Muhammad Yori Pratama scite author profile

Muhammad Yori Pratama

4Publications

8Citation Statements Received

0Citation Statements Given

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Affiliations

Bandung Institute of Technology, Sriwijaya University

Publications

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Analysis of Air Fuel Ratio on Combustion Flames of Mixture Waste Cooking Oil and Diesel using Preheating Method

Bow

Effendi

Taqwa

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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Fossil fuels are a non-renewable energy source results in depletion of fossil fuel reserves. Utilization of used cooking oil as an alternative fuel is one solution to overcome this problem. This study objective is to design a stove fueled by waste cooking oil and determine the optimum air flow rate and fuel flow rate in combustion. This study uses the used cooking oil as the main fuel, and diesel fuel as a mixture with a mixture of 100% used cooking oil, used cooking oil 80:20, 70:30, and 60:40 to diesel fuel. Fuel valve opening variations used are ¼ open, ½ open, ¾ open, and fully open, while the variation in air flow rate used is 14.91; 19.24; 27.64; and 31.28 m/s. The fuel samples used were tested for the heating value, flash point and fire point, fuel density, and water fuel ratio (AFR) analysis and water boiling test (WBT). The results showed that used cooking oil had a heating value of 37,231.11 kJ/kg, flash point 289ºC, and fire point 305ºC. To achieve optimum AFR conditions (12-16:1) at a fuel flow rate of 2.5 mL/min (¾ valve open) and an airflow rate of 27.64 m/s, and WBT analysis with 221 mL fuel consumption requires a long time boiling water 16’23” minutes. Conversion of used cooking oil to kerosene fuel is 1 liter of used cooking oil equal to 0.3 liters of kerosene.

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Effect of Stainless Steel Duplex Electrode Size on Hydrogen Production through Electrolysis Process

Bow

Rusdianasari

Meidinariasty

et al. 2021

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Pengaruh Waktu Reaksi Dan Aditif Gliserol Pada Sintesis Selulosa Asetat Sebagai Bahan Dasar Bioplastik Dari Serat Kapuk

Rahmatullah¹,

Putri

Rainadi

et al. 2020

JDPI

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Serat kapuk meiliki potensi menjadi bahan dasar cellulose acetate karena jumlah komposisi selulosanya yang cukup besar yaitu 35%-64%. Penelitian ini bertujuan untuk menganalisa produk bioplastik yang dihasilkan dari serat kapuk dengan tambahan plasticizer berupa gliserol. Tahapan penelitian ini terdiri dari: preparasi bahan baku, ekstraksi, sintesa, purifikasi, dan pencetakan. Parameter yang akan diteliti antara lain waktu reaksi dengan variasi 1, 2, dan 3 jam; dan pembahan aditif gliserol 20%, 25%, dan 30% dari volume CA. Hasil penelitian ini menunjukkan jumlah rendemen selulosa terbanyak diperoleh pada waktu hidrolisis gugus asetil selama 3 jam dengan rendemen sebesar 138,264% dengan berat sebesar 6,913 gram. Penambahan gliserol 30% dari volume CA menghasilkan bioplastik terbaik dengan karakteristik fisik lebih kuat dan tidak mudah rapuh bila dibandingkan dengan bioplastik dengan gliserol 20% dan 25%.

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Increasing the quality of low-rank coal through the upgrading brown coal (UBC) process with used lubricant oil and waste cooking oil

Afrah¹,

Pratama²,

Cundari³

et al. 2023

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