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All Journal Journal of Geoscience, Engineering, Environment, and Technology CANANG: Jurnal Pengabdian Masyarakat Petro : Jurnal Ilmiah Teknik Perminyakan
Idham Khalid
Universitas Islam Riau
Agriculture, Biological Sciences & Forestry Humanities Earth & Planetary Sciences Economics, Econometrics & Finance Education Energy Engineering Environmental Science Physics Public Health Social Sciences Other

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Sosialisasi pemanfaatan limbah batang pohon pisang Menjadi bahan additive lumpur dan semen pemboran pada masyarakat Desa Pandau Jaya Kecamatan Siak Hulu Kabupaten Kampar Muhammad Ariyon; Novia Rita; Idham Khalid; Novrianti Novrianti; Fitrianti Fitrianti
CANANG: Jurnal Pengabdian Masyarakat Vol 1, No 2 (2021)
Publisher : PELANTAR PRESS

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (533.878 KB) | DOI: 10.52364/cng.v1i2.19

Abstract

Some people in Pandau Jaya village have banana trees in their yards, but most people throw away the tree trunks after the fruit is harvested, sometimes the banana stems that have been cut down are only used for fertilizer, animal food or left without further exploiting their potential. For this reason, the Service Team conveyed directly to the community that the waste of the banana stems, if collected, could be used as a useful additive for drilling oil wells, although this is the key to the results of tests conducted at the Petroleum Engineering Laboratory, where the additives are obtained from banana trees. has good quality in covering rock cavities, so as to prevent mud loss during the drilling process. The method used in this community service activity is interactive socialization, discussion and question and answer using supporting facilities and directly to the people of Pandau Jaya Village by providing examples of experimental results that have been carried out at the Petroleum Engineering Laboratory. So that the public can know the process of making additives from banana tree trunks and making drilling mud with the use of these additives. If this research can be applied to the oil field, it can increase income for the community. 
Laboratory Study On The Utilization of Jackruit Skin Waste Into Car-boxymethyl Cellulose and Their Effect On The Rheological Properties Of Drilling Mud Novrianti Novrianti; Adi Novriansyah; Idham Khalid; Zata Dini Amani
Journal of Geoscience, Engineering, Environment, and Technology Vol. 7 No. 2 (2022): JGEET Vol 07 No 02 : June (2022)
Publisher : UIR PRESS

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25299/jgeet.2022.7.2.7066

Abstract

The value rheology of drilling mud must be in accordance with the conditions of wellbore that do not lead to the occurrence of the problems at the time of drilling. One of the efforts to improve the rheology of drilling mud is by adding Carboxymethyl Cellulose (CMC) which is useful for increasing viscosity and binding water. This study aims to identify the effect on the use of CMC originating from jackfruit skin to the rheological properties of drilling mud. Jackfruit skin is an underutilized organic waste and the structure of jackfruit skin contains 50-55% cellulose. Manufacturing phase of synthesizing CMC skin jackfruit includes the process of delignification, alkalization, carboximetilation, and sieve sample to be powdered CMC and subsequently carried out the test of plastic viscosity, yield point , gel strength by using a Fann VG Meter and mud cake using a marsh funnel and volume filtration using a filter press . The added mass of CMC jackfruit skin were varied from 1 g, 2 g, 3 g, 4 g to 5 g. The results suggest that the addition of jackfruit skin CMC has an effect on the rheology of drilling mud. Increasingly many additions additive CMC skin jackfruit who use the increasingly high- value rheology mud drilling were obtained. Furthermore, the addition of CMC jackfruit skin starting from 1gr – 5 gr meets the API 13, a standard for the value of yield point/viscosity plastic, plastic viscosity and maximum volume of filtrate. While the value of gel strength which meets the API 13 A is with the addition of CMC jackfruit skin as much as 5 grams.
Edukasi pemanfaatan teknologi biogas sebagai sumber energi alternatif di Desa Kuala Terusan Kabupaten Pelalawan, Riau Muhammad Ariyon; Fitrianti Fitrianti; Idham Khalid; Novia Rita
CANANG: Jurnal Pengabdian Masyarakat Vol 2, No 1 (2022)
Publisher : PELANTAR PRESS

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (469.771 KB) | DOI: 10.52364/canang.v2i1.21

Abstract

Gas is a state asset that can be traded through state-owned or private companies to consumers. The gas produced will be processed in accordance with the regulations and consumer needs. The processing can be channeled directly to consumers or processed in a way that is more consumptive for the community, such as LPG. The use of LPG is now a necessity by the community for kitchen purposes in general. Gas supply is not necessarily evenly distributed, causing people to innovate to find alternatives by utilizing the natural surroundings. One example of nature that can be used as an alternative is to use biogas. This biogas is a solution for people who have not been reached by LPG or have difficulty getting LPG. So that people can create their own alternative energy as a backup without worrying about running out of LPG.
POTENSI BIOPOLIMER DARI EKSTRAKSI NANOSELULOSA DAUN KAPAS SEBAGAI AGEN PENINGKATAN VISKOSITAS PADA INJEKSI POLIMER Idham Khalid; Fitra Ayu Lestari; Muhammad Khairul Afdhol; Fiki Hidayat
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 (759.165 KB) | DOI: 10.25105/petro.v9i4.8162

Abstract

One of the methods used to optimize oil production is biopolymer injection. In this study, nanocellulose from cotton leaves was made into a biopolymer by combining the cotton leaf synthesis method with ascorbic acid, then sonified and hydrolyzed using ethanol. SEM and FTIR tests were carried out to see the size and chemical structure. The rheology of KLNC biopolymer was compared with the bipolymer from Xanthan Gum. The salinity and compatibility tests were carried out at various concentrations, as well as knowing the resistance of the biopolymer at reservoir temperature. The results of this study, the morphological shape of KLNC shows that the extraction process does not damage the surface structure. With the same concentration, KLNC biopolymer had a higher viscosity compared to Xanthan Gum biopolymer. KLNC biopolymer is more resistant to salinity and thermal than Xanthan Gum. So that KLNC Biopolymer has the potential to be further developed and researched.
Co-Authors Adi Novriansyah Fiki Hidayat Fitra Ayu Lestari Fitrianti Fitrianti Muhammad Ariyon Muhammad Khairul Afdhol Novia Rita Novrianti Novrianti Zata Dini Amani