Garuda - Garba Rujukan Digital

Perencanaan Desain Offshore Kontruksi Bawah Laut menggunakan Pengolahan Data Pemodelan Geofisika dengan Program Simulasi 3D Surfer Edy Soesanto; Aly Rasyid; Hadi Suyanto
Jurnal Bhara Petro Energi Vol.1 No.1 (Mei 2022)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/stebf321

Underwater construction design planning is increasingly being developed as a 3D modeling simulation, because 3D simulation is expected to be able to make the initial plan for making a design framework. Surfer is one of the software that was created for the purpose of making contour maps and three-dimensional modeling based on existing grids and simplifying and accelerating data conversion activities into the form of contour maps and surface plots. One of the applications is Surfer in the field of Underwater Technology development is 3D modeling simulation and bathymetric contour map making, sediment layer modeling using SBP data and making current stick plots to determine circulation and current velocity and direction. In addition, Surfer can also display maps in 2D or 3D. on this occasion Surfer 16 software will be used to process marine acoustic data with X (Easting) data, Y (Northing) data and six Z layer depths, namely Z1-Z6, the data is processed in one step to make 2D and 3D models which are then will be interpreted as a simulation material for the initial planning of the underwater construction design.

Evaluasi Pemilihan Electric Submersible Pump (ESP) Untuk Menggantikan Gas Lift (GL) Di Sumur X Lapangan Offshore Y Nugroho Marsiyanto; Eko Prastio; Aly Rasyid
Jurnal Bhara Petro Energi Vol.1 No.2 (November 2022)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/zx02t628

Well X is located in the offshore Y field, where there are 7 production wells, all of which use an artificial lift in the form of a gas lift. In this field, oil is produced from the N oil layer while the gas layer comes from the K layer. Well X was drilled in May 2013 with a target of N oil formation at a depth of 9,007 ft MD, slope (450) and 4-1/2" Liner completion. The initial production of well X was 1,632 BOPD; 5.3 MMSCFD; 0% BSW. Well X is the only well in the Y offshore field that does not penetrate the K gas formation, so gas production from nearby wells is used to produce oil from the N formation. well-to-well gas lift. Along with production time, the reservoir pressure in the N oil layer and K gas layer has decreased, so that oil production in well X has also decreased. With changes in company policy that optimize and increase gas production to increase gas sales to the industry around the company's operational areas since early 2017, the outgoing pressure on the Y platform has increased from 210 psi to 450 psi, causing a total oil well X could not pass through and produce due to high outgoing pressure on platform Y. Well X's last production data was on January 31 2017 with oil production of 179 BOPD and 1.25 MMSCD for gas production and gas lift injection of 0.75 MMSCFD, before finally shutting down. The selection of another artificial lift as a substitute for the gas lift has been carried out to revive well X later. Based on the alloy table made by Weatherford for the selection of artificial lifts for conditions on the Y field platform, ESP has many advantages and appropriate flexibility compared to other types of artificial lifts. The ESP type D1050N which is a mix flow ESP has been selected and after installation in well X in August 2019 it has successfully revived with a production test of 885 BFPD, 681 BOPD, and 23% water content on September 3 2019. ESP in well X has been in production for 2 years, until finally experiencing a leaky tubing problem in September 2021 and requiring a new tubing replacement job along with a new ESP replacement to revive the X well.

Peningkatan Peluang Bisnis Strategi Industri Migas Terhadap Pengaruh Pandemi Covid-19 Di Indonesia Edy Soesanto; Aly Rasyid; Bobby Devagan
Jurnal Bhara Petro Energi Vol.1 No.2 (November 2022)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/thvm7v32

The oil as well as fuel market participates in an essential function in the Indonesian economic climate, as an income source APBN as well as a resource of power (particularly gas) towards steer different industries of lifestyle throughout Indonesia. Limitations on individual motion have actually resulted in a straight decrease popular for gas. Along with reducing usage, Covid-19 likewise has actually an effect on reducing oil as well as fuel costs as well as manufacturing, consisting of ceasing upstream tasks as well as decreasing fine-tuning tasks. Within this particular examine, monitorings were actually made from all of upstream oil as well as fuel company tasks in Indonesia particularly, since the effect of the Covid-19 pandemic consisted of the effect of worldwide problems overall, to ensure that healing initiatives could be created in addition to recommendations for handling problems that might intensify. The outcomes of this particular examine end that the avoidance of the effect of Covid-19 for the upstream oil as well as fuel company should be actually performed comprehensively as well as includes all of stakeholders, to ensure that the oil as well as fuel market can easily remain to make it through amidst the direct visibility of the Covid-19 pandemic.

Analisa Kelayakan Peralatan Pompa Di Permukaan Dan Dyna Cards Terhadap Penurunan Produksi Harian Di Sumur “BD” Lapangan “SEI” Aly Rasyid; Eko Prastio; Ode Rifaldi
Jurnal Bhara Petro Energi Vol.2 No.1 (Mei 2023)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/cbscg849

In an effort to lift oil and gas from a subsurface reservoir, companies engaged in oil and gas must carry out production operations. The production operation itself aims to make oil and gas produced or lifted to the surface. However, the problems faced to carry out maintenance in this production operation are not small and can even be categorized as a very expensive job. In order to reduce the budget of production operations there needs to be efficien by doing good maintenance and observation. One aspect that needs to be considered in the maintenance of production operations is the appropriateness of the equipment. This determination of feasibility greatly influences the cost of production operations due to maintenance, and observation is one of the most expensive part of production operations. Therefore it is necessary to have the right assessment and observation before deciding that the pump equipment used is suitable and efficient. In this study aims to evaluate the feasibility of surface and downhole pump equipment related to lower pump efficency. It is expected to be used as suggestions and consideration to evaluate the performance and safest downhole pump equipment.

Analisis Penjualan Produk Aspal Kilang Minyak Pertamina RU IV Cilacap Dengan Metode Statistik Aly Rasyid; Abdullah Rizky Agusman; Angellita Meisya Dellila
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/zgx01f63

The development of road infrastructure such as highways, toll roads, airports, ports, bridges and other infrastructure requires an average of 1.2 million tons of asphalt per year. Under these conditions, the need for domestic asphalt is very large. Asphalt products are one of the petroleum derivative products that have high economic value and are the main raw material in infrastructure development. This research focuses on Pertamina RU IV Cilacap Oil Refinery Asphalt products with 60/70 penetration specifications that have been adapted to the needs and conditions of Indonesia with a tropical climate and are one of the superior products at PT Patra Trading. The purpose of this study is to analyze the simultaneous and partial significant effects using quantitative methods, namely statistical models on SPSS software version 25.0. The parameters used as research variables in the questionnaire to support this research are product excellence, product application, and product quality. Product excellence is a factor that makes a product have value and advantages in the eyes of customers, product application is the process of using products to meet customer needs, and product quality is the ability of a product to meet specifications to increase customer satisfaction. The results showed that the variables of product excellence X1 and product application X2 had a simultaneous effect on the product quality parameter Y based on the F (Simultaneous) test which serves to measure the goodness of fit of the regression equation or determine whether all the independent variables contained in the equation jointly affect the dependent variable by producing a significance value of 0.00 <0.05. Based on the T test (Partial) which serves to test how far the influence of one independent variable individually in explaining the variation in the dependent variable by producing a T-count value of 8.157> T-table 2.02 with a significant level of 0.000 < 0.05 or a significant value smaller than 0, 05 which indicates that there is a significant and partial influence on the Product Excellence variable X1 on Product Quality Y and T-count 6,528> T-table 2.02 with a significant level of 0.000 <0.05 or a significant value smaller than 0.05 there is a significant and partial influence on the Product Application variable X2 on Product Quality Y. Based on the coefficient of determination test which serves to measure how much variation in the independent variable can explain the dependent variable which shows the independent variable Product Excellence X1 and Product Application X2 affect the dependent variable Product Quality by 91.9%.

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

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.

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

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.

Evaluasi Water Shut Off Dan Membuka Lapisan Baru Sumur Bagong Di Lapangan Lesma Abdullah Rizky Agusman; Aly Rasyid; Dika Latief Lesmana
Jurnal Bhara Petro Energi Vol.2 No.1 (Mei 2023)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/kdnk2h22

Evaluation of Water Shut Off and Opening a New Layer of the Bagong Well in the Lesma Field, In oil and gas exploitation activities at the Bg01 Well, the well has been in production for a long time, so there is a problem where the proportion of water content in production wells continues to increase. compared to the proportion of oil and gas content produced, the improvement is carried out using the water shut off method by closing the existing perforation holes and opening new perforations in the same layer. Or closing the existing perforation holes that are indicated to cause an increase in water and the production of other perforated parts. By closing the layer, it is hoped that the water cut will decrease so that it will increase oil and gas production.

Perbandingan Pemilihan Antara Tipe Wellhead Conventional Dengan Wellhead Unihead Nugroho Marsiyanto; Aly Rasyid; Sigit Widianto
Jurnal Bhara Petro Energi Vol.1 No.1 (Mei 2022)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/3zkbvd51

The wellhead is a surface well control device made of steel which forms a seal / baffle system to withstand bursts or leaks of liquid from the well to the surface composed of casing head (casing hanger) and tubing head (tubing hanger). Wellhead used in an oil or gas well must have a long runlife because an oil or gas well can last up to decades, and if it is necessary to replace the wellhead will take large costs. This paper determines the process in selecting the use and effectiveness of wellhead and comparing conventional wellhead versus unihead wellhead at W well that is efficient and safe during drilling well and optimal utilization during production process. Wellhead type selection process cover determining temperature class, material class, pressure rating, installation costs, and in terms of safety. Based on the selection process, W wellhead well has the temperature class used is class U, the material class used is the type FF- 0.5 or HH-0.5, for a pressure rating of 3000 psi, and in terms of cost it is more economical to use unihead wellhead type.

Evaluasi Pengerjaan Bottom Up Circulation Trayek 8 ½ Pada Pemboran Berarah Sumur X Lapangan Y Vandra Firmansyah Sukma; Nugroho Marsiyanto; Aly Rasyid
Jurnal Bhara Petro Energi Volume 4 No 2 (November 2025)
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/83605e88

Proses bottom up circulation adalah tahapan di mana lumpur pemboran dipompa ke dalam lubang bor dari permukaan hingga ke dasar lubang, kemudian dialirkan kembali ke atas. Penelitian ini bertujuan untuk mengevaluasi pelaksanaan sirkulasi bottom up pada Trayek 8 ½ inci Sumur X di Lapangan Y yang merupakan sumur pemboran berarah. Fokus utama evaluasi adalah membandingkan waktu sirkulasi hasil perhitungan teoritis dengan data aktual lapangan, serta menganalisis penyebab perbedaan yang terjadi. Data yang digunakan meliputi spesifikasi sumur, Drill string, pompa lumpur, dan data actual lapangan. Hasil perhitungan menunjukkan bahwa waktu sirkulasi teoritis sebesar 28,6362 menit dengan jumlah 2.625,0910 Stroke, sedangkan waktu aktual tercatat 33 menit dengan 3100 Stroke. Selisih waktu dan Volume sirkulasi tersebut mengindikasikan adanya pelebaran lubang bor (overgauge Hole), Penyebab utama pelebaran ini antara lain efisiensi pompa yang tidak optimal, karakteristik formasi yang tidak stabil, serta potensi terjadinya washout di sekitar BHA

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