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Peralihan Sucker Rod Pump (SRP) ke Electrical Submersible Pump (ESP) pasca Workover Sebagai Upaya Optimalisasi Produksi Sumur “E-030” Evi Maulia Nilawati; Deny Fatrianto Edyzoh Eko Widodo; M. Nur Mukmin; Fatma; Aprilliano Alfa Kumarsela; Cindy Pebriana; Darmiyati, Iin
AL-MIKRAJ Jurnal Studi Islam dan Humaniora (E-ISSN 2745-4584) Vol. 2 No. 1 (2021): Studi Keislaman dan Humaniora
Publisher : Pascasarjana Institut Agama Islam Sunan Giri Ponorogo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37680/almikraj.v2i1.7151

Abstract

Optimizing artificial lift systems according to well conditions is essential to achieve the desired production rate. Continuous production often leads to declining flow rates and reservoir pressure, causing incomplete fluid recovery. Water injection helps maintain pressure, while workover operations enhance production rates. This study optimizes well "E-030" by redesigning the artificial lift system from a Sucker Rod Pump (SRP) to an Electrical Submersible Pump (ESP) post-workover. The goal is to evaluate pre-workover production, justify the workover, and assess the redesigned lift system's efficiency. Initially, well "E-030" used an SRP. Due to a water flooding project, a workover was conducted, adding production layers to boost capacity. The best artificial lift post-workover was determined using an Inflow Performance Relationship (IPR) curve, applying Wiggin's method to analyze well conditions. The post-workover IPR analysis showed a maximum flow rate of 1104 bfpd and an optimal rate (Qopt) of 883 bfpd, a significant increase from 145 bfpd pre-workover. This led to replacing the SRP with an ESP to accommodate higher production. The redesigned ESP system includes a REDA D725N pump, a REDA 456 series motor, and AWG#4 cable, improving production efficiency.
Desain Ulang Pompa Electrical Submersible Pump (ESP) Untuk Mengoptimalkan Produksi Pada Sumur “FAM-2301” Lapangan Gefima Feliksta Agatha Mambela; Deny Fatrianto Edyzoh Eko Widodo; Nijusiho Manik; Aprilino Alfa Kurmasela; Rofima Sera Afifah; Reyhandri Anugrah; Darmiyati, Iin
AL-MIKRAJ Jurnal Studi Islam dan Humaniora (E-ISSN 2745-4584) Vol. 2 No. 2 (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.v2i2.7152

Abstract

The "FAM-2301" well in the "Gefima" field is a well that has just started producing using an artificial lift type Electrical Submersible Pump. So it is necessary to increase the flow rate (q) using the one-phase IPR method. In this well, an Artificial Lift Design was carried out using the Electrical Submersible Pump (ESP) method to increase the flow rate using the one-phase IPR method. In this final project research, the aim is to obtain the results of the redesign of the installation of new pumps and motors. From the design results of the "FAM-2301" well, it shows that the optimum flow rate obtained is 570 BFPD, while it is also obtained that the type of pump used in the "FAM-2301" well is REDA RC 1000 - 60Hz which has a pump efficiency of 58% while the motor used is the 456 series (37.5 HP, 578 Volts, and 42.5 A) so that it can be ensured that the pump can work properly.
Desain Gas Lift Dengan Metode Continuous Flow Untuk Mendapatkan Laju Alir Optimal Pada Sumur “F-1” Lapangan “X” Muhammad Vijaya Waluddin; Deny Fatrianto Edyzoh Eko Widodo; Amiruddin; Andry Halim; Firdaus; Michelle Rafael Waw; Darmiyati, Iin
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.v3i1.7155

Abstract

Over time the flow rate will decrease so that the reservoir pressure will decrease, so it is necessary to optimize or increase the flow rate. To overcome the above, an artificial lift is used or what is called an “Artificial Lift”. Artificial Lift is an artificial lift method that is useful for adding pressure to the fluid so that it can flow up to the surface. At this well, the initial Artificial lift Design is being carried out using ESP (Electrical Submersible Pump) to become a Gas lift with the Continuous flow method. The purpose of this analysis is to see the potential installation of a continuous flow gas lift in the “F-1” well. The result of the IPR curve analysis from the calculation show that the “F-1” well has a maximum flow rate of 6704.7 bfpd. So that the well can still be optimized with the Gas lift design. Based on the Gas lift design, the desired flow rate is 5300 bfpd. In the F-1 well, it is known that the injection gas is 1,355,600 scf/day. As well as the location of the depth of valve 1 is at a depth of 2100 ft, valve 4 is at a depth of 2500 ft, valve 5 is at a depth of 2850 ft ( operation valve), and additional valves can be installed BE1 at 2344 ft and BE2 at 2489 ft.