cover
Article Per Year (5 Year)
All
Home Page
OAI Link
Editorial Team
Contact
Reviewer
Google Scholar
Contact Name
Moh Masduki
Contact Email
almikraj@insuriponorogo.ac.id
Phone
+6282389445858
Journal Mail Official
almikraj@insuriponorogo.ac.id
Editorial Address
Jalan Batoro Katong No. 32 PONOROGO
Location
Kab. ponorogo,
Jawa timur
INDONESIA
Al-MIKRAJ: Jurnal studi Islam dan Humaniora
Published by Institut Agama Islam Sunan Giri Ponorogo
ISSN : -     EISSN : 27454584     DOI : -
Core Subject : Economy, Education, Social,
Economics, Econometrics & Finance Education Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Social Sciences
Al-Mikraj: Jurnal Kajian Islam dan Humaniora Indonesia. Jurnal ini membahas tentang Studi Islam dan Humaniora. Kajian Islam memiliki ruang lingkup kajian yang cukup luas secara sistematis dan terintegrasi untuk mengetahui, memahami dan menganalisis secara mendalam hal-hal yang berkaitan dengan Islam, baik yang menyangkut sumber-sumber ajaran Islam, pokok-pokok ajaran Islam, sejarah Islam, dan realitas Islam. implementasinya dalam kehidupan. Kajian humaniora menjelaskan ilmu alam yaitu ilmu sosial dan humaniora. Ilmu alam meliputi matematika, fisika, kimia, ilmu bumi, dan astronomi. Ilmu sosial tersebut adalah sosiologi, antropologi, psikologi, pendidikan, ekonomi, dan politik. Sedangkan ilmu humaniora meliputi bahasa, linguistik, sastra, pendidikan, sejarah, hukum, filsafat, arkeologi, seni, dan ilmu sosial yang memiliki muatan humanistik.
Arjuna Subject : Ilmu Sosial - Ilmu Sosial (Lain-Lain)
Articles 1,370 Documents
 60   61   62   63   64 
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 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.
Identifikasi Terjadinya Liquid Loading Dimasa Yang Akan Datang Dengan Metode Turner Pada Sumur X Lapangan Donggi Matindok Moh Fuzan Yasin; M. Ardian Pratama; Engeline Marlin; Fatma; Nijusiho Manik; Muhammad Rizki; Darmiyati, Iin
AL-MIKRAJ Jurnal Studi Islam dan Humaniora 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.v3i2.7158

Abstract

Well X is one of the gas wells owned by PT Pertamina EP Cepu Donggi Matindok Field, with the ongoing gas production process, the reservoir experiences a decrease in pressure over time which affects the productivity of the well so that the production rate of the well can decrease. In conditions where the pressure continues to decrease, it will cause the flow rate to no longer be able to lift the fluid, this is called liquid loading.The purpose of this study is to analyze and calculate the minimum flow rate and calculate the future IPR. The problem limitation in this study is emphasized on the analysis of well X to determine the minimum flow rate value and the minimum flow rate value when there is a decrease in pressure in the well. The method used is the Turner method in calculating the critical flow rate and the LIT calculation method in calculating the future IPR to determine the shape of the IPR curve in the future. The results of the calculation of the minimum flow rate of well X vary depending on the size of the Casing or tubing through which the fluid passes, at 7"Casing of 11.64 MMscfd, at 4.5" Casing of 4.87 MMscfd, and 3.5" tubing of 2.5 MMscfd. Based on the results of the IPR curve correlation with OPR using commercial software, using a choke size of 0.5625 inches with the actual flow rate obtained of 12.38 MMscfd.
Analisa Keekonomian Pada Proyek Injeksi Surfaktan Sumur 04 Lapangan Delima Dengan Menggunakan Psc Cost Recovery Erika Maulina; Firdaus; Eka Megawati; Ali Muchammad; Abdi Suprayitno; Kartika Choriah; Darmiyati, Iin
AL-MIKRAJ Jurnal Studi Islam dan Humaniora 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.v3i2.7159

Abstract

The role of fossil energy such as oil, natural gas, and coal in various economic activities is currently irreplaceable and has become a major need for the Indonesian people. The increasing needs of the community are sometimes not proportional to the results of the amount of production, as happened at Well 04 in the Delima Field, need surfactant injection because the production flow rate is decreasing. The purpose of conducting an economic analysis on this surfactant injection project is to detrmine whether choosing a surfactant injection method will produce appropriate profits. The system used in this economic analysis is PSC Cost Recovery using economic indicators NPV, IRR, POT, and Benefit to Cost. For sensitivity analysis using NPV Contractor, IRR Contractor, Contractor Take, and Government Take. Based on the results of calculations that have been carried out, the net profit value received by the contractor is 13.359.765 US$ and that received by the government is 16.420.258 US$. While the results of the sensitivity analysis that has been carried out, it is known that the most influential parameters are cumulative production and oil prices which are directly proportional.
Upaya Peramalan Cadangan Minyak Pada Sumur SBR-A Menggunakan Metode Decline Curve Analysis Sakinah; Firdaus; Joko Wiyono; Yudiaryono; Abdul Gafara Karim; Aliyah Sayyidina Putri Bahtiar; Darmiyati, Iin
AL-MIKRAJ Jurnal Studi Islam dan Humaniora 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.v3i2.7160

Abstract

Oil and natural gas are needs that are needed by every country including Indonesia. national need. In the SBR-A well field R, this was used for final project research, namely estimating oil reserves using the decline curve analysis method, the SBR-A well experienced a decrease in production. The purpose of carrying out the decline curve analysis method is to estimate or predict the estimated ultimate recovery and oil production in the future, so that we can predict the future production prospects of the field under study, so that we can determine the best steps taken to develop the field. either in actual conditions or other conditions. Based on the research results obtained from data processing using the Decline Curve Method, it can be seen that the type of curve is Exponential decline, with an actual cumulative value of 51328.40203 STB and a decline exponential value (b) of 0.01 and a nominal value of decline (D) of 0.007. And the remaining oil reserves (ERR) up to the economic limit of 53865.62128 STB, so that the SBR-A well can produce up to the economic limit of 5 BOPD, which is 674 days or 1.9 years, which starts production from 8 May 2023 to 1 January 2025. With the value of the amount of reserves that can be produced (EUR) in the SBR-A Well, which is 105194,023 STB..
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 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.
RIG “AB-1” Specification Study on “Batara” Well Based on Drawworks, Hook Load and Mud Pump Data Nijusiho Manik; Rohima Sera Afifah; Andi Jumardi; Fatma; M. Rizal Faahrun; Zavta Rizki; Darmiyati, Iin
AL-MIKRAJ Jurnal Studi Islam dan Humaniora Vol. 4 No. 1 (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.v4i1.7162

Abstract

The analysis conducted in this study focuses on the "AB-1" rig's ability to handle calculated loads. Results show that at 1,248 ft MD with 13 3/8" casing, the hook load and drawworks are both 84,864 pounds. At 5,818 ft MD with 9.5/8" casing, these values increase to 273,446 pounds. At 8,463 ft MD using dual 3.1/2 tubing, the load is 159,748.8 pounds. Mud pump power calculations reveal pressures of 681,408 psi for surface sections and 5,632.97 psi for production sections. Casing is a steel pipe inserted into a wellbore to prevent wall collapse, isolate abnormal pressure zones, and provide space for subsurface equipment during hydrocarbon production. This study aims to evaluate the casing load by analyzing hook load, drawworks, and mud pump power. Hook load represents the weight supported by the rig, including the accumulation of pipe weight, casing weight, and drag forces. Drawworks serve as lifting equipment for casing and tubing during drilling operations, while mud pumps circulate drilling fluids to support the process. Based on these findings, the "AB-1" rig is deemed suitable for operations with a hook load and drawworks capacity of up to 500 tons (1,000,000 pounds) and a mud pump pressure limit of 5,787 psi.
Analisa Keekonomian Sumur “D” dan “Y” Lapangan “NOAM” Pada Penggunaan Electrical Submersible Pump (ESP) Agnes Triana Pamassangan; Deny Fatryanto; Jan Friadi Sinaga; Karnila Willard; Firdaus; Luthfiyah Atisa Fadhilah
AL-MIKRAJ Jurnal Studi Islam dan Humaniora Vol. 4 No. 1 (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.v4i1.7163

Abstract

The oil and gas industry has an important role in the country, namely as a source of national budget revenue and as an energy provider. To meet the energy supply, it is sought to maximize production in the existing oil and gas field, so that an artificial lift of the Electrical Submersible Pump is carried out in the “D” and “Y” wells of the “NOAM” field. This study was conducted to calculate and analyze the economics of the “D”and “Y” wells of the “NOAM” field in the Electrical Submersible Pump project to determine whether the project is profitable to continue or not, and to find out what economic parameters can affect the profit. The results of the economic analysis of the “D” and “Y” wells, obtained from the “D” well, namely NPV of 4,009,400 USD, IRR value of 44.42% and POT value of 1.43 years. Meanwhile, the “Y” well obtained NPV -2,329,510 USD, IRR -24.62% and POT 3.07 years. From the sensitivity results using spider diagrams that have been carried out at the “D” well, the increase in total production and oil prices affects NPV and NCF, IRR is influenced by production, Capex, and oil prices and for GOI Take is influenced by Opex and oil prices. Whereas in well “Y”, production, Capex and oil prices affect NPV, IRR and NCF and GOI Take is not affected by changes in economic elements. From the results of the calculation and sensitivity analysis, the use of Electrical submersible Pump is economical to continue in well “D” while in well “Y” it is not economical to continue.
Peramalan Produksi Hidrokarbon Berdasarkan Decline Curve Analysis (DCA) Dengan Metode Levenberg-Marquardt Algorithm (LMA) Pada Sumur HS-0105 Lapangan AG Hasnawi Hs; Dharma Arung Laby; Abdi Suprayitno; Abdul Gafar Karim; Amiruddin; Luthfiyah Atisa Fadhilah
AL-MIKRAJ Jurnal Studi Islam dan Humaniora (E-ISSN 2745-4584) Vol. 4 No. 1 (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.v4i1.7164

Abstract

Hydrocarbon production forecasting is the process of projecting oil or gas production over a period of time. One commonly used method is production modeling with Decline Curve Analysis (DCA). Many previous studies have used the Trial Error and Chisquare test method in DCA. However, this method has limitations including: long calculation time, modeling is done manually and not automatically, and the fit of the production curve with the data is often inaccurate. To overcome these limitations, a method that is fast, automatic and produces accurate curves with data is needed. One of them is the Levenberg-Marquardt Algorithm (LMA) numerical optimization approach. The Levenberg-Marquardt Algorithm method is an iterative method used to solve nonlinear optimization problems. The Levenberg Marquardt Algorithm method has advantages such as: reliability, fast convergence, and has been widely applied in engineering optimization problems. This study aims to forecast hydrocarbon production, calculate EUR (Estimated Ultimate Recovery) and ERR (estimated remaining reserve) at well HS-0105 AG field. First, a DCA program based on LMA was developed with the MATLAB programming language. After that, the production data is inputted into the LMA program to do production modeling until the optimum curve is obtained. After obtaining the optimum DCA curve, a comparison was made with the curve resulting from trial and error. From the results of DCA curve optimization with LMA, the RMSE (Root Mean Square Error) value = 101,756, R2 (R-squared) value = 0,574, computation time 2-3 seconds in the Levenberg-Marquardt Algorithm (LMA) method while the Trial Error and Chisquare test method RMSE (Root Mean Square Error) value 128.905 R2 (R squared) value = 0.569 and long computation time. From the comparison results, the Levenberg-Marquardt Algorithm (LMA) method is much better than Trial Error and is recommended for use. Based on the Decline Curve Analysis with the Levenberg-Marquardt Algorithm (LMA) method, the EUR (Estimated Ultimate Recovery) value is 14339,525 STB and the ERR (estimated remaining reserve) value is 7693,091 STB at the HS-0105 well in the AG field. With the results of this projection, it is expected that the production of the HS-0105 well in the AG field can be stimulated to withstand the rate of decline in production and even increase.
Analisis Sisa Cadangan Reservoir Pada Sumur X Lapangan Y Priska Vernanda Hipui; Jan Friadi Sinaga; Mirza; Baiq Maulinda Ulfah; Mohammad Lutfi; Luthfiyah Atisa Fadhilah
AL-MIKRAJ Jurnal Studi Islam dan Humaniora 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.v2i1.7165

Abstract

Decline curve analysis: this method uses an exponential decline curve to describe the decline in reservoir production over time. This method utilizes historical production data to extrapolate and estimate the remaining reserves in the reservoir. So that the well in the field "Y" can be predicted using the decline curve. Trial Error and X2 Chi-Square Test method and obtained the value of the b exponent, namely 0 type decline curve Exponential, rate of decline (Di) 0.018616 and the smallest value of ∑X2 are 136.614. EUR is 1630,727 BOPD and ERR to limit is 1794,672 BOPD. The remaining production life is 136 months or 11 years.
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 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.

Page 62 of 137 | Total Record : 1370

 60   61   62   63   64 

Filter by Year

2020 2026


Reset
Filter By Issues
All Issue Vol. 6 No. 02 (2026): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol 5 No 2 (2025): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 5 No. 2 (2025): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 6 No. 1: Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol 5 No 01 (2024): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 5 No. 01 (2024): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 4 No. 02 (2024): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol 4 No 02 (2024): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol 4 No 1 (2023): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 4 No. 1 (2023): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol 3 No 2 (2023): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 3 No. 2 (2023): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol 3 No 1 (2022): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 3 No. 1 (2022): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol 2 No 2 (2022): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 2 No. 2 (2022): Al-Mikraj, Jurnal Studi Islam dan Humaniora Vol. 2 No. 1 (2021): Studi Keislaman dan Humaniora Vol 2 No 1 (2021): Studi Keislaman dan Humaniora Vol. 1 No. 2 (2021): Studi Keislaman dan Humaniora Vol 1 No 2 (2021): Studi Keislaman dan Humaniora Vol. 1 No. 1 (2020) Vol 1 No 1 (2020) More Issue