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

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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 Gas Lift Dengan Metode Continuous Flow Untuk Mendapatkan Laju Alir Optimal Pada Sumur “F-1” Lapangan “X” Dimas Putra Wibowo; M. Nur Mukmin; Rohima Sera Afifah; R.Bambang Wicaksono; Amiruddin; Luthfiyah Atisa Fadhilah
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.v2i1.7166

Abstract

Well kick is the entry of formation fluid into the drill hole which causes formation pressure greater than the hydrostatic pressure of the drilling mud. The purpose of this study is to find out what factors cause a kick to occur, and how to repeat the kick using the wait and weight method. The wait and weight method is a kick countermeasures method with one circulation by new heavy mud. Steps to counteract well kick in the "MTM" well using the wait and weight method, namely by collecting drilling data, analyzing it with calculations of formation pressure when a kick occurs, hydrostatic pressure, KMW, ICP, FCP, maximum allowable mud weight, number of pump strokes , circulation time. Evaluate by comparing the calculation results with implementation data in the field, concluding the evaluation results. The results of the analysis of the implementation of well kick countermeasures using the wait and weight method obtained the initial formation pressure of 6888.16 psi, hydrostatic pressure of 6738.16 psi, KMW of 15.54 ppg, ICP of 1550 psi, FCP of 1431 psi, maximum allowable mud weight of 660.98 psi, total pump stroke was 0.1428 bbl/stk, and circulation time was 47,5 minutes. Well kick was successfully overcome using the wait and weight method.
Analisa Parameter Pengeboran Untuk Menangani Pipa Terjepit Dengan Metode Spotting Fluid Dan Pengurangan Berat Lumpur Pada Sumur “AB” Wawan Andi’ Padang; M. Nur Mukmin; Rohima Sera; Bambang Wicaksono; Dharma Arung Laby; Iin Darmiyati
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.v2i1.7204

Abstract

Pipe sticking is an event where the drilling pipe is stuck or a fracture occurs. Usually what causes the pipe to be stuck or pinched is the viscosity in the mud is greater, causing the drill string movement to be hampered, it can also be caused by differential pressure or the fall of a foreign object into the drill hole. In this final project, a study will be carried out on the "AB" well because the drilling of this well experienced a pipe sticking problem. In writing this final project, 2 scenarios will be carried out, namely the calculation of Spotting Fluid using diesel and reducing the weight of the mud with the aim of reducing hydrostatic pressure. The pinch point has been found at a depth of 8083.99 ft. then for the handling, the weight of the mud is reduced in order to reduce the value of the hydrostatic pressure. In the bouyancy factor parameter, a value of 0.832 is obtained, then the density value of the drilling fluid is obtained in the table which is 82.29 lbs/ft3 Or 1318.159 kg/m3. And the total volume of the well obtained results of 284,557 bbl or 45,241 m3. In the spotting fluid method when the pipe sticking point has not been found, the diesel volume value is 41.25 bbl. In the mud weight reduction method when the pipe sticking point has been found, the mud weight reduction value is9.212 ppg. And obtained a differential pressure value of 63.255 psia. So that thebalance well and the pipe can be released.
Evaluation and Planning Of Acidizing Method to Resolve Scale Issues in Well "YDK-01," "Sandy" Field Wawan Andi’ Padang; M. Nur Mukmin; Rohima Sera; Bambang Wicaksono; Dharma Arung Laby; 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.v2i2.7209

Abstract

The “YDK-01” well has alkaline Formation Water with a pH value of 8,3. Therefore, Scale can form in the productive zone so that over time, Scale will continue to settle and be difficult to solved. From several Acidizing methods, Matrix Acidizing is the most recommended because in the wells examined there are indications of a positive Skin value (Formation Damage). Matrix Acidizing is a Reservoir stimulation method used to overcome Formation Damage in the wells caused by Scale. In this research, it is done using manual calculations using (Stiff & Davis), (Skillman, McDonald & Stiff) and Inflow Performance Relationship Wiggins equations, which aims to evaluate the problem of Scale. Changes in well production rates can be seen from a comparison of several parameters before and after Acidizing such as: Inflow Performance Relationship curve, Permeability value, Productivity Index value, and Skin. In the “YDK-01” well, there was an increase in the Qomax value of 47.16 bopd. The Productivity Index value of oil which was previously 0.129 bopd/psia, has changed to 0.198 bopd/psia. Permeability value has increased by 12 md and Skin value has decreased by 28.54. Parameters above prove that the Matrix Acidizing method works well in overcome scale on the well.
Potensial of Lost Circulation Zones in RJ Well, CP Field by Calculating Hydrostatic, Formation and Fracture Pressure Reynaldy Julio; M. Nur Mukmin; Firdaus; Afrida; Aprilino Alfa Kurmasela; Darmiyati, Iin; Annisa Efidiawati
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.v2i2.7210

Abstract

This study aims to analyze the potential of lost circulation zones in the RJ well at the CP field by calculating hydrostatic pressure, formation pressure, and formation fracture pressure. Lost circulation occurs when drilling fluid is lost into the formation, which can disrupt the drilling process. In this study, calculations were made for hydrostatic pressure, formation pressure, and formation fracture pressure at various depths of the well. The results show that at a depth of 741 ft, the hydrostatic pressure is 330.22 psi, formation pressure is 318.66 psi, and formation fracture pressure is 982.88 psi. Meanwhile, at a depth of 9517 ft, the hydrostatic pressure reaches 5438.78 psi, formation pressure is 5290.31 psi, and formation fracture pressure is 7237.24 psi. The significant difference between hydrostatic pressure and formation pressure leads to the occurrence of lost circulation. In conclusion, the potential for lost circulation in the RJ well is caused by hydrostatic pressure being higher than formation pressure. This study provides important insights into the factors influencing lost circulation and is expected to serve as a reference for future drilling operations.
Penanggulangan Kepasiran Dengan Gravel Pack Berdasarkan Sieve Analysis di Sumur A-140, Lapangan X Deny Fatryanto Edyzoh; M. Nur Mukmin; R. Bambang Wicaksono; Engeline Marlin; Abdul Gafar Karim; 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

Abstract

This study focuses on analyzing sand grain size distribution from Well A-140 using sieve analysis to determine the optimal gravel pack size for sand control. A series of sieves with varying mesh sizes were used to separate the sand particles, and the cumulative weight of each fraction was converted into a percentage based on the total sample weight of 54.437 grams. The results revealed a relatively uniform grain size distribution, indicated by a sorting coefficient of 2.0625, classified as "well-sorted" according to standard sedimentological criteria. The median grain diameter (D50) obtained from the grain size distribution curve was approximately 0.0098 inches. Based on this value, the recommended gravel pack size is 40/60 mesh, with a screen gauge size of 0.008 inches. These findings provide practical insights for designing an effective gravel pack to reduce sand production, enhance well integrity, and maintain stable oil and gas production performance.
Co-Authors Abdul Gafar Karim Afrida Amiruddin Annisa Efidiawati Aprilino Alfa Kurmasela Aprilliano Alfa Kumarsela BAMBANG WICAKSONO Cindy Pebriana Darmiyati, Iin Deny Fatrianto Edyzoh Eko Widodo Deny Fatryanto Edyzoh Dharma Arung Laby Dimas Putra Wibowo Engeline Marlin Evi Maulia Nilawati Fatma Firdaus Iin Darmiyati Luthfiyah Atisa Fadhilah R. Bambang Wicaksono R.Bambang Wicaksono Reynaldy Julio Rohima Sera Rohima Sera Afifah Wawan Andi’ Padang