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Pemanfaatan Wellbore Strengthening Agent Selama Pengeboran di Onshore Sumatera Bagian Utara Indonesia Aly Rasyid
Jurnal Jaring SainTek Vol. 1 No. 2 (2019): Oktober 2019
Publisher : Fakultas Teknik, Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/jaring-saintek.v1i2.172

At northern part of Sumatera Indonesian onshore many drilling issues were encounteredin the area, in particular the overlying shales above the pay zones in the high deviatedtrajectory wells. Since the last well drilling in this area was 70’ era, so that limited data isanother drilling engineering challenge, especially to provide an accurate drilling fluid. Tocombat the drilling issues, utilization of pre-treated wellbore strengthening agent wasapplied to reduce well bore issues and strengthen the well with an effective filter cake. In Northern Sumatera Indonesian onshore well in Indonesia was used as a case study. First a brief understanding and fundamentals of geo-mechanics is described in reference to wellconstruction as well as filter cake fundamental to protect the hole stability. Results,observations and conclusions were drawn upon using a case study comparing a well ononshore in Indonesia which had many drilling problems such as stuck pipe/differentialsticking and washouts/hole enlargement issues related to well bore stability, after using thewellbore stability agent, the problems that encountered significantly decrease.

Evaluasi dan Optimasi Desain Casing Sumur Pemboran dengan Metode Maximum Load di Sumur ENN-1 di Lapangan Batuwangi Aly Rasyid; Edy Soesanto; Ezrawati Nunut Nababan
JURNAL BHARA PETRO ENERGI Vol 1 No 1: Volume 1 Nomor 1 (Maret 2022)
Publisher : Department of Petroleum Engineering

Batuwangi is field that positioned ini the Sumatera at southeastern part. Batuwangi is in the development stage. The ENN-1 is one of well at Batuwangi field, placed at the geographical coordinates 5˚25'21.24063 South Latitude and 106˚18'55.73957 East Longitude. ENN-1 is drilled as a directional well spud on December 9, 2014 and completed on February 6, 2015. ENN-1 well has a TD (total depth) of 3804 ftMD and 3247 SSTVD, as an oil producer. In this paper, it will be studied the planning of casing utilized in the ENN-1 well, to see whether the desain of casing is already the most technically choice or not, to do calibration evaluation the grade casing used in ENN- 1 Well. To perform evaluation, the Maximum Load method will be used, the case will be choosen against desain factors of burst, collapse, and tension load resistant of casing. Based on the evaluation of the study, it is found that casing grade in the ENN-1 Well is exceeds the technical requirement. That fact, need to be corrected since it will lead to cost inefficient, it will much more expensive, since the casing purchased is higher than technical requirement. Therefore, in this studied offer the casing grade proposal to be utilized in the ENN-1 well which meet with technical requirement as well as economically much more efficient than current design.

Desain Formulasi Lumpur Untuk Pemboran Panas Bumi Di Sumur GG-01 M. Mahlil Nasution; Aly Rasyid; Gigin Pahrudin
JURNAL BHARA PETRO ENERGI Vol 1 No 1: Volume 1 Nomor 1 (Maret 2022)
Publisher : Department of Petroleum Engineering

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.

Perbandingan Pemilihan Antara Tipe Wellhead Conventional Dengan Wellhead Unihead Nugroho Marsiyanto; Aly Rasyid; Sigit Widianto
JURNAL BHARA PETRO ENERGI Vol 1 No 1: Volume 1 Nomor 1 (Maret 2022)
Publisher : Department of Petroleum Engineering

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 Stimulasi Hydraulic Fracturing Dan Analisa Produktivitas Sumur Pada Formasi Sandstone Sumur ”MG-09” Lapangan ”FI” Aly Rasyid; Nugroho Marsiyanto; M Gilang Farhana Irsyad
JURNAL BHARA PETRO ENERGI Vol 1 No 2: July 2022
Publisher : Department of Petroleum Engineering

Abstract Hydraulic fracturing is a stimulation method by injecting treatment fluid to fracture a formation by using proppant (sand) as a fracture buffer media which aims to improve the production rate in the well. Fracture geometry evaluation is done to get the right fracture geometry value. In the production evaluation, using the Howard and Fast method, the Kavg value in the MG-09 well was 39.4094 mD. Based on the actual production rate after hydraulic fracturing in well MG-09 there was an increase in the total flow rate from 65 BLPD to 182 BLPD. Based on the calculation of the increase in Productivity Index, the Prats method obtained an increase in PI of 2.63 times, while the CSD method (Cinco-ley, Samaniego and Dominique) obtained a multiple of the increase in productivity (K2P) or an increase in PI of 2.63 times and the skin factor of +12 to -4.8 Based on the comparison of the three-phase IPR curve of the Pudjo-Sukarno method, where at the same Pwf of 400 psi there was an increase in oil production from 45 BOPD to 134 BOPD. Therefore, the results of the hydraulic faracturing evaluation of the MG-09 well in terms of the work process (proppant, fracturing fluid), production analysis (permeability, productivity index, increased productivity index of the prats and CSD methods, level of skin repair and IPR curve analysis) were declared successful. Keywords: Hydraulic fracturing, fluida treatment, Productivity Index, IPR tiga fasa. Abstrak Hydraulic fracturing (perekahan hidrolik) adalah suatu metode stimulasi dengan menginjeksikan fluida treatment untuk merekahkan suatu formasi dengan menggunakan proppant (pasir) sebagai media pengganjal rekahan yang bertujuan untuk meningkatkan laju produksi pada sumur. Evaluasi geometri rekahan dilakukan untuk mendapatkan nilai geometri rekahan yang tepat. Pada evaluasi produksi, dengan metode Howard dan Fast diperoleh nilai Kavg pada sumur MG-09 sebesar 39,4094 mD. Berdasarkan laju produksi aktual setelah dilakukan Hydraulic Fracturing pada sumur MG-09 terjadi peningkatan laju aliran total dari 65 BLPD menjadi 182 BLPD. Berdasarkan kalkulasi penghitungan Productivity Index, dengan metode Prats diperoleh peningkatan PI sebesar 2,63 kali, sedangkan dengan metode CSD (Cinco-ley, Samaniego dan Dominique) diperoleh angka kenaikan produktivitas (K2P) atau peningkatan PI sebesar 2,63 kali dan faktor skin dari +12 menjadi -4,8 Berdasarkan perbandingan kurva IPR tiga fasa metode Pudjo-Sukarno, dimana pada Pwf yang sama 400 psi terjadi peningkatan produksi minyak dari 45 BOPD menjadi sebesar 134 BOPD. Sehingga hasil evaluasi hydraulic faracturing pada sumur MG-09 dari segi proses kerja (proppant, fluida perekah), analisa produksi (permeabilitas, productivity index, peningkatan indeks produktifitas metode prats dan CSD, tingkat perbaikan skin dan analisis kurva IPR) dinyatakan berhasil. Kata kunci: Hydraulic fracturing, fluida treatment, Productivity Index, IPR tiga fasa. Reference: Agusman, Abdullah Rizky, Aly Rasyid, and Dika Latief Lesmana. "Evaluasi Water Shut Off Dan Membuka Lapisan Baru Sumur Bagong Di Lapangan Lesma." JURNAL BHARA PETRO ENERGI (2022): 38-43. Allen, Thomas O., Roberts, Alan P. 1989. “Production Operation 2: Well Completion, Workover and Stimulation”. Tulsa, Oklahoma: Oil & Gas Consultants Int. Inc. Carbolite Data Sheet Product Information. CARBO Ceramics, 2006. “Rencana Kerja Tahun 2014. Fungsi T. Produksi Asset 3”, PT. Bukitapit Bumi Persada. Economides, Michael J., Kenneth G. Nolte. “Reservoir Stimulation”, Houston, Texas: Energy Tribune Publishing Inc. Economides, Michael J., Martin, T. 2007. “Modern Fracturing, Enhancing Natural Gas Production”. Houston, Texas: Energy Tribune Publishing Inc. Montgomery, Carl. (2013). Fracturing fluids chapter I. Australia: NSI technology, Tulisa, Okhlama, USA. Rasyid, A., Nasution, M. M., Soesanto, E., & Afindera, H. (2021). Penentuan Zona Prospek Pada Kerja Ulang Pindah Lapisan Dengan Analisis Log Pada Lapangan X Sumur T. Jurnal Kajian Ilmiah, 21(3), 307-316. Rasyid, A., & Lestari, T. S. (2018). Penentuan Produktivitas Zona Minyak Dengan Menggunakan Modular Formation Dynamic Technology. Jurnal Kajian Ilmiah, 18(1).

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 2: July 2022
Publisher : Department of Petroleum Engineering

Abstract 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. Keywords: design, offshore, construction, underwater, surfer Abstrak Perencanaan desain kontruksi bawah laut semakain banyak dikembangkan sebagai simulasi pemodelan 3D, karena simulasi 3D diharapkan dapat menjadikan rencana awal pembuatan kerangka desain. Surfer adalah salah satu dari perangkat lunak yang diciptakan untuk kegunaan pembuatan peta kontur dan pemodelan tiga dimensi yang berdasarkan grid yang ada dan mempermudah serta mempercepat akvitas konversi data ke dalam bentuk peta kontur dan plot permukaan. Salah satu aplikasi adalah Surfer dalam bidang pengembangan Teknologi Bawah laut adalah simulasi pemodelan 3D dan pembuatan peta kontur batimetri, pemodelan lapisan sedimen melalui data SBP dan pembuatan stick plot arus untuk mengetahui sirkulasi dan kecepatan dan arah arus. Selain itu, Surfer juga dapat menampilkan peta secara 2D ataupun 3D. pada kesempatan ini software Surfer 16 yang akan digunakan unutk mengolah data akustik kelautan dengan data X (Easting) ,data Y (Northing) dan enam kedalaman lapisan Z yaitu Z1-Z6, data tersebut diproses dengan sebuah tahapan untuk menjadikan model 2D dan 3D yang selanjutnya akan di interpretasi sebagai bahan simulasi perencanaan awal desain kontruksi bawah laut. Kata kunci: desain, offshore, kuntruksi, bawah laut, surfer Reference: Septina Anggiani. Pengolahan data oseanografi dengan surfer 10.0 dan odv 4.0 Surya, Yohanes Sam. 2008. Surfer8.http://www.gis4u.net [26 November2013] International Hydrographic Organization (IHO) Standard for Hydrographic Surveys, Special Publication No.44 (SP.44), 5th Edition, February 2008 Alba, J. L. and Audibert, J. M. E. (1999). “Pile design in calcareous and carbonaceous granular materials: a historical overview”, Second International Conference Engineering on for Calcareous Sediments, Bahrain American Petroleum Institute (2000). “Recommended practice for planning, designing, and constructing fixed offshore platforms-working stress design”, API Recommended Practice 2A-WSD (RP 2A-WSD), (21’‘ ed.). API, Washington, D.C Anderson, D. G. and Stokoe, K. H. (1978). “Shear modulus: a time-dependent soil property”, Dynamic Geotechnical Testing, ASTM STP 654, American Society for Testing and Materials, pp. 66-90. Angemeer, J., Carlson, E. D., and Klick, J. H. (1973). “Techniques and results of offshore pile load testing in calcareous soils”, Proceedings, Ffth Offshore Technology Conference, Houston, Vol. 2, pp. 677-692 Bogard, J. D. and Matlock, H. (1990). “Application of model pile tests to axial pile design”, Proceedings, Twenty-Second Annual Offshore Technology Conference, Houston, Paper No. 6376 Coyle, H. M. and Gibson, G. C. (1970). “Empirical damping constants for sands and clays”. Journal, Soil Mechanics and Foundations Division, ASCE, Vol. 96, No. SM3, pp. 949-965. Cox, W. R. and Reese, L. C. (1976). “Pullout tests of grouted piles in stiff”, Proceedings, Eighth Offshore Technology Conference, OTC 2473, Houston, Vol. 2, pp. 539-55 1 Datta, M., Gulhati, S. K., and Rao, G. V. (1980). “An appraisal of the existing practice of determining the axial load capacity of deep penetration piles in calcareous sands”, Proceedings, Twelfth Offshore Technology Conference, Houston, Vol. 4, pp. 1 19-1 30

Optimisasi Operasi Pemboran Di Basin Afrika Utara Aly Rasyid
PETRO: Jurnal Ilmiah Teknik Perminyakan Vol. 10 No. 2 (2021): JUNI
Publisher : Jurusan Teknik Perminyakan Fakultas Teknologi Kebumian dan Energi Universitas Trisakti

Drilling optimization objective was to reduce costs, improve wellbore conditions and integrity for increasingly challenging reservoirs while establishing maximum safety performance and environmental custodianship. Even though the final result of a drilling operation is easily observed, what almost always goes unnoticed is the complexity of the issues involved in the planning and execution of a drilling operation and the number of topics involved in such a process. In this paper, as case study of the exploration drilling in Hamada region, North Africa has been evaluated. Over the period of 2006 to 2011, continued drilling improvement was achieved. Key elements in the optimization included focus on management drilling team structure, engineering well planning, improvements on managing drilling operations such as on site safety management practices, and also post drill analysis to implement lesson learn for the next well to be drilled. As the result, while drilling 26 wells during the 2006 until 2011, drilling days were successfully reduced from 87 days (first well) to the average 40 days, and very good safety record performance. Keywords : optimization, drilling cost, drilling performance

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: May 2023
Publisher : Department of Petroleum Engineering

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/bpe.v2i1.2379

Abstract 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. Keywords: production, downhole pump, production operations, production equipment Abstrak Dalam usaha untuk mengangkat minyak dan gas bumi dari reservoir, perusahan yang bergerak di bidang minyak dan gas harus melakukan operasi produksi. Operasi produksi ini sendiri bertujuan agar minyak dan gas bumi dapat diproduksikan atau di angkat kepermukaan. Namun permasalahan yang dihadapi untuk melakukan perawatan pada operasi produksi ini tidaklah sedikit bahkan bisa di kategorikan suatu pekerjaan yang sangat mahal. Oleh karena itu untuk menekan budget dari operasi produksi perlu adanya efisiensi dengan melakukan perawatan dan pengamatan yang baik. Salah satu aspek yang perlu diperhatikan dalam perawatan dalam operasi produksi adalah kelayakan equipmentnya. penentuan kelayakan ini amatlah berpengaruh pada biaya operasi produksi karena perawatan, dan pengamatan merupakan salah satu point yang paling mahal pada operasi produksi. Oleh karena itu perlu adanya penilaian dan pengamatan yang tepat sebelum memutuskan bahwa equipment pompa yang digunakan sesuai dan efisien. Pada penelitian ini dilakukan penilaian kelayakan surface dan downhole equipment pompa dihubungkan dengan penurunan effisensi pemompaan produksi sumur. Hasil dari penelitian ini bisa digunakan sebagai saran dan bahan pertimbangan dalam mengevaluasi kinerja surface dan downhole equipment pompa yang paling baik dan aman. Kata kunci: produksi, pompa bawah permukaan, operasi produksi, peralatan produksi Reference: Guo, Boyun, PH.D. (2006). Petroleum Production Engineering. Amsterdam: Elsevier Science & Technology Books i-Handbook Schlumberger, Schlumberger, 2000 Kementrian Energi dan Sumber Daya Mineral. (2017). Basic Production. Cepu:PPSDM MIGAS Kementrian Energi dan Sumber Daya Mineral. (2017). Production Operation. Cepu:PPSDM MIGAS Saveth K.J & Klein S.T., “The Progressing Cavity Pump Principle and Capabilities”, SPE 1873.

Dry Lab – Laboratorium Virtual Untuk Anlisa Rekayasa Lumpur Pemboran M. Mahlil Nasution; Edy Soesanto; Aly Rasyid
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: 10.31599/0szdp790

Dry Lab is a virtual laboratory design, also called as a laboratory of the future. Dry Lab was designed because of the increasingly advanced computerized especially Artificial Intelligence for making a simulator that can function to simulate a tool wich is can similiar with the real condition so that it gets the same results as when run in a conventional laboratory. With the existence of this Simulator technology, then I try to make a virtual simulator for drilling mud analysis which is very much needed in the world of oil engineering education especially and also needed in the world of oil and gas industry, especially when conducting drilling activities.

Evaluasi Stimulasi Hydraulic Fracturing Dan Analisa Produktivitas Sumur Pada Formasi Sandstone Sumur ”MG-09” Lapangan ”FI” Aly Rasyid; Nugroho Marsiyanto; M Gilang Farhana Irsyad
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/qr7t9x63

Hydraulic fracturing is a stimulation method by injecting treatment fluid to fracture a formation by using proppant (sand) as a fracture buffer media which aims to improve the production rate in the well. Fracture geometry evaluation is done to get the right fracture geometry value. In the production evaluation, using the Howard and Fast method, the Kavg value in the MG-09 well was 39.4094 mD. Based on the actual production rate after hydraulic fracturing in well MG-09 there was an increase in the total flow rate from 65 BLPD to 182 BLPD. Based on the calculation of the increase in Productivity Index, the Prats method obtained an increase in PI of 2.63 times, while the CSD method (Cinco-ley, Samaniego and Dominique) obtained a multiple of the increase in productivity (K2P) or an increase in PI of 2.63 times and the skin factor of +12 to -4.8 Based on the comparison of the three-phase IPR curve of the Pudjo-Sukarno method, where at the same Pwf of 400 psi there was an increase in oil production from 45 BOPD to 134 BOPD. Therefore, the results of the hydraulic faracturing evaluation of the MG-09 well in terms of the work process (proppant, fracturing fluid), production analysis (permeability, productivity index, increased productivity index of the prats and CSD methods, level of skin repair and IPR curve analysis) were declared successful.

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