Afdal Syarif
Jurusan Teknik Mesin, Universitas Dayanu Ikhsanuddin, Baubau

Published : 2 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 2 Documents
Search

Analisis Kebutuhan Energi dari Minyak Goreng Bekas menjadi Bahan Bakar Biodiesel B40, B60, dan B80 menggunakan Kompor Minyak Bekas La Atina; Afdal Syarif; Muhammad Iqbal Achmad; La Baride; Dedy Ashari
Piston: Jurnal Teknologi Vol 10 No 1 (2025): June 2025
Publisher : Program Pendidikan Vokasi Teknik Mesin

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55679/pistonjt.v10i1.109

Abstract

Stoves that use used oil as fuel are widely used as a tool to utilize liquid waste such as oil into fuel. The aim of this study is focused on comparing the energy requirements and efficiency of various fuels sourced from used cooking oil through transesterification. This research utilizes used cooking oil as an alternative fuel using a used oil stove. Waste cooking oil is processed into biodiesel fuel through a transesterification process into three variations, B40, B60, and B80. Testing of fuel variations on used oil stoves showed that the energy requirement value for B40 fuel had a higher value (0.27 kcal/second) than B60 fuel (0.22 kcal/second) and B80 fuel (0.18 kcal/second). The results shown for the combustion efficiency of B40 fuel have a higher average value (18.9%) than B60 fuel (17.2%) and B80 fuel (14.9%). This shows that the percentage of transesterification results of a mixture of used cooking oil and diesel fuel that is increasing, is seen to experience a decrease in the value of energy requirements and combustion efficiency. The highest combustion efficiency value is found in B40 fuel which has a mixture percentage of 40% transesterification oil and 60% diesel fuel. There was a decrease in combustion efficiency of 8.9% from B40 fuel to B60 fuel, and a decrease in combustion efficiency of 21.2% from B40 fuel to B80 fuel.
Evaluation of Net Energy Gain Solar Tracker Single-Axis based on Relay of 50 Wp Solar Panel Afdal Syarif; La Baride; Haryani Haryani; La Atina
Piston: Jurnal Teknologi Vol 11 No 1 (2026): Juni 2026
Publisher : Program Pendidikan Vokasi Teknik Mesin

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55679/pistonjt.v11i1.140

Abstract

The performance of photovoltaic panels is affected by the apparent movement of the sun, which causes the angle of solar radiation incidence on the panel surface to change throughout the day. One method to increase solar radiation capture is the implementation of a solar tracking system. However, most previous studies have focused only on improvements in power output and energy production without considering the energy consumption of the tracking mechanism. This study aims to evaluate the performance of a relay-based single-axis solar tracker applied to a 50 Wp photovoltaic panel by analyzing power enhancement, energy production, and net energy gain. The experiment was conducted in Lamangga Village, Baubau City, Southeast Sulawesi, Indonesia, for five consecutive days from 6 to 10 August 2023 between 09:00 and 16:00 WITA. The evaluated parameters included output power, daily electrical energy, actuator energy consumption, energy improvement, and net energy gain. The results showed that the average output power of the fixed photovoltaic panel was 17.71 W, while the solar tracker system achieved an average power output of 22.45 W, representing an increase of 26.92%. The average daily energy generated by the fixed panel was 134.68 Wh, whereas the solar tracker produced 170.64 Wh per day. The actuator consumed 15.30 Wh per day during tracking operation. After accounting for actuator energy consumption, the system still achieved a net energy gain of 20.66 Wh per day, equivalent to 15.34%. These findings indicate that the relay-based single-axis solar tracker effectively improves solar energy utilization through a simple control system and relatively low implementation cost. Future studies are recommended to employ longer observation periods and direct solar irradiance measurements to provide a more comprehensive evaluation of system performance. Keywords: solar tracker, mechanical relay, photovoltaic panel, net energy gain, solar energy.