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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 6 Documents
 1 
Search results for , issue "Vol.4 No.1 (Mei 2025)" : 6 Documents clear
Desain Formulasi Lumpur Untuk Pemboran Panas Bumi Di Sumur GG-01 Nugroho Marsiyanto; Wahyu Sutresno; Berkah Hani; Gigin Pahrudin
Jurnal Bhara Petro Energi Vol.4 No.1 (Mei 2025)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/rp7ka066

Abstract

During the drilling process, we need to look at several aspects that need to be considered, including  the  drilling  mud  aspect  which  is  one  of  the  important  aspects  in  a  safe  and  efficient drilling process.The success of a drilling process through various rock layers is very dependent on  the  design  of  the  drilling  mud  formulation.  All  of  that  can  be  influenced  by  the  nature  and physics  of  the  drilling  mud  which  needs  to  be  adjusted  to  the  formation  conditions,  formation pressure, rock type and fluid content contained in the formation. In designing the mud formulation that will be used, it can be done by using the mud system correlation method or by analyzing the pressure  wells  that  become  offset  wells  or  key  wells  which  are  analyzed  to  determine  the properties of the mud to be used. Well GG – 01 is an exploration well so it does not have an offset well. The drilling that will be penetrated is as many as 4 routes which in the first route the hole is made using a mash system so that it does not use drilling mud. And for the next route, the type of mud to be used is KCL Polymer with a different percentage on each route.  
Evaluasi dan Analisis untuk Mengatasi Masalah Lost Circulation Dan Stuck Pipe Pada Sumur X Rikumahu, Marcia Violetha; Geovanny Branchiny Imasuly
Jurnal Bhara Petro Energi Vol.4 No.1 (Mei 2025)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/pckr6z72

Abstract

Drilling operations do not always proceed smoothly as expected. Various issues can disrupt the drilling process and result in significant operational losses. Among the common problems encountered are lost circulation and stuck pipe incidents. Lost circulation often occurs in highly fractured formations, while stuck pipe events can lead to additional costs associated with non-productive time and fishing operations. In Well X, the causes of lost circulation and stuck pipe incidents were analyzed from several aspects, including drilling fluid properties, formation characteristics, hydrostatic pressure calculations, and pressure differentials. The analysis revealed that the primary cause of the stuck drill string was differential pressure resulting from excessive mud density, which caused the drill string to adhere to the formation wall. Additionally, the loss of drilling mud into the formation contributed to the problem, leading to financial losses, particularly in terms of drilling fluid costs. Both lost circulation and stuck pipe incidents can hinder well completion, ultimately increasing the drilling time and cost beyond initial projections. Therefore, a detailed investigation was conducted to determine the causes of these issues and assess the mitigation measures that had been implemented. In Well X, the stuck pipe problem was addressed using lost circulation materials (LCM) selected based on compatibility with the penetrated formation to optimize drilling operations. The evaluation focused on the drilling mud properties, including its rheology, as well as the drilling equipment used. These efforts were undertaken to ensure the continuation of drilling operations and the successful completion of the well.  
Optimasi Hidrolika Dengan Metode BHHP Pada Trayek 8-1/2 Inch Sumur KB Lapangan X4 Aulia Huda Pinandita; Aly Rasyid; Muhammad Al Hafiz Mattauch
Jurnal Bhara Petro Energi Vol.4 No.1 (Mei 2025)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/8bjr2m78

Abstract

This research focuses on optimizing drilling hydraulics in Well “KB”, Field “X4”, to increase the efficiency of drilling operations and lifting cuttings through a mud circulation system. Drilling mud plays an important role in lifting rock chips, maintaining hydrostatic pressure, and preventing formations from rising to the surface. The optimization method used is Bit Hydraulic Horse Power (BHHP) which measures pump performance and the strength of the mud flow through the bit to ensure maximum lifting power. The parameters analyzed include mud flow rate, viscosity, pump pressure, and nozzle size. The research results show that optimal hydraulic parameter settings can increase the rate of penetration (ROP) and drilling efficiency. Controlling factors such as mud density, flow rate and mud gel strength is key in maintaining drill hole stability and reducing drilling time. This research contributes to the development of drilling technology, especially in drilling mud management, which supports the efficiency and safety of drilling operations in oil fields.
Pengaruh Additif Xanthan Gum Terhadap Sifat Rheology Fluida Pemboran Abdullah Rizky Agusman; Edy Soesanto; Mohamad Rizqi Putra Prasetyo
Jurnal Bhara Petro Energi Vol.4 No.1 (Mei 2025)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/yph06030

Abstract

Drilling mud is a critical fluid in the drilling process, serving to maintain wellbore stability, transport drill cuttings, cool and lubricate the drill bit, and control formation pressure. In this study, a formulation was developed using bentonite, barite, and xanthan gum in specific proportions: 22.5 grams of bentonite, 11 grams of barite, and 8-11 grams of xanthan gum. The objective was to optimize the mud properties for a particular formation. After preparation, the mud was subjected to a series of tests in accordance with API standards, including density, rheological properties, filtration loss, and mud cake formation. The results demonstrated that the mud met the API criteria, with a density range of 9-9.5 ppg, a plastic viscosity (PV) between 13-20 cp, a yield point (YP) between 20-25 lb/100ft², 10-second gel strength between 14-21 lb/100ft², 10-minute gel strength between 17-24 lb/100ft², filtration loss between 9-14.7 ml, and mud cake thickness ranging from 1.47-1.76 mm. These findings indicate that the formulated drilling mud is capable of effectively stabilizing the wellbore, lifting drill cuttings, and minimizing the risks of kicks and lost circulation, thereby enhancing the overall efficiency and safety of the drilling operation in the targeted formation.
Perencanaan Hidrolika Pemboran Trayek 12-1/4” dan 8-1/2” Pada Sumur NT Lapangan DZ Citra Wahyuningrum; Eko Prastio; Bismaka Daniswara
Jurnal Bhara Petro Energi Vol.4 No.1 (Mei 2025)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/pn3m9q12

Abstract

In this study we plan the development wells in Trayeks 12 ¼ and 8 ½. As we all know, drilling mud is one of the indicators of the success or failure of a drilling operation. In the previous well, the drilling fluid was not optimal so that the cuttings were deposited which had the potential to cause problems in the drilling operation, namely pipe sticking. In the drilling hydraulics planning for the NT well in the DZ field, the cuttings were optimized using the Horse Power Per Square Inch (HSI) approach. HSI calculations are carried out to determine the efficiency of the hydraulic system by considering the main parameters such as pump pressure, Total Flow Area (TFA), Pressure Loss at Bit (Pbit), Impact force at Bit (BiF), Nozzle Velocity (Vn). In Trayek 12 ¼ inch, the HSI value obtained was 3,2hp/in2, thus maximizing the efficiency of hole cleaning, while in Trayek 8 ½ inch, the HSI value obtained was 2,7hp/in2, thus providing optimal bit penetration. The results of the HSI calculations provide guidance to reduce the possibility of operational problems, such as pipe sticking or loss of circulation, which often occur in drilling operations in the DZ field.
Optimasi Real-Time Sistem Pengendalian Informasi Berbasis IoT dan Barcode: Simulasi AnyLogic untuk Manajemen Pasar dan Sustainability Febrina Soeharjo , Ira; Theresya S Br Pardede, Valent; Fadillah, Dinda; Novira Sucipto , Tia
Jurnal Bhara Petro Energi Vol.4 No.1 (Mei 2025)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/1vgcez11

Abstract

This study designs a real-time simulation model using AnyLogic to evaluate the impact of IoT and barcode systems on inventory efficiency and sustainability in Indonesian retail (case study: Indomaret). Data were collected from 15 outlets in West Java over 12 months (2023), including IoT sensor readings (temperature, humidity) and 15,000 barcode transactions. Simulation results indicate IoT integration reduces stock loss by 40% and logistics carbon emissions by 18% via route optimization. The barcode system improves inventory accuracy to 98% and cuts stocktake time from 8 hours to 3 hours per outlet. These findings provide a technical framework for data-driven market management and support SDGs’ sustainability goals.

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