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All Journal Bhara Petro Energi Journal of Earth Energy Science, Engineering, and Technology LEMBARAN PUBLIKASI MINYAK DAN GAS BUMI
Berkah Hani
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Chemical Engineering, Chemistry & Bioengineering Earth & Planetary Sciences Energy Engineering Environmental Science

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Emulsion Formation in Palm Oil Methyl Ester Sulfonate Surfactant to Light Crude Oil Rini Setiati; Muhammad Taufiq Fathaddin; Berkah Hani
Journal of Earth Energy Science, Engineering, and Technology Vol. 6 No. 2 (2023): JEESET VOL. 6 NO. 2 2023
Publisher : Penerbitan Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25105/jeeset.v6i2.17966

Abstract

The Enhanced Oil Recovery method is a method that can be attempted to increase the recovery of petroleum. One of the materials that can be used is Methyl Ester Sulfonate surfactant from palm oil, as a vegetable surfactant whose raw materials are widely available in Indonesia. In this study, the compatibility test of Methyl Ester Sulfonate surfactant was carried out on light crude oil type T samples. The study was carried out with various surfactant concentrations, starting from 0.25%, 0.3%, 1%, 1.5%, and 2%. In the aqueous stability test, the results obtained for all clear conditions for the surfactant concentration were measured for 3 days in an oven with a temperature of 60oC. Whereas in the phase behavior test, good results of the upper phase emulsion were obtained at concentrations of 0.3%, 1%, 1.5%, and 2%. The volume of the top phase emulsion ranges from 25% to 37.5%. (Normal). From the results of this study, it can be concluded that for the crude oil sample T, palm oil MES surfactant is stable for use as a surfactant injection fluid, with a surfactant concentration composition that produces a fairly large upper phase emulsion of around 25% - 37.5% at a surfactant concentration of 0.5% - 2%.
PENENTUAN KARAKTERISTIK AIR PADA STASIUN PENGUMPUL (SP) LAPANGAN MINYAK Y SESUAI PERATURAN MENTERI LINGKUNGAN HIDUP (PER-MEN LH) NO 19 TH 2010 Dahrul Effendi; Berkah Hani; Rosda Syelly; Syamsyida Rozi
Lembaran Publikasi Minyak dan Gas Bumi Vol. 54 No. 2 (2020): LPMGB
Publisher : BBPMGB LEMIGAS

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Abstract

Air terproduksi adalah air yang terjebak di dalam tanah yang terbawa ke atas permukaan selama terjadinya eksplorasi dan produksi minyak dan gas bumi. Air terproduksi bisa disebut sebagai brine, saltwater atau air formasi. Air terproduksi merupakan salah satu volume limbah terbesar yang terkait dengan produksi minyak dan gas bumi. Terlebih untuk lapangan marjinal, water cut mencapai 90 persen bahkan lebih. Air tersebut tidak dapat dimanfaatkan dan dibuang secara langsung dikarenakan bahan - bahan berbahaya. Pembuangan secara langsung dan penanganan yang tidak tepat pada limbah air akan menyebabkan efek jangka pendek dan jangka panjang ke lingkungan dan kesehatan manusia. Dengan kata lain, penanganan limbah air dapat mencegah resiko diatas. Dimulai dengan melakukan penelitian terhadap karakteristik air formasi yang terkait dalam pengurangan kadar bahan berbahaya didalam limbah air tersebut sebelum dibuang. Pengolahan dan proses yang tepat membuat limbah air tersebut dapat dimanfaatkan. Untuk mengetahui karakteristik air yang terproduksi dan untuk mengetahui tingkat pencemaran air formasi perlu dilakukan analisa sesuai Peraturan Menteri Lingkungan Hidup (Per-Men LH) No 19 Tahun 2010. Dengan Parameter COD, minyak dan lemak, H2S, Amoniak, Fenol, Temperatur, pH dan TDS, Hasil analisis dari ketiga perconto memperlihatkan bahwa air injeksi Outlet SP#A, Outlet SP#B dan Outlet SP#C dari lapangan minyak Y untuk beberapa parameter masih dibawah baku mutu yang ditetapkan, tetapi untuk konsentarsi TDS melebihi nilai bakumutu yang ditetapkan yaitu 4000 mg/L
Desain Formulasi Lumpur Untuk Pemboran Panas Bumi Di Sumur GG-01 Nugroho Marsiyanto; Wahyu Sutresno; Berkah Hani; Gigin Pahrudin
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/rp7ka066

Abstract

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.  
Co-Authors Dahrul Effendi Gigin Pahrudin Marsiyanto, Nugroho Muhammad Taufiq Fathaddin, Muhammad Taufiq Rini Setiati Rosda Syelly Syamsyida Rozi Wahyu Sutresno