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Isnani Agriandita
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Jurnal Migasian
Published by Institut Teknologi Petroleum Balongan
ISSN : -     EISSN : 26156695     DOI : -
Core Subject : Science, Social, Engineering,
Chemical Engineering, Chemistry & Bioengineering Chemistry Energy Engineering Environmental Science
Jurnal Migasian adalah jurnal yang diterbitkan oleh LPPM Institut Teknologi Petroleum Balongan dan telah ber e-ISSN 2615-6695. Selain itu sesuai dengan SK Direktur Jenderal Penguatan Riset dan Pengembangan Kementrian Riset no. 225/E/KPT/2022 tanggal 7 Desember 2022, Jurnal Migasian terakreditasi SINTA 4. Jurnal Migasian akan menerbitkan artikel-artikel ilmiah dalam cakupan bidang ilmu teknik Perminyakan, Fire and Safety atau K3L (Kesehatan, Keselamatan, Keamanan, Lingkungan Kerja), serta disiplin ilmu keteknikan lainnya, dan bidang-bidang dengan ruang lingkup pengabdian kepada masyarakat. Artikel yang dimuat adalah artikel hasil penelitian dan pengabdian kepada masyarakat, kajian atau telaah ilmiah kritis dan komprehensif atas isu penting dan terkini atau resensi dari buku ilmiah. Terbit 2 kali dalam setahun pada bulan Juni dan Desember oleh LPPM Akademi Minyak dan Gas Balongan. Penulis yang artikelnya diterbitkan akan diberikan LOA, e-sertifikat, dan DOI.
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 104 Documents
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Skenario Pengembangan Produksi Lapangan “NATA” dengan Software Integrated Production Modelling Yunita, Lia; Danardatu, Heru; Endro Tegar Prakoso
Jurnal Migasian Vol 9 No 1 (2025): Jurnal Migasian
Publisher : LPPM Institut Teknologi Petroleum Balongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36601/jm.v9i1.345

Abstract

Integrated production modeling (IPM) is a software for modeling oil and gas production systems from reservoirs, wells and surface networks. IPM consists of GAP, PROSPER, MBAL, PVTP, REVEAL and RESPLVE. The purpose of the study is to plan the development scenario of the "NATA" field using IPM. The "NATA" field has nine wells and three productive zones, namely N-1, N-2 and N-3. The method used is modeling from the reservoir using MBAL software, followed by well modeling using Prosper Software, then in the final stage is to design the surface facilities of the "NATA" field using GAP Software. The results of running for 10 years until 2034 obtained reservoir N-1 produced by three wells obtained with reservoir pressure 1560 psig, oil production 1500 STB / day liquid production 1600 STB / day, water production 108 STB / day. In reservoir N-2, one well was produced, reservoir pressure 1300 psig, oil production 850 STB/day, liquid production 890 STB/day, water production 21 STB/day were obtained. In reservoir N-3, five wells were produced, reservoir pressure 1860 psig, oil production 100 STB/day, liquid production 200 STB/day, water production 100 STB/day were obtained. The development scenario of the "NATA" field with IPM until 2035 obtained a reservoir that is prospective to be developed, namely reservoir N-1 which still has a high production rate.
Furnace-03 Performance Efficiency at the Cepu Oil and Gas PPSDM Refinery Unit: Furnace-03 Performance Efficiency at the Cepu Oil and Gas PPSDM Refinery Unit Dhamayanthie, Indah; Solikha, Dian Farkhatus; Khaerunnisa, Istiqlaly; Muhamad Rizky, Nayif
Jurnal Migasian Vol 9 No 1 (2025): Jurnal Migasian
Publisher : LPPM Institut Teknologi Petroleum Balongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36601/jm.v9i1.324

Abstract

Pusat Pengembangan Sumber Daya Manusia Minyak dan Gas (PPSDM Migas) is a training and education institution located at Jalan Sorogo No. 1, Karangboyo Village, Cepu District, Blora Regency, Central Java Province. This research was carried out on November 01-30, 2023 at the PPSDM Migas Cepu Refinery Unit which focuses on heating equipment, namely the Furnace. Furnace is an advanced heating device in the refinery unit to heat crude oil with an output temperature of 330 - 350°C. The purpose this research is to calculate the variables that support the calculation of Furnace performance efficiency, calculate and know the efficiency value of Furnace-03, and know the things that affect the efficiency of furnace performance. Supporting variables in the calculation of Furnace efficiency in the form of Specific Gravity, 60 ° F Density, °API, and K-UOP values, the results obtained for Fuel Oil are 0.891, 890.294 kg/m3, 27.278, and 11.884, respectively. Whereas the values for Crude Oil are 0.839, 837.934 kg/m3, 37.217, and 12.048, respectively. The results of the calculation of the efficiency of Furnace-03 were obtained at 57.37% so that Furnace-03 was not suitable for operation. Where to achieve good efficiency the things that need to be considered are parameters, such as temperature and flow, as well as the age of the equipment.
INSPECTION, TESTING, DAN MAINTENANCE APAR PT WIJAYA KARYA INDUSTRI DAN KONSTRUKSI MAJALENGKA Puspita Windiari, Ira; Erdianto, Endrixs; Eko, Nanang; Isnuryantari, Ockty; Rahman, Aulia Putri
Jurnal Migasian Vol 9 No 1 (2025): Jurnal Migasian
Publisher : LPPM Institut Teknologi Petroleum Balongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36601/jm.v9i1.343

Abstract

Inspection, Testing, dan Maintenance (ITM) merupakan program pengecekan, pengujian, dan perawatan Alat Pemadam Api Ringan (APAR) untuk memastikan alat siap digunakan saat terjadi kebakaran. Kebakaran sering diawali oleh api kecil dan dapat menyebar cepat, terutama di industri konstruksi baja yang sangat rentan. Karena itu, keberadaan dan kesiapan APAR sangat penting sebagai respons awal. APAR adalah alat pemadam portabel berukuran kecil yang mudah dibawa dan dioperasikan oleh satu orang. Penelitian ini bertujuan untuk mengetahui program, prosedur, dan implementasi ITM APAR di PT Wijaya Karya Industri dan Konstruksi Majalengka. Data dikumpulkan melalui observasi dan wawancara, lalu dianalisis dengan membandingkannya pada Peraturan Menteri Tenaga Kerja dan Transmigrasi No. PER-04/MEN/1980. PT Wijaya Karya Industri dan Konstruksi bergerak di bidang fabrikasi baja dan berlokasi di Jalan Raya Cirebon–Bandung, Desa Cisambeng, Kec. Palasah, Kab. Majalengka, Jawa Barat. Hasil penelitian menunjukkan bahwa kegiatan inspeksi dan pengujian APAR dilakukan setiap bulan, sedangkan perawatan (maintenance) dilakukan setiap tahun oleh pihak ketiga yang ditunjuk. Dengan demikian, perusahaan hanya menjalankan program inspeksi dan pengujian secara rutin, sementara perawatan dilakukan oleh pihak luar.
Optimization Of Electrical Submersible Pump Size To Increase Dr-01 Well Production Rate Of Field Puyuh Prihantini, Agustina; Nurkhozin Adhi Nugroho; Ruhana, Dliya
Jurnal Migasian Vol 9 No 1 (2025): Jurnal Migasian
Publisher : LPPM Institut Teknologi Petroleum Balongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36601/jm.v9i1.339

Abstract

Abstract. The "DR-01" well is installed with an electrical submersible pump with the problem of decreasing production and based on tests conducted on December 13, 2014 the production of the "DR-01" well produced 171 bfpd with a water content of 96%. The electrical submersible pump operates with the Allen C1000ARC pump type and pump setting depth of 4592 ft, TDH 4268.58 ft, number of stages 94, frequency 50 Hz, HP 28, head/stage 24 with a pump efficiency of 20%. In planning the optimization of a good and correct electrical submersible pump it will produce a pump efficiency value of above 35%. To overcome these problems, it is necessary to perform optimization calculations on electrical submersible pumps by calculating IPR values using the Wiggins method, calculating SGf and Gf values, calculating SBHP and FBHP values, calculating PIP, calculating TDH and pump performance curves. After optimizing the DR-01 well, the results obtained are the type of pump Allen C680AR, the pump setting depth value is 4653.92 ft, the total dynamic head value is 4202.74 ft, the number of stages is 145 stages, pump frequency is 60 Hz, Qgross value is 500 bfpd, horse power is 19 HP , head.stage 29, and a pump efficiency value of 57%. Where the value of the pump efficiency is considered optimum.

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