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All Journal IJIMCE : International Journal of Innovation in Mechanical Construction and Energy
Reyhan Stevano
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Automotive Engineering Energy Engineering Industrial & Manufacturing Engineering Materials Science & Nanotechnology

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Design Of Liquid Smoke Equipment With A Capacity Of 120 Ml Per Hour Bakri Anuar, Bakri; Muchlisinalahuddin; Malikil Kudus Susalam; Ilham Alghani; Reyhan Stevano
IJIMCE : International Journal of Innovation in Mechanical Construction and Energy Vol. 2 No. 2 (2025): IJIMCE : International Journal of Innovation in Mechanical Construction and Ene
Publisher : Universitas Negeri Padang

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Abstract

Liquid smoke is the result of pyrolysis of various types of biomass used in various industrial applications, including food preservation and waste treatment. This study aims to design and test a liquid smoke production device with a capacity of 120 ml per hour using six types of raw materials: coconut husk, coconut shell, straw, rice husk, corn cob, and corn stalk. The graph of the test results shows that the second experiment (test 2) produced a higher volume of liquid smoke than the first experiment (test 1), with the maximum volume reaching 310 ml. Nonetheless, the processing time varies depending on the type of raw material used. The results of this study show that optimizing the pyrolysis process can improve the efficiency of liquid smoke production, both in terms of volume and processing time. Thus, the device design used in this study has the potential to be further developed to increase production capacity and efficiency. Keywords: liquid smoke, pyrolysis, equipment design, production capacity, coconut shell.
Simulation Of Welding Strength Test Equipment Frame With A Capacity Of 20 Tons Using Solidwork 2020 Software Torikkuljanna; Ilham Alghani; Reyhan Stevano; Muchlisinalahuddin
IJIMCE : International Journal of Innovation in Mechanical Construction and Energy Vol. 2 No. 2 (2025): IJIMCE : International Journal of Innovation in Mechanical Construction and Ene
Publisher : Universitas Negeri Padang

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Abstract

This study aims to analyze the strength of the 20-ton capacity welding test equipment frame using SolidWorks software-based simulation. The simulation evaluates the stress distribution, strain, and safety factor of the frame structure when receiving the maximum load. Analysis using the finite element method (FEA) is performed by modeling the frame along with boundary conditions and loads that match the actual test conditions. The simulation results show that the maximum stresses in the structure are still below the yield limit of the material, so the frame is considered safe to use. The highest stresses are distributed at the top of the frame especially around the load application area, while the bottom and legs of the frame experience lower stresses. The minimum factor of safety obtained in the simulation is 6.6 which indicates that the structure has high reliability against the applied load. Based on these results, the welding test equipment frame design can be said to be strong enough and safe to use for testing with a capacity of 20 tons. However, design optimization can still be done to improve the strength of the structure.
Co-Authors Bakri Anuar, Bakri Ilham Alghani Muchlisinalahuddin Raden Mohamad Herdian Bhakti Torikkuljanna