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OPTIMASI LAJU PRODUKSI DENGAN CARA DESAIN ULANG PROGRESSIVE CAVITY PUMP (PCP) PADA SUMUR “X” LAPANGAN “Y” Prastio, Eko; Rizky Agusman, Abdullah
Jurnal Jaring SainTek Vol. 3 No. 2 (2021): Oktober 2021
Publisher : Fakultas Teknik, Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/g00ct507

Abstract

Progressive Cavity Pump (PCP) has beenapplaid as artificial lift at X well that is ownedby PT Pertamina EP Asset 1 Field Jambi. Fromthe early calculation of current production gets17,16 bfpd that has not reached the target of48,57 bfpd. This indicates that PCP must beredesign. Before redisgn we used ProductivityIndex (PI) to make an Inflow PerformanceRelationship (IPR) curve that shows the oil isstill suitable production or not. We redisgn PCPusing R & M Energy Systems calculationmethods as the provider and found that theoptimal for revolution per minute (RPM), horsepower (HP), torque values and the drive headtype are 101,5 RPM, 2,7 HP, 15 ft-lbs and therehave to be a change in drive head type AA4. Toget results optimal production.
Analisa Perencanaan Lumpur Pemboran Menggunakan HPWBM pada Sumur “E” Lapangan “P” Prastio, Eko
Jurnal Jaring SainTek Vol. 4 No. 1 (2022): April 2022
Publisher : Fakultas Teknik, Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/v9mnek61

Abstract

The “E” well to be drilled is a development well in the “P” field located in the North Sumatra Basin. During the drilling operation in well “E” using HPWBM, HPWBM is used to overcome shale instability. This water-based mud is used because it is cheaper and more economical than using oil-based mud. However, this mud needs to be added with other chemicals because HPWBM has a weakness in controlling shale formation. The mud system design for the “E” well uses the offset well method, which uses data from nearby wells for comparison. Well “E” is divided into two intervals. Hole interval 12 1/4" with 9 5/8" casing from 24 m to 290 m depth using HPWBM. Then proceed with 8 1/2" hole intervals with 7" casing from 290 m to 530 m depth using the same mud. The problem this well will face is pressure at a depth of 500 m, thus increasing the mud density from 12 ppg to 14 ppg to prevent kick.
MENENTUKAN ZONA HIDROKARBON DENGAN PARAMETER MUD LOGGING UNIT SUMUR “A” LAPANGAN “L” Prastio, Eko; Pinandita, Aulia Huda
Petro : Jurnal Ilmiah Teknik Perminyakan Vol. 14 No. 2 (2025): Juni 2025
Publisher : Jurusan Teknik Perminyakan Fakultas Teknologi Kebumian dan Energi Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25105/petro.v14i2.21150

Abstract

Mud logging adalah kegiatan mendeteksi, mensirkulasikan dan memantau perpindahan mud dan cutting pada sumur selama pemboran berlangsung untuk menentukan potensi minyak dan gas. Gas Chromatograph merupakan salah satu gas detektor yang digunakan sebagai pendeteksi terkandungnya gas hidrokarbon C1 – C5 pada lumpur pemboran. Kenampakan hidrokarbon melalui gas chromatograph ini dapat dimasukan kedalam penghitungan untuk mendapatkan gas wetness ratio, liquid to heavy ratio, dan oil characteristic qualifier yang digunakan untuk mengidentifikasi dan interpretasi zona hidrokarbon dengan korelasi dengan parameter mud logging unit yang lain seperti ROP, WOB, total gas detektor, dan cutting analysis. Dari data drilling break, kenaikan total gas detektor, cutting Analysis, dan gas chromatograph, didapat hasil penghitungan 2 zona hidrokarbon pada kedalaman 1527-1535 m dengan dominan batu Sandstone dengan nilai GWR 0,5 - 17,5 mengindikasikam mengandung gas,dan 2113-2136 formasi sandstone dengan  nilai GWR kisaran 17,5 – 40 pada zona kedua yang mengindikasikan  mengandung minyak dengan LHR yang lebih rendah dari GWR
INTERNALISASI DAN AKTUALISASI BUDAYA KEDISIPLINAN DI MTS AL-ISLAM JORESAN DALAM MEMBENTUK KARAKTER SISWA Mustofa, Zamzam; Beauty, Amalia Rifanda; Prastio, Eko; Fitiya, Hasni; Nisaurrohmah, Nida; Prayitno, Mustofa Aji
Jurnal Inovatif Manajemen Pendidikan Islam Vol. 2 No. 1 (2023): January
Publisher : UII Darullughah Waddawah Pasuruan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.38073/jimpi.v2i1.739

Abstract

MTs Al-Islam Joresan applies a strong commitment to improving student character through a discipline that is implemented in various forms of programs and activities both inside and outside the classroom. This study aims to determine the efforts made by educational institutions and teachers at MTs Al-Islam Joresan in guiding student discipline and how it impacts the formation of student character. This study uses a qualitative research approach with data analysis techniques which include data reduction, data presentation, and drawing conclusions. The results of the data analysis will be used to answer the problems raised in the research. The results of the study show that the implementation of discipline carried out at MTs Al-Islam Joresan can be divided into two categories, namely discipline in the classroom and discipline outside the classroom. In addition to supporting the character development of its students, MTs Al-Islam Joresan also organizes outreach programs in the form of class and non-class programs, organizes various extracurricular programs that can support student character development, and encourages students to actively participate in religious and social activities both at school as well as in the community.
Eksplorasi Dunia Teknik: Menjelajahi Berbagai Cabang Teknik dan Peluang Karir di Sekolah Prastio, Eko
Jurnal Sains Teknologi dalam Pemberdayaan Masyarakat Vol. 6 No. 1 (2025): Juli 2025
Publisher : Fakultas Teknik Universitas Bhayangkara Jakarta Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31599/7r20sx45

Abstract

Early understanding of the field of engineering is crucial for students in choosing an educational path and career that suits their interests and potential. The main objective of this activity is to comprehensively introduce various branches of engineering and related career opportunities to high school students. The activity is conducted through a series of interactive workshops, inspirational presentations by engineering professionals, and in-depth question-and-answer sessions. The engineering fields covered include Environmental Engineering, Chemical Engineering, Industrial Engineering, and Petroleum  Engineering, providing a holistic overview of the role and contributions of engineers in society. Students gain deep insights into future prospects and the requirements needed. In conclusion, this activity significantly increased students' interest and understanding of the engineering field. The recommendation is to integrate a more extensive and structured engineering career exploration program into the school curriculum to effectively guide students toward appropriate career choices.