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Aly Rasyid
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Universitas Bhayangkara Jakarta Raya Kampus II: Jalan Raya Perjuangan No. 81, Bekasi Utara, Kota Bekasi 17121, Indonesia
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Bhara Petro Energi
Published by Universitas Bhayangkara Jakarta Raya
ISSN : 28285530     EISSN : 28283457     DOI : https://doi.org/10.31599/bpe.v1i2
Core Subject : Science, Engineering,
Chemical Engineering, Chemistry & Bioengineering Energy Engineering
Journal of Bhara Petro Energi (BPE) is a scientific journal managed and published by the Department of Petroleum Engineering, Faculty of Engineering, Bhayangkara University, Greater Jakarta. The focus of this journal is all about the upstream and downstream oil and gas industry as well as the geothermal industry. This journal focuses on production technology, drilling technology, petrophysics, reservoir studies and EOR (enhanced oil recovery) studies. Downstream Technology focuses on oil processing, managing surface equipment, and economic forecasting. BPE will be issued 3 (three) times a year, in March, July and December. First published in March 2022 with ISSN 2828-3457 (Online Media), and ISSN 2828-5530 (print media).
Arjuna Subject : Energi (semua kategori) - Energi (Lain-Lain)
Articles 76 Documents
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Interpretasi Rekahan Hydraulic Fracturing dengan Menggunakan Permodelan Simulator Fraccade Berdasarkan hasil Rock Properties Pada Sumur X Lapangan Y Nugroho Marsiyanto; Edy Soesanto; Eko Prastio; Aulia Ismanto
Jurnal Bhara Petro Energi Vol.2 No.2 (November 2023)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/2xnc2914

Abstract

Interpretation Fractures of Hydraulic fracturing with Fraccade Model Based on Rock Properties Results at Well X Field Y.Identifying fractures based on the results of Rock Properties purpose is to find out and get results during the identification process from the results of Hydraulic fracturing stimulation with the purpose of getting a conclusionwhether or not the operation is successful. Well X has several problems such as high skin and low permeability, because of that Hydraulic fracturing stimulation is the most effective action for this well.The method used is to select data data and the condition of well X to visualize the data results from Fraccade software V 5.4.1. And do calculations using Ms. Excel. The parameters that calculated in this Final Project include rock geometry, rock permeability, and wellbore damage. After identifying and interpreting the data using Fraccade V 5.4.1 software. The results show that not much different between manual calculation and Fraccade software.
Analisis Swelling Clay di Formasi Telisa Untuk Perencanaan Lumpur Pemboran Skala Laboratorium Nugroho Marsiyanto; Abdullah Rizky Agusman; Faqqih Badruzzaman
Jurnal Bhara Petro Energi Vol.2 No.2 (November 2023)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/bmfac267

Abstract

In the exploration stage, there is a well drilling operation process aimed at making holes in locations identified as having oil/gas. At the time of the drilling, it does not always run well so that it can cause problems that interfere with drilling operations such as swelling clay, sloughing shale, caving shale, and differential pipe sticking which may be due to the formation lithology penetrating thick shale formations, so that these problems can slow the penetration rate and increase the cost of drilling operations. Then the swelling clay analysis was carried out to overcome this problem. This study aims to determine the reactivity of cuttings by identifying the clay content in the Telisa Formation and planning the drilling mud to be used, so that it is suitable if it penetrates the Telisa Formation so that clay Swelling does not occur. There are 3 different types of water base mud, namely 7% KCL Polymer PHPA, 7% KCL Polymer Polyamine, and 7% KCL Polymer Soltex. This method is carried out in a laboratory test by conducting several Density, Yield Point, Plastic Viscosity, Gel Strength, MBT (Methylene Blue Test) and LSM (Linear Swelling Meter) tests. The results of the 7% KCl Polymer PHPA mud test were Density 9.9 ppg, Plastic Viscosity 20 cp, Yield Point 18 lb/100 ft2, MBT 15 meq, and LSM 29.5 meq/100 gr. In the 7% KCl Polymer Polyamine mud test, namely Density 9.8 ppg, Plastic Viscosity 19 cp, Yield Point 18 lb/100 ft2, MBT 12.5 meq, and LSM 24.375 meq/100 gr. In the 7% KCl Polymer Soltex mud test, namely Density 9.7 ppg, Plastic Viscosity 20 cp, Yield Point 17 lb/100 ft2, MBT 10 meq and LSM 19.5 meq/100 gr. There are different values on the properties of the mud in each test using 3 different types of additives.
Pengambilan Data Inklinasi Dan Azimuth Dalam Proses Measurement While Drilling (MWD) Menggunakan Metode Mud-Pulse Telemetry Pada Sumur X Lapangan Y Geusan Buana Fauzan; M.Mahlil Nasution; Citra Wahyuningrum
Jurnal Bhara Petro Energi Vol.3 No.1 (Mei 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/dhbkn414

Abstract

The Measurement While Drilling (MWD) process is essential in the oil and gas industry to obtain real-time data during drilling operations. One of the MWD methods commonly used is mud- pulse telemetry, which transmits data through mud pulses generated by the drilling fluid. This study focuses on the data acquisition process on MWD using Mud-pulse telemetry at Well X, which is located in Field Y. The purpose of this research is to analyze the performance  of the MWD system, evaluate the quality of the data obtained through mud-pulse  telemetry. The results showed that from the results of well X data, Mud Pulse Telemetry with Continuous Wave System can transmit data continuously and in real time and can measure up to a depth of 1,268 meters. The advantage of Mud Pulse Telemetry is that mud pulses can transmit data with a signal  without  being disturbed by interference  from signals  inside  the earth,  so the  resulting noise tends to be a little lack ing in it. Despite the advantages of mud pulses, there are also disadvantages. One drawback  is when there is a loss of circulation. Lost Circulation is the loss of drilling mud into the formation. This study recommends  actions  to optimize  drilling  conditions and fluid properties  to improve  the accuracy and reliability of MWD data.
Analisa Sebaran Lapisan Sedimentasi Karbonate Berdasarkan Hasil Index Properties Akbar Tri Gumilang; Edy Soesanto; Abdullah Rizky Agusman
Jurnal Bhara Petro Energi Vol.3 No.1 (Mei 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/w1c3ae87

Abstract

This island is a sub-district located east of Pulau Laut at position 3° 24′ 23″ N o r t h Latitude and 116° 24′ 21″ East Longitude. The research location can be reached in 10 hours by road from Banjarmasin to Batulicin Ferry Port, the coast to Pulau Laut using the ferry for 2 hours arriving at Tanjung Serdang Port, followed by a land trip on Pulau Laut to Teluk Gosong Pier for 2 hours, the port by speedboat to arrive at Tanjung Nusantara Pier on Sebuku Island. Sebuku Island is included in the geological map of the 1812 Kotabaru Sheet, according to Rustandi (1995) there are four rock formations that make up Sebuku Island, among others (old to young); Ultrabasic Mesozoic Formation, Pitap Formation, Haruyan Formation, Tanjung Formation, and alluvium quaternary deposits. The Pitap Formation is of late Cretaceous age, deposited in a shallow marine environment, with a fairly wide distribution area. Its lithology consists of alternating conglomerates. The total weight of the sample is a factor that influences a carbonate percentage calculation. Water content is a factor that influences a calculated value.
Menentukan Kebutuhan Material Penyemenan Plug Pada Trayek 26” Lapangan “PAS” Sumur “ASY” Aly Rasyid; M. Mahlil Nasution; Phillip Asy Syams
Jurnal Bhara Petro Energi Vol.3 No.1 (Mei 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/5m7k0560

Abstract

Drilling operations are one of the most vital operations in supporting the oil and gas production efforts of a field. Cement plug or plugging is a term used in the oil and gas industry to refer to the process of cement well plugs in drilling wells that have various purposes, these cement plugs can be installed at various depths in the well. This research was conducted with several methodologies from the type of research, data collection techniques, data analysis, and data processing. In the process of cementing the 26 "route plug, the volume capacity of cement slurry obtained is 150.27 bbls, the total required sack of cement is 746.63 sacks, the acquisition of mix water required in the 26" route plug cementing process required is 83.16 bbls, the additives needed for this cementing for tail slurry are silica flour of 28073.29 lb, Antifoam Agent 7.46 gal, Dispersant 140.37 lb, and Accelerator of 210.55 lb. In calculating cementing materials, detailed accuracy is needed, because if there is an error in the calculation, it will cause a fatal failure, and the development of technology today can facilitate the determination of cementing material requirements, including automatic calculation software, more effective cementing materials and control systems for monitoring in real time.
Penentuan Absolute Open Flow Potensial (AOFP) Dan Production Performance Prediction Berdasarkan Well Testing Data Pada Sumur Gas “DI” Lapangan “LA” Nugroho Marsiyanto; M. Mahlil Nasution; Siti Fadillah
Jurnal Bhara Petro Energi Vol.3 No.1 (Mei 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/1sb08k05

Abstract

In a well that has been drilled (exploration), a hydrocarbon well testing process needs to be carried out, namely well testing. The purpose of well testing is to determine reservoir parameters and to determine the production capacity of a layer or formation. The "DI" gas well in the "LA" field is located in the Batu Raja Formation layer in South Sumatra which is a new well and was drilled in 2010 and well testing was carried out in 2013. The pressure analysis carried out on the "DI" gas well was a deliverability test with back pressure method or flow after flow test, this test is used to determine the maximum value that can be produced by this well. Calculations carried out in this analysis used Microsoft Excel. The Absolute Open Flow Potential (AOFP) value for the "DI" gas well based on analysis of deliverability test results is 5,290 Mmscfd with an exponent (n) value of 0.93 and the C value obtained from constant flow is 5,361 Mmscfd.
Pengaruh Kesadahan Total Pada Desain Formula Lumpur Pemboran M.Mahlil Nasution; Edy Soesanto; Chesy Meifani
Jurnal Bhara Petro Energi Vol.3 No.1 (Mei 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/a3g5hq09

Abstract

Research was conducted to analyze the effect of total hardness on the design of optimal drilling mud formulas. Total hardness, which is a measure of the content of dissolved minerals and ions in water, can have a significant impact on the physical and chemical properties of a drilling mud. Factors such as the type of rock formation, water content in the formation, ambient temperature, hydrostatic pressure, and the type of admixture in the mud also influence the design of the mud formula. From the research results, it was found that total hardness can significantly affect the properties of drilling mud. The increase in total hardness tends to affect the rheology of the drilling mud. However, this influence is not linear and can differ depending on the specific conditions and sludge composition. This study provides a better understanding of the relationship between total hardness and drilling mud properties and can be used as a reference in designing optimal mud formulas. Considering the effect of total hardness and other factors, the design of the drilling mud formula can be optimized to meet the requirements of effective and efficient drilling.
Perhitungan Kebutuhan Proses Penyemenan pada Casing 4 ½ inch  Sumur “A” Lapangan “N” Rasyid, Aly; Pinandita, Aulia Huda; Amelia Novianti
Jurnal Bhara Petro Energi Vol.3 No.2 (November 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/9as1sa88

Abstract

Seeding is a process of mixing cement powder, water and additives that are then pumped into the well hole through the cover pipe to the annulus along the drilling hole. The success of a drill depends heavily on the success of the drill, so the calculation of the process of drilling is a very important thing to do in the milling industry. Data is obtained through field studies and library studies, then analyzed using casing diagrams and density tables, yields, and additive materials. The research phase included data collection, calculation of slurry volume, additive material calculation, and sack of cement calculation. The results of the research showed that the seeding process required a total volume of 27.55 bbl, with a composition of 98 sacks of grade G cement and 10.52 bbl of water. Additives used with the result included Silica Flour: 32.24 lb, Dispersant Liquid: 6.86 gall, Retarder Liqueid: 2.94 gall, Fluid Loss Control: 98 gall, Bonding Agent: 98 gal, and Defoamer Liquied: 2.94 gall. The equipment used in the sewing process includes the casing shoe, float shoes, casing collars, the float collar, and the shoe track. The research is aimed at ensuring that the seeding process runs smoothly and efficiently, as well as adding knowledge about the calculation of the volume of material required in casing seeding.
Analisa Trajectory Directional Drilling Pada Sumur Berarah MST-01 Edy Soesanto; Citra Wahyuningrum; Assyeh Annassrul M
Jurnal Bhara Petro Energi Vol.3 No.2 (November 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/3m9d0a46

Abstract

Directional Drilling is a drilling method that is used if there are obstacles so that the well cannot be drilled vertically. The first step in carrying out directional drilling requires planning a trajectory as a guide or reference when carrying out directional drilling. In this report, trajectory analysis was carried out to determine the parameter values used as a reference for the MST-01 well, where the results obtained from trajectory analysis on the MST-01 well were KOP 200 ftMD with a maximum inclination of 50.01°, horizontal drilling direction, namely N60 .2E, EOB length of 1667 ftMD with a total path length of 3212.19 ftMD. The trajectory model for the MST-01 well is Build and Hold with a radius of 1909.86 feet. By comparing the results of manual analysis and software, it can be concluded that there is no significant difference between the two.
Evaluasi Penambahan Lapisan Menggunakan Metode SSD (Sliding Sleeve Door) Pada Sumur “RG-3” Lapangan “NR” Nugroho Marsiyanto; Aulia Huda Panindita; Diah Ayu Kusuma Ningrum
Jurnal Bhara Petro Energi Vol.3 No.2 (November 2024)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/wnj49c88

Abstract

In the "RG-3" Well there are 3 production zones in one wellbore, UA-10, UA-11, and UA-12. The zone produced only UA-10 from 2015 until it experienced a decline in production in 2021 with the latest production reading reaching 3 MMscfd. So efforts need to be made to increase production by doing a good job by opening new zones or existing zones in the well. The "RG-3" well carried out work on adding zone layers by opening the pre-existing UA-12 zone with the hope that the UA-12 zone could increase gas production results. The well intervention work process for adding this layer uses a slickline unit with the open SSD method. The “RG-3” gas well in the "NR" field is located in the Arang Formation layer. The data required in this research is gas production data, work cost data, and other supporting data. In the economic evaluation of adding layers using the SSD method, with a work process of up to 13 days by calculating POT, NPV, and ROR the results reached POT 3 days, NPV = US$ 85.147, and ROR reached 1.007% with the assumption The production results obtained were 8 MMscfd.

Page 6 of 8 | Total Record : 76

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