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All Journal Prosiding Semnastek IJFAC (Indonesian Journal of Fundamental and Applied Chemistry) Panrita Abdi - Jurnal Pengabdian pada Masyarakat Jurnal Inovasi Teknik Kimia Community Development Journal: Jurnal Pengabdian Masyarakat International Journal of Engineering, Science and Information Technology Mejuajua Aptekmas : Jurnal Pengabdian Kepada Masyarakat Journal of Renewable Energy, Electrical, and Computer Engineering Chemical Engineering Journal Storage (CEJS) Jurnal Teknologi Kimia Unimal IRA Jurnal Teknik Mesin dan Aplikasinya (IRAJTMA) Prosiding Seminar Nasional Teknik UISU (SEMNASTEK) Jurnal Malikussaleh Mengabdi International Assulta of Research and Engagement JURNAL PERSEGI BULAT Jurnal Solusi Masyarakat Dikara
Zainuddin Ginting
Universitas Malikussaleh
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Journal : International Journal of Engineering, Science and Information Technology

 1 
Biodiesel Production from a Mixture of Rubber Seed Oil and Waste Oil Through the Alcoholysis Process with Catalysts Based on Vegetable Waste I Ibrahim; A M Syam; M Muhammad; Zainuddin Ginting; S Maliki
International Journal of Engineering, Science and Information Technology Vol 1, No 4 (2021)
Publisher : Master Program of Information Technology, Universitas Malikussaleh, Aceh Utara, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (885.517 KB) | DOI: 10.52088/ijesty.v1i4.182

Abstract

The increasing types of people needs along with the times have resulted in the need for energy increasing so that the supply of energy, especially energy that cannot be renewed (unrenewable energy) is decreasing. Currently, almost 80% of the world's energy needs are met by fossil fuels. In fact, the use of fossil fuels can cause global warming. To reduce dependence on fossil fuels as an energy source, it is necessary to search for energy sources that can be used as alternative fuels that are environmentally friendly. Indonesia is an agricultural country that is overgrown with plantation crops that produce various kinds of waste such as rubber seeds which contain oil. This plant produces a lot of wasted seeds that are not useful. Therefore, researchers want to research the oil from rubber seeds to be a biodiesel product and in order to get high quality results. This study regulates several independent variables, namely the alcoholysis temperatures: 650C, 700C and 750C and the alcohol volume: 200 ml, 250 ml and 300 ml. The process is carried out by extraction using the alkolysis method. The best yield yielded 60.5%, with the best yield of biodiesel from alcoholysis obtained at a volume of 250 ml of ethanol and a temperature of 75oC with a density of 09 kg/m3 and a viscosity of 3,285 mm2/s (cSt), fulfilling the requirements of SNI 7182:2015. Based on the results of GC analysis, the main fatty acid components in the sample were at peak 1, namely saturated fatty acids in the form of palmitic acid at 44,28% and peak 4, namely unsaturated fatty acids in the form of oleic acid at 31.99%.
Synthesis of Cellulose Stearate Ester as Wet Strength Agent for Synthesis of Bio-polybag from Oil Palm Empty Fruit Bunch Kurniawan, Eddy; Mulyawan, Rizka; Tri Agusna PA, Angga; Armadani, Wika; Ginting, Zainuddin
International Journal of Engineering, Science and Information Technology Vol 2, No 2 (2022)
Publisher : Department of Information Technology, Universitas Malikussaleh, Aceh Utara, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (752.502 KB) | DOI: 10.52088/ijesty.v2i2.227

Abstract

Biodegradable polybags are an alternative to overcome the weakness of synthetic polybags because of their degradation properties. Oil palm empty fruit bunches contain a lot of cellulose so that they can be used as a biodegradable polybag. Wet Strength serves to increase the physical strength of bio-polybags when exposed to water (in wet conditions) so that water content stability is required. In this study, Cellulose Stearate Esters were synthesized in an effort to increase the stability of the water content in bio-polybags. Cellulose Stearate Esters are synthesized through a transesterification reaction between -Cellulose isolated from Oil Palm Empty Fruit Bunches (EFB) with methyl stearate. The synthesis of cellulose stearate esters was carried out by refluxing for 2 hours using methanol solvent with various catalysts Na2CO3 5, 10, 15, 20 mg and with volume variations of methyl stearate 5, 10, 15. And the best variation was determined based on the degree of substitution test, namely with variations Na2CO3 catalyst 20 mg and volume of methyl Stearate 15 ml, amounting to 1.95. The result of the synthesis, namely cellulose stearate, was tested for functional groups by FT-IR spectroscopy and surface morphology using SEM. The formation of cellulose stearate is supported by the FT-IR spectrum in the wavenumber region of 3468.01 cm-1 indicating an OH group, 3062.96 cm-1 indicating a CH stretching group, 1695.43 cm-1 indicating a C=O group, cm-1 indicating a CH bending group, 1095.57cm-1 indicates a COC group, 609.51cm-1 indicates a (CH2)n4 group. The results of surface morphology analysis using SEM showed that the surface of cellulose stearate looked homogeneous, more regular and had denser cavities than -Cellulose
Mechanical Characteristic and Water Absorption Property of Bio Composite from Sago Starch and Jute Fiber (Boehmeria Nivea) as the filler Dewi, Rozanna; Oktaviani, Oktaviani; Ginting, Zainuddin; Sylvia, Novi; Ramadhan, Cindia
International Journal of Engineering, Science and Information Technology Vol 2, No 1 (2022)
Publisher : Malikussaleh University, Aceh, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (285.968 KB) | DOI: 10.52088/ijesty.v2i1.209

Abstract

Environmentally friendly plastics can be degraded biologically in an anaerobic environment. This plastic is synthesized from starch such as sago starch which is available in abundance. In the form of bioplastics, its mechanical properties are still not compared to conventional plastics derived from crude oil, so its application is limited. The incorporation of filler material increases its mechanical properties, one of the selected fillers is hemp fiber as used in this study. Thermoplastic starch from sago with flax fiber as a filler and the addition of Polypropylene to improve mechanical properties with a certain composition to maintain its natural biodegradability. The mechanical properties analyzed were tensile strength, elongation and modulus of elasticity. Water absorption tests were also carried out to observe the water resistance properties. The results of the tensile strength test showed that the best tensile strength value of 9.32 Mpa was obtained at the addition of 35% fiber with a TPS: PP ratio of 1:1.5. The same conditions were obtained for the percent elongation with the results of 10.16% and the modulus of elasticity was 91.73 Mpa. Water absorption showed that 55% filler gave the lowest water     absorption, namely 4.41% at a ratio of TPS: PP 1:0.5. The addition of fiber filler into the bio-composite affects the tensile strength,    elongation and modulus of elasticity, the higher the volume of filler entering the bio-composite, the lower the value of tensile strength, elongation and modulus of elasticity, or vice versa. The ratio of addition of polypropylene matrix is also influential, the higher the ratio contributes to the tensile strength, elongation and higher modulus of elasticity. High water absorption capacity will reduce the performance of biocomposite, so the lower the water absorption ability, the better the quality of the biocomposite product and the wider its application
The Mechanical Properties of Bismuth-based Ceramic Nanocomposite Nurmalita, Nurmalita; Fikri, Ahmad; Masrullita, Masrullita; Sylvia, Novi; Fazira, Zetta; Jalaluddin, Jalaluddin; Ginting, Zainuddin
International Journal of Engineering, Science and Information Technology Vol 5, No 3 (2025)
Publisher : Malikussaleh University, Aceh, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52088/ijesty.v5i3.1086

Abstract

This research investigated a Bismuth-based ceramic nanocomposite material with the stoichiometric composition Bi?.?Pb?.?Sr?Ca?Cu?O_y (abbreviated as B(P)SCCO-2223), synthesized via the solid-state reaction method. The fabrication process involved compound composition calculations and powder metallurgy using several high-purity oxide precursors, with bismuth oxide as the primary component. Heat treatment in the form of sintering was conducted at 846?°C for durations of 32 and 34 hours to examine its effects on the material’s physical properties. Scanning Electron Microscopy (SEM) analysis revealed layered grain structures with the presence of pores at grain boundaries. Energy Dispersive X-ray (EDX) analysis confirmed that the target 2:2:2:3 elemental ratio was achieved across all samples. X-ray Diffraction (XRD) analysis showed that the sample sintered for 34 hours exhibited the largest grain size of 48.07?nm. The holding time of 34 hours during the sintering process has provided sufficient opportunity for the crystal grains to grow larger. Scanning electron microscopy photos also show that longer sintering times make the empty space between the grains smaller because the crystal grains are closer together, followed by the pore size becoming smaller. This sample also demonstrated the highest oriented phase percentage (58.12%) and the lowest impurity level (6.05%). Mechanical properties, evaluated using Vickers microhardness testing, indicated that the 34-hour sintered sample had superior performance, with a Vickers hardness of 0.905?GPa, Young’s modulus of 74.2?GPa, yield strength of 0.301?GPa, fracture toughness of 5.17, surface energy of 0.18?J, and a brittleness index of 0.175. Overall, the study concluded that the physical properties of the ceramic nanocomposite improved with increased sintering duration.
Co-Authors -, Sulhatun - -, Suryati - A M Syam abdullah, humaira Absa, Munzir Adi Setiawan Adrin, Prista Agam Muarif Agus Salim Ahmad Fikri Amiratul Husna Angga Tri Agusna PA Armadani, Wika Arnawan Hasibuan Asnadia Asnadia Asran Asran Aulia, Muhammad Rifki Aulia, Sekar Aurora, Tassa Azhari Azhari Budhi Santri Kusuma Budhi Santri Kusuma Chairina Chairina Chalisna Wildani Dahliana Abdullah Dede Ibrahim Muthawali Desi Sri Pasca Sari Sembiring, Desi Sri Pasca Sari Devia Ayu Setyowati Dinda Robiatul Al Qory Eddy Kurniawan Effendi, Mulia Efri Marnelisa Eva Diana Faisal Faisal Faisal Faisal Faisal Faisal Faisal Faisal Fatiha Lubis, Rabitha Canny fatimah Fatimah Fazira, Zetta Feni Lestari Berutu Ferri Safriwardy Fibarzi, Wiza Ulfa Fioza Ozly Erian Fitra Rahmatika Fuji Maharani Furqan, Muhammad Alif Gultom, Togu Sahat Martua Gusti Indah Sari Hanie, Nawardah Harahap, Handoyo Harahap, Nurul Aulia Hermawan, Yuda Hesni, Yuli Hijjrah, Nur Hijratul Izzati Hukaimah, Hashifah humairah, syarifah siti Husnul Chatimah, Husnul I Ibrahim Ibrahim Muthawali, Dede Ibrahim, Ishak Ishak Ibrahim Ishak Ishak Ishak Ishak Ishak, I Jalaluddin Jalaluddin Jalaluddin Jalaluddin Jalaluddin Jasmani Jasmani Kamar, Iqbal Kartika Kartika Khairul Anshar Kuniawan, Eddy Kurniawan, Eddi Lailatul Munouwarah Laksono Trisnantoro Leni Maulinda, Leni Lukman Hakim Lukman Hakim Lukman Hakim Luthfi Mughni Anisa Haryono M Muhammad Mahaziva Putri Maghfirah Tambunan Mahdayani Sinaga, Citra Puspita Masrullita Masrullita Masrullita Masrullita Masrullita Masrullita, Masrullita Meriatna Meriatna Misbahul Jannah Muhammad Muhammad Abrar Muhammad Fadlan Siregar Muhammad Ilyas Muhammad Muhammad Muhammad Muhammad Muhammad, Muhammad Mulyatun Mulyatun Mulyawan, Rizka Mutawali, Dede Ibrahim Muthawali, Dede Ibrahim Muthmainnah Muthmainnah Mutiara Pujana Pujana Nabila Hamnasia Nadira Diandra Nasrul ZA Novi Sylvia Nur rizqi Fattah Lubis Nuraini Hutagaol, Intan Nurdiah, Ika Nurhabiah Nurhabiah Nurlaila, Rizka Nurmalita Nurmalita Oktaviani oktaviani Pane, Yunita panjaitan, Ira wardani Prasatia, Ridha Purwoko, Agus Putri Nurjannah Putri Sara Fhariza Rahma Yanti Ramadhan, Cindia Rauzatul Jannah Z Retwan, M.Alif Alzahy Ridha Gebrina Rizki Rika Santi S. Tumangger Rini Meiyanti Riskina, Shafira Rizka Mulyawan Rizka Mulyawan Rizka Mulyawan Rizka Nurlaila Rizky, Audry Azilla Rizkya Faradaiza Rozanna Dewi S Maliki Salimuddin Salimuddin Santri Kusuma, Budhi Saragih, Tamara Habibi Sarah Sarah Seriani Annisa Setiawaty, Sri Shella Vanesa Shintia Clarita Shrestha, Ashish Sitanggang, Evi Dahliani Siti Nurjannah Sri Santika Sry Wahyuni Damanik Sulhatun Sulhatun Suryadi Suryadi Suryati Suryati Suryati Suryati Suryati Syahfitri, Ajeng Syamsul Bahri Syamsul Bahri Syamsul Bahri Tampubolon, Heriansyah Tata Tirani Tri Agusna PA, Angga Ulfa, Raudhatul Vania, Sherryl Wiyani, Sri Wulandari, Melianda Putri Yani, Firda Tirta yanti, eva Yuda Hermawan Zetta Fazira Zulfida Najla Azni Zulmiardi, Zulmiardi Zulnazri, Z