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All Journal PENELITIAN DAN KARYA ILMIAH PROSIDING SEMINAR NASIONAL CENDEKIAWAN Journal of Geoscience, Engineering, Environment, and Technology JOURNAL OF EARTH ENERGY ENGINEERING Jurnal Pengabdian Farmasi Malahayati (JPFM) Jurnal Migasian Akamigas Balongan Indramayu Journal of Petroleum and Geothermal Technology BAKTI BANUA : JURNAL PENGABDIAN KEPADA MASYARAKAT Mechanical Engineering for Society and Industry JURNAL PENELITIAN DAN KARYA ILMIAH LEMBAGA PENELITIAN UNIVERSITAS TRISAKTI JUITECH: Jurnal Ilmiah Fakultas Teknik Universitas Quality Jurnal Offshore: Oil, Production Facilities, and Renewable Energy Jurnal Penelitian dan Karya Ilmiah Lembaga Penelitian Universitas Trisakti INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY Jurnal AKAL: Abdimas dan Kearifan Lokal Petro : Jurnal Ilmiah Teknik Perminyakan Journal of Earth Energy Science, Engineering, and Technology Petrogas : Journal of Energy and Technology Jurnal Migasian Scientific Contribution Oil and Gas
Muhammad Taufiq Fathaddin, Muhammad Taufiq
Teknik Perminyakan, Universitas Trisakti
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ANALISIS SALINITAS DAN KONSENTRASI SURFAKTAN AOS DAN TWEEN 20 TERHADAP RECOVERY FACTOR PADA PROSES IMBIBISI DAN CORE-FLOODING Prayang Sunny Yulia; Sugiatmo Kasmungin; Muhammad Taufiq Fathaddin
PETRO:Jurnal Ilmiah Teknik Perminyakan Vol. 9 No. 4 (2020): DESEMBER
Publisher : Jurusan Teknik Perminyakan Fakultas Teknologi Kebumian dan Energi Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (419.763 KB) | DOI: 10.25105/petro.v9i4.8227

Abstract

Kebutuhan akan minyak bumi terus meningkat, namun disamping itu, produksi minyak bumi khusunya di sumur tua semakin menurun. Oleh karena itu, dikembangkanlah metode Enhanced Oil Recovery (EOR). Pada penelitian kali ini, metode EOR yang digunakan adalah injeksi kimia yang berupa injeksi surfaktan. Penggunaan surfaktan ini dimaksudkan untuk menurunkan tegangan antarmuka (interfacial tension) antara minyak dan air sehingga mampu membawa minyak keluar dari pori-pori batuan reservoir. Dalam penelitian ini, akan dibahas tentang percobaan injeksi surfaktan, dilihat dari pengaruh salinitas, jenis surfaktan, dan konsentrasi surfaktan pada batuan karbonat, serta pengaruhnya terhadap recovery factor. Percobaan ini menggunakan surfaktan jenis Alpha Olefin Sulphonate (AOS) dan Tween 20, di mana konsentrasi masing-masing jenis surfaktan adalah 0,1%; 0,25%; 0,5%; 0,75%; dan 1%. Salinitas brine water yang akan digunakan adalah sebesar 10.000 ppm, 15.000 ppm, 20.000 ppm, dan 25.000 ppm. Selanjutnya akan dilihat  seberapa besar kemampuan surfaktan dalam mengikat minyak dari pori-pori batuan, sehingga akan didapat hasil recovery factor atau berapa persentase  minyak yang terkandung dalam pori batuan yang dapat diproduksikan. Hasil dari penelitian ini akan diamati dari dua proses, yaitu proses imbibisi yang menggunakan Amott apparatus atau yang lebih dikenal dengan proses imbibisi (spontaneous imbibition) dan coreflooding. Dari percobaan yang telah dilakukan, pengaruh injeksi surfaktan pada batuan karbonat adalah hasil yang lebih optimal terdapat pada proses coreflooding dibandingkan dengan proses imbibisi, karena proses coreflooding menggunakan tenaga dorong dari luar, sehingga pendesakan minyak dengan surfaktan lebih merata dan optimal. Sementara dengan proses imbibisi pendesakan terjadi secara alami dengan mengandalkan gaya gravitasi.
STUDI OPTIMASI PRODUKSI PADA RESERVOIR GAS WATER DRIVE Marmora Titi Malinda; Sutopo; Muhammad Taufiq Fathaddin
PETRO:Jurnal Ilmiah Teknik Perminyakan Vol. 11 No. 2 (2022): JUNI
Publisher : Jurusan Teknik Perminyakan Fakultas Teknologi Kebumian dan Energi Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (329.547 KB) | DOI: 10.25105/petro.v11i2.14989

Abstract

Suatu reservoir gas water-drive mempunyai nilai recovery factor yang lebih rendah dibandingkan dengan resevoir gas depletion-drive. Salah satu metode yang dikembangkan untuk meningkatkan faktor perolehan pada reservoir gas water-drive adalah dengan metode co-production. Metode ini memproduksikan air secara terencana untuk mengurangi pengaruh water influx pada kolom gas. Pada penelitian ini suatu konseptual single-well model reservoir gas depletion-drive serta water-drive dibangun, kemudian dilakukan analisis terhadap kelakuan model tersebut. Teknik co-production kemudian dilakukan dengan menambah satu tubing produksi air pada reservoir gas water-drive. Analisis dilakukan dengan membuat skenario produksi terhadap model reservoir gas apabila diterapkan metode optimasi co-production. Dari hasil penelitian paper ini, didapatkan bahwa penerapan teknik co-production mampu menambah kumulatif produksi sebanyak 5.2 BSCF pada reservoir gas water-drive.
Well Test and Short Term Multiple Rate Flow Tests Analyses to Successfully Hydraulic Fracturing Program of Block X Muhammad Dimas Adiguna; Muhammad Taufiq Fathaddin; Hari Karyadi Oetomo
Journal of Earth Energy Science, Engineering, and Technology Vol. 1 No. 1 (2018): JEESET-VOL.1-NO.1-2018
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (331.859 KB) | DOI: 10.25105/jeeset.v1i1.3032

Abstract

Well test analysis was conducted to determine the characteristics of reservoir rocks. From the well test analysis it is obtained information such as permeability and skin factor. The skin factor is a quantity indicating the presence of disturbance in the formation as a result of drilling operations, production operations, perforating casing, gravel pack installation, remedial well work, acidizing operation, and hydraulic fracture operation. The objective of this research is to determine the relationship of multi rate test method of Jones, Blount, and Glaze and the comparison result among pressure buildup test and pressure drawdown test analyses, using Kappa software or manually calculation. Therefore, in this paper will study the method of Jones, Blount, and Glaze and the well test analyses to determine further work of the wells on block X. The data used in this paper is secondary data, namely the results of well test from three wells.Applying drawdown test analysis of A, Y, and Z wells yield skin factor values of 3.37; 27.10; and -1.39. Where in buildup pressure Horner method analysis of A, Y, and Z wells yield skin factor values of 16.10; 11.18; and -2.07. In the method of type curve derivatives the drawdown analysis of A, Y, and Z wells yield skin factor values of 7.04; 11.18; and 4.20. The analysis of pressure buildup, of A, Y, and Z wells yield skin factor value of 25.11; 14.47; and 1.93. In the analysis using Kappa software of A, Y, and Z wells yield skin factor values of 5.56; 10.2; and 2.00. The skin results of these wells indicate the formation damages. The Short Term Multiple Rate Flow Tests analysis using Jones, Blount, and Glaze method from the plots of Δp/q versus oil flow rate (q) are b’ high and b’/b low. These indicate that the three wells are encountering formation damages. The Jones, Blount, and Glaze method as well as the pressure buildup and pressure drawdown test analyses in block X indicate that these wells require to be stimulated.
Well Test Analysis Using Pressure Derivative Method at Gas Well X-1 Muhammad Handis Maulana; Muhammad Taufiq Fathaddin; Hari Karyadi Oetomo
Journal of Earth Energy Science, Engineering, and Technology Vol. 1 No. 1 (2018): JEESET-VOL.1-NO.1-2018
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (659.233 KB) | DOI: 10.25105/jeeset.v1i1.3036

Abstract

Wells X-1 is a gas condensate well which located in lapangan X, Sulawesi Island. At well X-1 well test was conducted using pressure build up, where the analysis was conducted with objective to determine the reservoir characteristic of X-1 wells such as permeability, skin, flow efficiency and investigation radius. In the pressure build up test, the horner plot and derivation analysis using pseudo pressure and P2 approaches were applied with the gas well X-1 has a reservoir pressure of 2555 psia. The analysis is done using saphir 3.20 and Ms.Excel software where the results of the counsel to see if there is any possibility of formation damage. X-1 is also known as homogeneous with a fault boundary present in the fault located at a certain distance from the well X-1 in which the fault is only one direction from the reservoir. The pressure derivative plot analysis was conducted with two methods such as two-point method and three-point method, where the result of the overlay of the derivative curve corresponds to the deviation of the calculation result method which is less than 10%. The horner plot analysis is also done with the ψ(P) pseudo pressure and P2 approach which is the result of horner plot analysis using pseudo pressure ψ(P) pseudo pressure in saphir 3.20 obtained the slope (m), permeability, and skin values respectively were 3.22432E + 5 psi2/cp, 132 mD, and 21.6, whereas Ms.Excel results obtained the price of slope (m), permeability, and skin respectively were 320890.61 psi2/cp, 134.83 mD, and 21.1. To analyze the horner plot using the P2 approach at saphir 3.20 the value of slope (m), permeability, and skins values respectively were 5495.07 psi2/cp, 125 mD, and 21.3 and for the results of Ms. Excel the price of slope (m), permeability, and skin respectively were 5451.66 psi2/cp, 147,29 mD, and 20,1. Positive skin results in both methods of horner plot and derivative plot indicate the well is damaged and need to be stimulated.
Production of Bagasse-Based Natrium Ligno Sulfonat (Nals) Surfactant for Chemical Flooding Emmy Fatmi Budhya; Muhammad Taufiq Fathaddin; Sugiatmo Kasmungin
Journal of Earth Energy Science, Engineering, and Technology Vol. 1 No. 2 (2018): JEESET-VOL.1-NO.2-2018
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (272.759 KB) | DOI: 10.25105/jeeset.v1i2.3940

Abstract

Oil recovery may be increased by lowering interfacial tension between oil and water due to surfactant injection. Bagasse is one of the organic materials which has a fairly high lignin content, where lignin is the basic substance of making Natrium Lignosulfonate (NaLS) Surfactants. The research was divided into three sections. The first was experiment to produce lignin from bagasse. In this experiment 100 gram of bagasse with size of 60 mesh or 80 mesh extracted by benzene + ethanol (2:1) and then 20%, 50%, or 75% NaOH was added to activate lignin. The maximum amount of lignin produced was 24.88%. The second experiment was to produce NaLS surfactant from obtained lignin. FTIR equipment was used to verify the NaLS surfactant yielded using the method. The maximum amount of NaLS surfactant produced was 20.264% of bagasse mass. After that NaLS surfactant obtained from the previous process was used in chemical flooding experiment. In the experiments, the surfactant concentration in the solution was varied at 0.05%, 0.10%, 0.15%, and 1.00%. While temperature was set at 30°C, 40°C, 60°C, 70°C, or 80°C. The optimum condition happened when a solution with surfactant concentration of 1% was injected at 60°C. The recovery factor of oil using the condition was 0.47.
Application of Hydrodynamic Potential Analysis to Investigate Possibility Reservoir Connectivity between Neighboring Gas Fields Tri Firmanto; Muhammad Taufiq Fathaddin; R. S. Trijana Kartoatmodjo
Journal of Earth Energy Science, Engineering, and Technology Vol. 2 No. 1 (2019): JEESET VOL. 2 NO. 1 2019
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (734.535 KB) | DOI: 10.25105/jeeset.v2i1.4647

Abstract

T field is a producting gas field in North Bali PSC, which currently producing 210 mmscfd from paciran sand stone formation. Paciran formation extends more than 20 km across the PSC area, which consists of 3 developed gas fields and one potential development field.  The flowing material balance analysis conducted on T field suggests possibility of reservoir connectivty between this field and its neighboring fields. Even though each field is already have a well defined Gas Water Contact, a thorough investigation was done using hyrdodynamic potential analysis to see if theres any hydrodynamic potential that allowed connectivity between these fields, and enable tilted contact occurred between these field. Using pressure data taken from each fields exploration wells the analysis can be conducted that conclude that there is an existing hydrodynamic potential between gas fields in paciran formation. A review on the tilted contact analysis concludes that the existing hydrodynamic potential is not enough to tilt the contact as per actually observed contact.
Effect of High Temperature on Rheology and Electrical Stability of Saraline and Smooth Fluid 05 Mud Apriandi Rizkina Rangga Wastu; Muhammad Taufiq Fathaddin; Abdul Hamid
Journal of Earth Energy Science, Engineering, and Technology Vol. 2 No. 1 (2019): JEESET VOL. 2 NO. 1 2019
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (39.691 KB) | DOI: 10.25105/jeeset.v2i1.4650

Abstract

In drilling operations, drilling mud plays a very important role because it is irreplaceable functions. Drilling activities relate to problems caused by complex conditions in formation due to changes in temperature, pressure, and contamination from formation fluids. Using Oil Base Mud (OBM) mud systems in the form of Saraline and Smooth Fluid 05 is tested for drilling fluid performance and the results can be a reference for drilling operation. This research consist of two parts, the first: determining the drilling mud rheology value in the form of (Plastic Viscosity, Yield Point and Gel Strength) in each drilling mud of Saraline and Smooth fluid 05 mud using various high temperature parameters of 350oF, 300oF, and 270oF. The results of the mud rheology tests show at the higher the temperature, the values of rheology decreases. The second experiment is to determine the level of electrical stability in the mud which functions of oil-wet content in oil sludge (Saraline and Smooth fluid 05). The electrical stability value has a minimum limit value in OBM, which is 500 volts. In this experiment showed that the higher the temperature value, the electrical stability value in the mud will decrease, but in this study the value of electrical stability in Saraline mud and Smooth fluid 05 has a value above 500 volts, the composition OBM of Saraline and Smooth Fluid 05 sludge has very good oilwet content.
The Effect of Resin Injection on the Productivity of Shallow Sandstone Layer in Mawar Field Catur Sunawan Balya; Muhammad Taufiq Fathaddin; Rachmat Sudibjo
Journal of Earth Energy Science, Engineering, and Technology Vol. 2 No. 2 (2019): JEESET VOL. 2 NO. 2 2019
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (570.085 KB) | DOI: 10.25105/jeeset.v2i2.4671

Abstract

Mawar Field is located in North Kalimantan Province. The field has an unconsolidated sandstone layer which is located in Tarakan formation. Porosity of the layer is more than 20%, while permeability of that is between 100 mD and 1000 mD. The zone which is poorly cemented is a source of sand problem. This sand production has an effect on the stability of oil and gas production. Sand production results in the formation of channeling around cement bonding. Sand production problem can be reduced. To overcome the acidity of the shallow formation, it can be done in two ways, that is Gravel pack using propan and stimulation using resin where the sand will be retained behind the formation. In research that has been done using core data and produced sand samples where the results obtained information about the characteristics of sand in shallow zones so that the appropriate treatment method can be recommended that is stimulation with resin. In the use of this resin there will be a permeability reduction of 15% -27% and a maximum fow rate reduction of 20%.
Simulation Model Application to Predict the Effect of Salinity on Surfactant Adsorption and Retention in Alkali Surfactant Flooding Muhammad Taufiq Fathaddin; Rachmat Sudibjo; Kartika Fajarwati H.; Shabrina Sri Riswati
Journal of Earth Energy Science, Engineering, and Technology Vol. 2 No. 2 (2019): JEESET VOL. 2 NO. 2 2019
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (617.425 KB) | DOI: 10.25105/jeeset.v2i2.4672

Abstract

Modeling works of alkali surfactant injection are presented in this paper, in order to analysis the effect of salinity on surfactant adsorption and retention. Simulation model was built using UTCHEM simulator. The simulation model was validated using laboratory experiment. From the laboratory experiment and modeling, it was found that surfactant retention, as well as surfactant adsorption, increased with the salinity. However they were not linearly related. The application of microemulsion Type III (salinity of 1.4% wt.) gave the optimum flooding. Although more surfactant was adsorbed and retained compared to microemulsion Type I (salinity of 1.4% wt.), but it yielded the highest recovery factor. The formation of microemulsion Type II (salinity of 2.0% wt.) should be avoided since it effectively caused surfactant loss due to surfactant adsorption and retention.
Design of Flowline, Separator, and Slug Catcher in X Field I Gede Dian Aryana; Muhammad Taufiq Fathaddin; Djoko Sulistyanto
Journal of Earth Energy Science, Engineering, and Technology Vol. 1 No. 3 (2018): JEESET-VOL.1-NO.3-2018
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1038.986 KB) | DOI: 10.25105/jeeset.v1i3.4680

Abstract

The use of the pipeline is the safest method in sending oil and gas from one area to another in oil and gas transportation system. The only challenge is to keep the pressure drop in the pipeline as small as possible to avoid high pressure differences. This pressure difference can result in reduced production flow rate and affect the flow pattern in the pipeline. The condition can lead to high possibility of a slug on pipelines that drain multiphase flow. Slug becomes one of the main concerns transport processes multiphase flow in pipelines. The emergence of slug in the pipeline could cause an unstable hydrodynamic conditions will continue to affect the liquid level in the inlet separator and cause flooding in the separator. Some of the conclusions mainly on the diameter of the pipeline, the size of the slug catcher and the size of the separator obtained from the calculation based on the study of literature and simulations with software HYSIS and OLGA. Design slug catcher to accommodate the number of processes that occur in the production transportation of X oil and gas field through a pipeline 10 inches along the 12 km with 20.68 m3 volume of slug using 3 (three) finger with diameter 28 inches and length of 10 meters each. For the separation process of oil and gas in the first five (5) years of X oil and gas field  which has a high production of oil and condensate will require separator with 30 inches diameter, seam to seam height of 8.1 ft or 2.5 meters, with retention time for 2 minutes and the 3.2 slenderness ratio of the vertical separator.
Co-Authors Abdillah, Ridho Abdul Hamid Adiguna, Muhammad Dimas Adisoemarta, Paulus Suryono Agus Guntoro Alvita Kumala Sari Amalia Amri, Sulthoni Andhika Rama Dwiputra Andre Albert Sahetapy Engel Andreas Setiabudi Andy Livsey Anggitya Hafidh Apriandi Rizkina rangga Wastu Aqlyna Fattahanisa Arkaan, Muhammad Dzaki Asri Nugrahanti Astri Rinanti Aufariq Asaria Cifa Azica, Muhammad Raihan Baiq Maulinda Barona Belladesta Bayu Hamza Berkah Hani Boni Swadesi Buana, Firdha Meidya Cahyaningratri P.R. Cahyaningratri Prima Riyandhani Catur Sunawan Balya Citra Wahyuningrum Daddy Sutansyah Damayanti, Sisca Danaparamita Kusumawardhani Danar Wijayanto Dardjat, Izumi Wicaksono Darmasetiawan Hakim Dewi Latifatul Aini Diah Utami Safitri Diah Utami Safitri Djoko Sulistyanto Djoko Sulistyanto Djunaedi Agus Wibowo Doddy Abdassah Dwi Atty Mardiana Dwiputra, Andhika Rama Dyah Rini Ratnaningsih Emmy Fatmi Budhya Esaim Mustafa Abrahim Omar Esaim Mustafa Abrahim Omar Fakhri Ade Andika Farhan Fidya Varayesi Gunawan Nurcahyo Wibowo Hafidh, Anggitya Hari Karyadi Oetomo Hari Karyadi Oetomo Harin Widiatni Harin Widiyatni Harin Widyatni Havidh Pramadika I Gede Dian Aryana Imam Setiaji Ronoatmojo Imros B. Kinif Irfan Marwanza Irvan, Rayhan Ischak, Mohammad Jachanan Satriabudi K.Gunawan, Brahmantyo Kartika Fajarwati H. kartika fajarwati hartono Kartoatmodjo, R.S. Trijana Kesit Bayu Kumoro Aji Kusumawardhani, Danaparamita M.G. Sriwahyuni Mahanggi, Muhammad F.Z. Mano, Irene Nabila Mardiana, Dwi Atty Marmora Titi Malinda Marmora Titi Malinda Marpaung, Tarida Surya Maulana, Muhammad Handis Maulani, Mustamina Maulida, Fajri Mordekhai Muhammad Dimas Adiguna Muhammad Handis Maulana Novian Aribowo Nur Suhascaryo Oetomo, Hari Karyadi Oknovia Susanti Omar, Esaim Mustafa Abrahim Onnie Ridaliani Onnie Ridaliani Prapansya Onnie Ridaliani, Onnie Panca Suci Widiantoro Paulus Suryono Adisoemarta Prapansya, Onnie Ridaliani Pri Agung Rakhmanto Pri Agung Rakhmanto Pri Agung Rakhmanto R. S. Trijana Kartoatmodjo Rachmaputra, Try Rachmat Sudibjo Rachmatika, Danella Rakhmanto, Pri Agung Rakhmanto, Priagung RakhmantoPri Agung Rakhmanto, Pri Agung Ratnaningsih, Dyah Rini Ratnayu Sitaresmi Ratnayu Sitaresmi Ratnayu Sitaresmi Ratnayu Sitaresmi, Ratnayu Rendy Reza Fadhlan Ridha Husla Rini Setiati Ristawati, Arinda Riswati, Shabrina Sri Rozi Afdi Safitri, Diah Utami Samosir, Samuel Melvern L P Samsol Satriabudi, Jachanan Septianingrum, Wydhea Ayu Shabrina Sri Riswati Shabrina Sri Riswati Siahaya, Jacob Sonny Irawan Sonny Irawan Sonny Irawan Sonny Irawan Sri Feni Maulindani Sugiatmo Kasmungin Sugiatmo Kasmungin Suherman Dwi Nuryana Suryo Prakoso, Suryo Sutiadi, Andrian Sutopo, Sutopo Syavitri, Dewi Tarida Surya Marpaung Taufan Marhaendrajana, Taufan Tri Firmanto Trijana Kartoatmodjo Ulfah, Baiq Maulinda Widia Yanti, Widia Widiatni, Harin Yanni Florensia Imanuela Sairlela Yarra Sutadiwiria Yeftamikha Yeftamikha Yeftamikha Yulia, Prayang Sunny Yusuf, Ariq Haykal Ziad Ziad Zona Nuansa Adha Antariksa Zona Nuansa Antariksa Zulfadli B. Zakaria