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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
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Kendala Hukum Dalam Pelaksanaan Strategi Mitigasi Perubahan Iklim Pada Sektor Kehutanan Dan Lahan di Indonesia Fauziyyah Nur Isya'bani; Sapto Hermawan; Asianto Nugroho
AL-MIKRAJ Jurnal Studi Islam dan Humaniora Vol. 5 No. 2 (2025): 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.v5i2.7319

Abstract

Indonesia as an achipelagic country has impacts of climate change. To overcome the impacts, Indonesia uses two methods, namely climate change mitigation and adaptation. In accordance with the provisions stipulated in Presidential Regulation No. 98 of 2021 concerning the Implementation of Carbon Economic Values ​​to Achieve Nationally Determined Contribution Targets, the forestry sector is the main sector in controlling emissions to store carbon with a carbon net sink approach from the forestry and land sector in 2030 (Indonesia's FOLU Net Sink 2030) with two targets, namely 29% with own efforts and 41% with international cooperation. This study aims to conduct a legal review of Indonesia’s climate change mitigation strategy by achieving the net sink target in the forestry and land use (FOLU) sector by 2030. This research method use is normative legal research with statue approach. This research use analyse techniques with syllogism method based on deductive. The results indicate that limited specific and integrated regulations, weak law enforcement, implementation of decentralization, to low public awareness of the impact of climate change. However, Indonesia does not have regulations that specifically and comprehensively to regulate climate change. The research concludes that several conditions have impact the achievement of Indonesia’s Forestry and Other Land Use Net Sink target in 2030.
Analisis Efisiensi Rasio Luas Dimensi Apda Separator C-3-08-A di Unit Hydrocracking Unibon Plant Herry Setiawan; Andi Jumardi; Rohima Sera Afifah; Irma Andrianti; Dharma Arung Laby; Ummul Haq; 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.v2i2.7342

Abstract

This study aims to evaluate the performance of the C-3-08A separator used in a hydrocracking unit within an industrial processing facility, in support of increased production targets. The primary focus is to calculate and analyze the Area Ratio (Rm), which represents the ratio of the separator's length to its inlet diameter, ensuring efficiency in the fluid separation process at a flow rate of 13,435 BFPD. The method applied involves manual calculations to determine the Rm value and propose improvements to the separator design based on parameters such as length and flow rate. Analysis results show that the initial Rm value of 2.527 does not meet the standard requirement, which stipulates an Rm range between 3 and 5. Recalculation suggests that extending the separator length to 36 ft yields an Rm of 3.015, meeting the standard. Additionally, reducing the flow rate to 8,000 BFPD while maintaining a separator length of 30.183 ft and diameter of 10.045 ft produces an Rm of 3.004, also within acceptable limits. In conclusion, recalculating and adjusting the separator design parameters can enhance fluid separation efficiency and support increased production outcomes.
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 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.
Penilaian Dan Optimalisasi Konfigurasi Rekahan Hidraulik Sumur “HE-04” di Lapangan “S” Dharma Arung Laby; Abdi Suprayitno; Amiruddin; Aprilno Alfa Kumasela; Hizkia Erick Sualang; 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.v2i2.7344

Abstract

Well “HE-04” in Field “S” is a hydrocarbon production well located in a reservoir with relatively low permeability, measured at 10.80 mD. This low permeability results in a low productivity index (PI). To enhance well productivity, hydraulic fracturing was performed to create conductivity between the reservoir and the wellbore, with the objective of increasing the PI. Hydraulic fracturing involves injecting fluid at high pressure to create fractures in the formation, followed by the placement of proppant to keep the fractures open. However, post-fracturing results indicated that the dimensionless fracture conductivity (FCD), which represents the fracture conductivity, remained low. Therefore, evaluation and optimization of the fracture geometry are necessary to achieve optimal conductivity and improve PI. This study evaluates the PI using the Prats method and optimizes the fracture geometry by redesigning the initial fracture using the Unified Fracture Design (UFD) method within the Perkins-Kern-Nordgren (PKN) geometry model. The process begins with an evaluation of the actual PI, followed by redesigning the fracture geometry to determine the maximum fracture dimensions. This maximum geometry is then optimized using the UFD method to obtain the most effective geometry. The optimization results show that the maximum fracture volume that can be generated is 685.51 m³, with a resulting FCD value of 8.37. The fold of increase (FOI) reached 8.54, an improvement of 5.43 compared to the actual FOI. This indicates that the optimized PI increased by 8.54 times from its initial value. Thus, the optimized fracture geometry design proves to be effective in enhancing the productivity of well “HE-04”.
Squeeze Cementing Design Based on Technical Calculations of Wells “S”and “I” in the “XY” Field Sulaiman Ibrahim; Deny Fatryanto; Amiruddin; Bambang Wicaksono; Mohammad Lutfi
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.v3i2.7345

Abstract

This study aims to analyze the technical calculations involved in the cementing process of two production wells, namely Well “S” and Well “I”. The main focus includes the evaluation of slurry volume, spacer, displacing fluid, and reverse circulation required in the squeeze cementing operation. Calculations were performed by considering parameters such as annular capacity, casing and tubing volumes, perforation interval length, and the number of shots per foot. In Well “S”, the slurry volume used for the squeeze was 2.1132 bbl, while in Well “I”, it reached 28.8389 bbl. Additionally, slurry height and level, spacer volume, and the required displacing and reverse circulation fluids were determined. Class G cement was used in this study, combined with various additives including an accelerator (SSA-1), fluid loss control agents (Halad-344, Halad-433, Halad-314), a retarder (SCR-500), and antifoaming agents (D-Air 02 and D-Air), tailored to meet the specific needs of each well to optimize the rheological properties and thickening time of the slurry. The results indicate that accurate calculation of all cementing parameters is essential to ensure the success of the operation and long-term well integrity.
Evaluation and Design of Squeeze Cementing as a Remedial Effort for High Water Production in Well “MAW-11”at “Mata Allo” Field Muhammad Arfan Wijaya, S; Firdaus; Amiruddin; Abdul Gafar Karim; Mohammad Lutfi
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.v3i2.7346

Abstract

This study evaluates the feasibility of using a specific cement composition for the abandonment of a non-productive perforated zone at a depth interval of 2631–2640 ft in well MAW-11, located in the Mata Allo Field. Laboratory tests indicate that the cement formulation meets the required performance standards, with a thickening time of 5 hours and 8 minutes at 116 °F and a compressive strength of 2430 psi after 24 hours at 137 °F. Engineering calculations were conducted to determine slurry volume requirements and injection parameters under two scenarios: tight rate injectivity and high rate injectivity. The results show that both scenarios fall within acceptable operational limits. The estimated total cost for the cementing operation is IDR 166,622,550 under tight-rate conditions and IDR 171,493,750 under high-rate conditions. These findings confirm that the cementing plan is both technically feasible and economically viable.
Study Of Critical Flow Rate As A Water Coning Indicator In “Volve” Wells In Norway Production Fields Dharma Arung Laby; Abdi Suprayitno; Amiruddin; Aprilno Alfa Kumasela; Abdul Gafar Karim; 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.v2i1.7347

Abstract

Oil wells with water drive propulsion, if produced then water will move towards the well hole to form a cone. Under certain conditions, water will break into the well and begin to be produced along with oil and this phenomenon is called water coning, therefore a critical flow rate calculation is carried out to determine the limit of the flow rate allowed by the well to produce without water coning. The purpose of this final project research is to determine the value of the critical flow rate in the methods used, namely the Mayer Gardner and Pirson method and also the Schols method, and the calculation of time to brekthrought with the Sobicinski and Cornelius method is carried out to determine the time needed for water to reach bottom perforation. The results of calculating the flow rate with the Mayer Gardner and Pirson method of 5.21 STB / day, then obtained time to breakthrough for 82437,02 days, and at the flow rate with the schools method of 0.23 STB / day obtained a flow rate of 4729678 days and if the well is produced at the actual rate of 86.5684 STB / day then the time to breakthrough is obtained for 418 days.
Production Optimization Through Horizontal Well Geometry : Toe-Up Vs Toe-Down Dharma Arung Laby; Abdi Suprayitno; Amiruddin; Aprilno Alfa Kumasela; Abdul Gafar Karim; 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.v2i1.7348

Abstract

Horizontal wells are wells that are widely used in the oil and gas industry considering their effectiveness in increasing the productivity of a well. In field V, horizontal wells are not completely horizontal (90 degrees). Due to deviations in the geological formation, the drilled wells follow the formation dip. This study aims to determine the most optimal well model from several scenarios (toe-up, horizontal, or toe-down) and identify the dominant flow regime in the well. In this study, the author models well productivity and flow regimes with several scenarios. Such as the original scenario, true horizontal (90 degrees), toe-up (95 and 100 degrees) and toe-down (80 and 85 degrees). In each scenario, several different flow patterns or flow regimes can occur such as dispersed bubble flow, plug flow, annular flow, and slug flow. After comparing the productivity of each scenario, the results show that the toe-up scenario (100 degrees) has the highest oil production rate of 9401.8 STB/day, the original scenario 8599.7 STB/day, and the toe-down scenario (80 degrees) with 8237.6 STB/day has the lowest oil production rate. Therefore, toe-up (100 degrees) is the optimal well model used for horizontal wells in the V field compared to other scenarios. The gradient matching results for all well scenarios show a bubble flow pattern along the horizontal section of the well.
Multiphase Flow Behavior And Production Efficiency In Devuated Horizontal Wells Baiq Maulinda Ulfah; Abdi Suprayitno; Risna; Aprilno Alfa Kumasela; Abdul Gafar Karim; Darmiyati, Iin
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.v2i1.7349

Abstract

In oil and gas production, horizontal wells are increasingly used to enhance reservoir performance by placing a longer wellbore section within the reservoir. These wells often adopt specific inclinations either upward-sloping or downward-sloping terminal sections to align with formation dip and minimize issues such as liquid loading. However, undulating trajectories in horizontal wells may lead to challenges such as liquid accumulation in downward-sloping sections and gas entrapment in upward-sloping sections, potentially reducing production efficiency. This study aims to predict fluid production rates and analyze multiphase flow behavior in horizontal wells with varying wellbore inclinations using a production simulator. Four scenarios were modeled: Original, True Horizontal, Upward-Inclined End (95° and 100° inclination), and Downward-Inclined End (80° and 85° inclination). The study utilized 20 deviation survey data points from Well F-14 in Field ‘V’ to construct the well trajectory models, adhering to the simulator’s input limitations. Simulation results indicate that the upward-inclined configuration with a 100° inclination achieved the highest oil production rate (9401.8 STB/day), outperforming other scenarios in both oil and gas flow rates. The enhanced performance is attributed to gravitational assistance in fluid movement and reservoir pressure expansion. In contrast, the downward-inclined geometry yielded the lowest production due to higher liquid holdup. Gradient matching was employed to identify dominant flow patterns and slip velocities, revealing bubble flow dominance in horizontal sections and transition to slug flow in mid-well segments. These findings highlight the importance of well trajectory design in optimizing multiphase fluid flow and maximizing production in horizontal wells.
Optimisme dan Larangan Berputus Asa dalam Tafsir Al-Azhar: Telaah Tematik atas Ajaran Islam dalam Kehidupan Modern Wais Al Qurni; Arif Firdausi Nur Ramadlon; Indri Astuti
AL-MIKRAJ Jurnal Studi Islam dan Humaniora Vol. 5 No. 2 (2025): 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.v5i2.7363

Abstract

The Qur'an, as the holy book of Islam, provides comprehensive guidance for life, including teachings that encourage optimism and prohibit despair in the face of life's trials. However, a deep understanding of these messages requires the aid of tafsir (Qur'anic exegesis). This study aims to examine the interpretation of verses related to optimism and the prohibition of despair in Tafsir Al-Azhar by Buya Hamka. The research employs a library method with a thematic approach. The analysis focuses on selected verses such as QS. Ali Imran: 139, QS. Yusuf: 87, QS. Az-Zumar: 53, QS. Al-Anbiya’: 90, and QS. Ash-Shu’ara: 62. The findings indicate that Buya Hamka emphasizes the importance of faith, positive thinking (husnuzhan), and trust in God (tawakkal) as foundations for developing an optimistic attitude. He also asserts that despair reflects a weakness of faith and can negatively affect both individual and social life. This study concludes that Tafsir Al-Azhar not only conveys theological messages but also offers psychological and moral motivation that is relevant to contemporary issues such as depression and suicide caused by life pressures. Therefore, Buya Hamka’s humanistic approach to tafsir is a valuable reference for strengthening the mental resilience of society, fostering patience, and instilling hope in facing life's challenges. Scientifically, this study contributes to the development of thematic Qur'anic exegesis by integrating theological and psychological aspects, as well as humanistic values in a modern context

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