible Pump (ESP). This study aims to design an optimal ESP system for the DT014 well, which is experiencing decreased production. The analysis was carried out by considering reservoir parameters, fluid characteristics, and well operating conditions. The design process includes the selection of pumps, motors, and electrical cables that are in accordance with production needs. Simulations were carried out to ensure the performance of the ESP in increasing oil production efficiently and economically. The design results show that the application of ESP to the DT014 well can significantly increase the production flow rate compared to previous methods. By considering pump efficiency and energy consumption, the selection of the right ESP can maximize production while minimizing operational costs. Thus, the implementation of ESP has proven to be an effective solution to increase oil production in wells experiencing decreased reservoir pressure. This study is expected to be a reference for the optimization of artificial lift systems in oil fields with similar conditions.
Co-Authors Abdul Gafar Karim Agista Ayu Ramadhani Anastasyah Maulidiah Darmiyati, Iin Della Endangtri Deny Fatryanto Edyzoh Eko Widodo Engeline Malrin Esterina Natalia Paindan Fatma Firdaus Mirza Rohima Sera Afifah RR. Ella Evrita Hestiandari Teddy Kurniawan Vely Remitha Viola Sri Wahyuni Yudiaryono