cover
Contact Name
Aly Rasyid
Contact Email
aly.rasyid@dsn.ubharajaya.ac.id
Phone
+628111085034
Journal Mail Official
aly.rasyid@dsn.ubharajaya.ac.id
Editorial Address
Universitas Bhayangkara Jakarta Raya Kampus II: Jalan Raya Perjuangan No. 81, Bekasi Utara, Kota Bekasi 17121, Indonesia
Location
Kota adm. jakarta selatan,
Dki jakarta
INDONESIA
Bhara Petro Energi
ISSN : 28285530     EISSN : 28283457     DOI : https://doi.org/10.31599/bpe.v1i2
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).
Articles 87 Documents
PERHITUNGAN NILAI POROSITAS DAN PERMEABILITAS DALAM PENGUKURAN DISTRIBUSI PORI MENGGUNAKAN METODE MERCURY INJECTION CAPILLARY PRESSURE Muhammad Ikhwan A; Aulia Huda Pinandita; Abdullah Rizky Agusman
Jurnal Bhara Petro Energi Volume 5 No 1 (Mei 2026)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/px6cb621

Abstract

This study aims to calculate the porosity and permeability values ​​of rocks through pore distribution analysis using the Mercury Injection Capillary Pressure (MICP) method. This method works based on the principle of capillary pressure, where mercury is injected into a rock sample at increasing pressure to determine the pore size and distribution. The measurement data is used to obtain effective porosity and absolute permeability by applying the Washburn and Katz-Thompson equations. The results show that variations in porosity and permeability values ​​are influenced by rock texture, grain size, and interpore connectivity. Rocks with a uniform pore distribution have higher permeability than rocks with poorly connected pores. Overall, the MICP method has proven effective in providing a quantitative picture of the pore microstructure and can be used to support reservoir characterization in petroleum geology studies.
IDENTIFIKASI DAMPAK PERUBAHAN IKLIM TERHADAP SEKTOR INDUSTRI MINYAK DAN GAS Megahma Sabou S; Abdullah Rizky Agusman; Eko Prastio
Jurnal Bhara Petro Energi Volume 5 No 1 (Mei 2026)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/hczs1n68

Abstract

Climate change is an unavoidable issue for the future. Increasing greenhouse gas (GHG) emissions are causing climate change, which is already being felt in various parts of the world. The oil and gas industry is one of the sectors most vulnerable to the impacts of climate change. The entire oil and gas value chain, from production and transportation to refining, is affected differently by the impacts of climate change. Mitigation and adaptation measures are needed to prevent significant financial losses.
PERENCANAAN DESAIN CASING PEMBORAN DI SUMUR BH-01 LAPANGAN R Efalia Songgih G; Eko Prastio; Abdullah Rizky Agusman
Jurnal Bhara Petro Energi Volume 5 No 1 (Mei 2026)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/2dknh330

Abstract

Casing design planning is an important stage in oil and gas drilling activities that aims to maintain the stability of the drill hole, protect the formation, and ensure the safety of drilling operations. This research was conducted at the BH-01 Well of Field R with the aim of designing a safe and efficient casing configuration based on geological conditions and formation pressure. The method used is the Maximum Load Method, an analysis method that considers three main types of loads on the casing, namely burst, collapse, and tension loads. The calculation results show that the 13-3/8 inch intermediate casing with K-55 material has a safety factor value of 1.4 for burst, 1.2 for collapse, and 3.6 for tension. All of these values ​​​​exceed the minimum standards of API 5C3 and API 5CT, so it can be concluded that the casing design is safe for all types of operational loads. Thus, the casing design planning at the BH-01 well has met the technical and safety criteria, and can be used as a reference in drilling in fields with similar geological conditions.
PERENCANAAN DESAIN BOTTOM HOLE ASSEMBLY (BHA) DENGAN VARIASI OUTER DIAMETER (OD) STABILIZER PADA PEMBORAN BERARAH TIPE J DI SUMUR X Berkah Hani; Aly Rasyid; Matthew Greenly Tamima
Jurnal Bhara Petro Energi Volume 5 No 1 (Mei 2026)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/bvvwgp42

Abstract

This study discusses the design planning of the Bottom Hole Assembly (BHA) in J-type directional drilling with a focus on the effect of variations in Outer Diameter (OD) and stabilizer position on the well trajectory characteristics. The method used is a drilling planning simulation using WellPlan software on Well X with variations in Outer Diameter (OD) of the stabilizer of 10¾”, 11”, and 12”, as well as variations in the distance of the stabilizer installation from the drill bit, while other drilling parameters are kept constant. The main evaluation parameters include Build Up Rate (BUR) and Dogleg Severity (DLS). The simulation results show that increasing the Outer Diameter (OD) of the stabilizer results in an increase in the Build Up Rate (BUR) value represented by the Equilibrium Build Rate (EBR). In addition, the stabilizer installed closer to the drill bit shows a higher trajectory angle formation capability. The results of this study indicate that the selection of the right Outer Diameter (OD) and stabilizer position plays an important role in controlling the well trajectory and can be used as a reference in planning the design of the Bottom Hole Assembly (BHA) in J-type directional drilling.
PERHITUNGAN NORMALISASI DATA MENGGUNAKAN METODE LEVERETT J-FUNCTION UNTUK HASIL UJI TEKANAN KAPILER DENGAN ALAT SENTRIFUGAL PADA BATUAN Aly Rasyid; Abdullah Rizky Agusman; Nona Julia Zalfa Nisrina
Jurnal Bhara Petro Energi Volume 5 No 1 (Mei 2026)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/ypfsfh98

Abstract

This study discusses the application of the Leverett J-Function method in the process of normalizing capillary pressure (Pc) data from SCAL tests on centrifuges in reservoir rocks to obtain more accurate rock characteristics, and focuses on understanding the relationship between capillary pressure, water saturation, porosity, and permeability which play an important role in determining fluid distribution and flow quality in reservoir rocks. The focus of this study is directed at assessing the relationship between Pc and Sw, grouping rock characteristics using the Hydraulic Flow Unit (HFU) method, and applying Leverett J-Function to normalize data so that measurement results from various samples can be compared consistently. The results show that rocks can be grouped into three HFUs with varying flow quality, where HFU 1 shows the best quality, HFU 2 represents medium flow, and HFU 3 has low quality. Normalization using Leverett J-Function successfully unifies capillary pressure data into a more uniform curve, while the denormalization results provide a more realistic picture of reservoir conditions. The combination of HFU and Leverett J-Function methods has proven effective in improving the accuracy of petrophysical interpretations and supporting oil and gas reservoir management.
ANALISIS PENGARUH PENAMBAHAN BENTONITE TERHADAP SIFAT RHEOLOGI LUMPUR PEMBORAN MENGGUNAKAN POLYMER JENIS KCL (POTASSIUM CHLORIDE) PADA TEMPERATUR 100OF, 200OF, 250OF Citra Wahyuningrum; Nugroho Marsiyanto; Puspita Dewi Utami
Jurnal Bhara Petro Energi Volume 5 No 1 (Mei 2026)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/rqbb4n36

Abstract

This study aims to analyze the effect of bentonite addition on the rheological properties of drilling mud using KCL (potassium chloride) polymer at temperatures of 100°F, 200°F, and 250°F. Drilling mud with bentonite and KCL polymer is important in the oil drilling industry because it affects well stability and drilling efficiency. The research method is qualitative with laboratory testing using a viscometer to measure rheological parameters such as plastic viscosity, yield point, and gel strength at various temperatures. The results showed that the addition of bentonite increased the rheological stability of the mud, especially at temperatures of 100°F and 200°F, with more optimal viscosity and gel strength values. However, at a temperature of 250°F the rheological performance decreased due to degradation of the KCL polymer and changes in the bentonite gel structure. The conclusion of this study states that the use of bentonite can improve the rheological properties of KCL-based mud at low to medium temperatures, but is less effective at high temperatures. This research provides important insights for more effective and stable drilling mud formulation in the field.
EVALUASI PENANGGULANGAN WELLCONTROL MENGUNAKAN DRILLER’S METHOD PADA TRAYEK 6-1/8” SUMUR “X” LAPANGAN “Y” Sahmil Habibi Harahap; Nugroho Marsiyanto; Wahyu Sutresno
Jurnal Bhara Petro Energi Volume 5 No 1 (Mei 2026)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/5685qj96

Abstract

This study evaluates the effectiveness of the application of the driller's method on the 6-1/8" trajectory of the X well in the Y field using secondary data from drilling operations, namely the values ​​of SIDPP, SICP, ICP, FCP, mud volume, pump data, and Leak-Off Least (LOT) results. The method used is quantitative analysis and well control calculations carried out through the following stages: determining formation pressure, calculating Initial Circulating Pressure (ICP), Final Circulating Pressure (FCP), Kill Mud Weight (KMW), and evaluating the formation safety limit through MAASP and MADFD. The results showed that the actual mud weight of 14.2 ppg was underbalanced against the equivalent formation pressure of 14.5 ppg, thus triggering a kick. The calculation resulted in an ICP of 270 psi, FCP of 243 psi, and KMW of 14.39 ppg, while the LOT of 2195 psi indicated that the formation capacity was still safe for the circulation process. The evaluation concluded that the Driller's Method was effective and safe for use in mitigating kicks without causing lost circulation. as well as formation damage.