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Aly Rasyid
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aly.rasyid@dsn.ubharajaya.ac.id
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+628111085034
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aly.rasyid@dsn.ubharajaya.ac.id
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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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Kota adm. jakarta selatan,
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INDONESIA
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 6 Documents
 1 
Search results for , issue "Vol.3 No.2 (November 2024)" : 6 Documents clear
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.
Pengaruh Build Up Angle Untuk Kestabilan Formasi Pada Proses Cabut Rangkaian BHA Abdullah Rizky Agusman; Eko Prastio; Muhammad Alfarizi
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/sskr0234

Abstract

Directional drilling is a method for directing a drilled well along a predetermined path to reach the target. Vertical wells are usually defined as wells with a slope below 5°. Wells with a slope of more than 60° are also called directional wells.Directional drilling is only carried out for certain reasons and circumstances. The reasons for carrying out directional drilling are geographical reasons, geological reasons, and other reasons related to productivity issues.In this thesis the author tries to determine the KOP, azimuth, inclination and EOB points so that the process of extracting the BHA series can run smoothly without having to experience formation collapse or the BHA series being pinched in the formation in the MAR-1 well, followed by comparing the actual data.
Pengaruh Gas Yang Terjebak Pada Liquid Di Micromotion Terhadap Productivity Index Eko Prastio; Wahyu Sutresno; Tania Stivani Pangestu
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/wd7gnw83

Abstract

The exploitation of oil and gas requires accurate and real-time measurements to ensure operational effectiveness and optimal production results. Surface well testing is one method used to assess well performance in producing oil and gas, as well as to evaluate the stability and efficiency of surface operations. In surface well testing, the use of a Multiphase Flow Meter (MPFM) with Micromotion sensors to measure liquid flow (oil and water) and Vortex sensors to measure gas flow is essential. This study aims to evaluate the impact of gas that gets trapped and tested by the Micromotion sensor on the Productivity Index (PI) of production wells. Data was obtained from real-time well test reports from PT. Mitra Prana Abadi Sentosa, which included water cut, drive gain, gas velocity, density, and various other well test data. Data collection techniques included field studies using quantitative methods to calculate the PI of the tested wells, as well as literature reviews to obtain secondary data supporting the theoretical foundation. Data was analyzed by filtering and categorizing according to research needs. The presence of trapped gas in the liquid flow affects the well’s PI. A high drive gain value indicates a decrease in the well’s production efficiency.
Penentuan Jenis Fluida Reservoar Di Lapangan M,  Blok N, Sumatera Selatan Nugroho Marsiyanto
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/m4bm7p60

Abstract

Reservoir  fluid  type  in  oil  or  gas  field  must  be  determined  very  early  in  the  life  of  reservoir because  it  is  as  critical factor  in  many  of  decisions  made  about  producing  strategy of  the fluid from the reservoir. It also influence in the depletion reservoirs strategy. Reservoir fluid type can be confirmed only by observing a representative fluid sample in the laboratory testing. However, rules  of  thumb  based  on  production  data  such  as  initial  producing  GOR,  stock  tank  liquid gravity, and stock tank liquid color usually will indicate reservoir fluid type of those reservoirs. M field was discovered in December 1989 with the drilling of M-1 well.  Subsequently, in July 1991, the M-2 well was drilled.  In November 1997, an appraisal well, M-3, was drilled. Based on total production testing at M field indicated that the potential deliverability is 30 MMSCFD and M field have  being  produced  since  March  2002  up  to  date  from  those  three  wells.    Objective  of  this paper is to determine fluid type in this M field. Based on the laboratory testing data from those 3 wells, the heptane plus concentration of M1 well is 0.47 % mole, the heptane plus concentration of M2 well is 0.67 % mole, and the heptane plus concentration of M3-well is 0.64 % mole. The Initial  Gas  Oil  Ratio  of  M  field  refer  to  well  testing  is  ranging  from  from  75,000  scf/STB  to 554,545  scf/STB  which  is  high  GOR  producing.    Based  on  those  2  methods  to  determine reservoir fluid types, the laboratory testing and rules of thumb on intial production data, the fluid type of M field is categorized as A Dry Gas. This fluid determination is giving the advantages of strategic field drainage optimally and economically to the field. 

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