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All Journal Petro : Jurnal Ilmiah Teknik Perminyakan JURNAL ABDI MASYARAKAT INDONESIA (JAMIN) Journal of Earth Energy Science, Engineering, and Technology
Abdul Hamid
Universitas Trisakti
Earth & Planetary Sciences Economics, Econometrics & Finance Energy Engineering Environmental Science Other

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STUDI LABORATORIUM PENGGUNAAN LUMPUR SMOOTH FLUID 05 DAN SARALINE PADA TEMPERATUR TINGGI Apriandi Rizkina Rangga Wastu; Ridha Husla; Lilik Zabidi; Abdul Hamid
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 (153.174 KB) | DOI: 10.25105/petro.v9i4.8171

Abstract

Dalam operasi pemboran, lumpur pemboran mempunyai peranan yang sangat penting karena memiliki fungsi-fungsi yang tak tergantikan. Kegiatan pemboran berhubungan dengan masalah-masalah yang disebabkan oleh kondisi yang kompleks di formasi karena adanya perubahan temperatur, tekanan, dan kontaminasi dari fluida formasi. Penggunaa lumpur pemboran diperlukan untuk dapat menghadapi permasalahan-permasalahan tersebut.            Pada penelitian mempunyai latarbelakang untuk mengetahuai seberapa berhasilkan penggunaan system lumpur Oil Base Mud berupa Saraline dan Smooth Fluid 05. Diketahui pada pemboran offshore pengaruh tekanan dan temperatur sangat mempengaruhi kualitas dari lumpur yang digunakan. Pada saat sirkulasi lumpur akan mendapat pengaruh temperatur tinggi dari formasi tersebut. Pada pembuatan lumpur pemboran ini dilakukan untuk memperoleh suatu hasil formulasi yang tahan terhadap perubahan temperatur, tekanan, dan kontaminasi oleh karena itu pemilihan aditif sangat penting, terutama jika terjadi perubahan temperatur pada lapangan tersebut serta kompatibel satu sama lain. Pengujian pada lumpur ini yaitu untuk mengetahui apakah terjadi perubahan pada sifat fisik lumpur tersebut seperti densitas, rheology lumpur, filtration loss, dan electrical stability jika lumpur tersebut diberikan perubahan temperatur tinggi.            Berdasarkan hasil penelitian ini bahwa semakin tinggi temperatur maka nilai densitas dan rheology lumpur (plastik viskositas, yield point dan gel strength),  tersebut akan semakin menurun dikarenakan faktor dari suhu tersebut yang membuat lumpur semakin encer. Pada nilai Filtration loss pada kedua sample tersebut menunjukan kenaikan sebesar 4,6 – 5,5 cc/30 menit namun masih dalam batas wajar karna masih sesuai dengan standarisasi yang digunakan. Pada nilai electrical stabilitas pada kedua sample lumpur tersebut menunjukkan semakin tinggi temperatur maka nilai electrical stabilitas pada sample lumpur tersebut akan semakin menurun, namun hasil pada sample lumpur ini mempunyai hasil diatas 500 volt maka komposisi lumpur minyak saraline dan smooth fluid 05 dengan nilai oil water ratio 85:15 mempunyai kandungan oilwet yang sangat baik Kata kunci: Lumpur Pemboran, Oil Base Mud, Temperatur, rheology, Filtration loss, Electrical Stability,  Saraline, Smooth Fluid 05
COMMUNITY AWARENESS DURING THE PANDEMIC OF COVID-19: PLASTIC WASTE AS AN ALTERNATIVE ENERGY Andry Prima; Samsol; Abdul Hamid; Imam Setiaji Ronoatmojo; Heru P Sanusi
Jurnal Abdi Masyarakat Indonesia (JAMIN) Vol 4 No 1 (2022): JURNAL ABDI MASYARAKAT INDONESIA (JAMIN)
Publisher : Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (965.334 KB) | DOI: 10.25105/jamin.v4i1.9767

Abstract

The increasingly hoarding volume of plastic waste has attracted numerous researchers to conduct studies in finding the blessing in disguise behind such unpleasant conditions. On the other hand, plastic is one of the end product derived from the refining process of crude or known as petroleum. Thus, the silver lining then can explain the connection between plastic waste and the possibility to use it as alternative energy. By utilizing plastic waste as alternative energy that can substitute the use of conventional fuel, the stage in which people will have a more economical source of energy. As such conditions are established, the economy at the micro or household level will significantly improve. This particular community service reached out to residents of relatively small neighboring houses in Kebun Jeruk Area, Jakarta, Indonesia. During the service, the activity was aimed to provide counseling and training for the community to empower the community on how to make use of plastic waste and process it into an alternative fuel. In the end, such alternative energy should help reduce dependency on the conventional fuel consumed regularly by the household.
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 Coconut Fibres, Banana Trunk Peel and Baggasse on the Lost Circulation of the Drilling Mud Rizki Akbar; Abdul Hamid; Ratnayu Sitaresmi
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 (645.121 KB) | DOI: 10.25105/jeeset.v2i2.4674

Abstract

Lost Circulation Materials (LCM) are specially designed not to damage the penetrating formation during handling of loss circulation problems and are very effective for drilling operations worldwide. Optimization of LCM composition may stop loss circulation effectively and protect the production zone from the invasion of mud filtrate. The concentration of lost circulation  materials (LCM) is a key parameter to determine the effectiveness of LCM. In this study, laboratory equipment such as the Hamilton beech mixer, Fann VG meter and API filter press are used to evaluate the effectiveness of various LCMs in dealing with loss circulation. In this research, coconut fibre, banana tree skin, and bagasse are used as LCM in various concentrations. The mud losses were simulated using an 80 mesh shaker. The quality of the muddy rheological properties wasthe basic parameters to be evaluated. The test was carried out at 80oF and 200oF. The experimental results show that bagasse has the best performance both at 80oF and 200oF as LCM compared withcoconut fibres and banana trunk. The lost circulation of  mud filtrate at 80oF and 200oF due to the addition of 2 gram bagasse is 34 ml and 40 ml, respectively.
Lost Circulation Effect of Bagasse, Coconut Fibers, Banana Tree Bark and Sawdust on Cement Grade G Characteristics Samuel Renjaan; Sugiatmo Kasmungin; Abdul Hamid
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 (919.54 KB) | DOI: 10.25105/jeeset.v1i3.4681

Abstract

The quality of cement is very important because it will greatly help the production well activities especially to make the construction of wells can last long. In this study the influence of lost circulation material (LCM) was analyzed, such as Bagasse, Coconut Fibers, Banana Tree Bark and Sawdust on the physical properties of G-class cement such as rheology, density, free water content, thickening time, and compressive strength. This research was conducted in the laboratory by varying the percentage of LCM from 0% to 6% and temperature from 95oF to 200oF. From this research, it can be known that the addition of LCM can change the physical properties of cement. The highest increase of plastic viscosity (PV) and yield point (YP) values was occurred at 6% concentration of Bagasse, Coconut Fibers, Banana Tree Bark and Sawdust that was 105 cp – 92 lbs/100ft2, 105 cp – 90 lbs/100ft2, 90 cp – 110 lbs/100ft2, and 95 cp – 110 lbs/ft2. The longest thickening time was occurred at 6% concentration of Bagasse, Coconut Fibers, Banana Tree Bark and Sawdust with a soaking temperature of 200 oF which that was 65 minutes, 60 minutes, 66 minutes, and 63 minutes. The highest reduction of density value occured at 6% concentration of Bagasse, Coconut Fibers, Banana Tree Bark and Sawdust that was 15.0 ppg, 15.2 ppg, 15.2 ppg and 15.0 ppg. The decrease in the highest free water content value occurs with the addition of 6% in each type of LCM, namely 0.9 ml, 0.95 ml, 0.9 ml and 1 ml. The increase in the strong press rate occurs in the addition of 1% sugar cane, which is 2838 psi; 1% Coconut fibre is 2926 psi, 0.5% of the banana tree bark is 3080 psi and 1% of sawdust is 2728 psi all at 200 º temperature.
Co-Authors Afdhal Huda Agung Maulana Irfan Andry Prima Apriandi Rizkina rangga Wastu Cahaya Rosyidan Djoko Sulistyanto Farisah Asmarani Heru P Sanusi Ibnu Badar Bajri Imam Setiaji Ronoatmojo lilik zabidi listiana satyawati Muhammad Taufiq Fathaddin, Muhammad Taufiq Pradiko Pradiko.Z.H puri wijayanti Ratnayu Sitaresmi Ridha Husla Rizki Akbar Rizki Ananda Parulian Samsol Samuel Renjaan Sugiatmo Kasmungin Widia Yanti