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All Journal JITTER (Jurnal Ilmiah Teknologi Informasi Terapan) Mestro SEMINAR TEKNOLOGI MAJALENGKA (STIMA)
Syamsuri, Heris
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Automotive Engineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Mechanical Engineering Transportation

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PERANCANGAN SISTEM INSINERATOR SAMPAH PLASTIK LAYAK BAKAR RAMAH LINGKUNGAN DI KAMPUS UNIGAL CIAMIS Zenal Abidin Abid; Heris Syamsuri; Ade Herdiana
Jurnal Ilmiah Teknologi Infomasi Terapan (JITTER) Vol. 9 No. 2 (2023)
Publisher : Universitas Widyatama

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33197/jitter.vol9.iss2.2023.1041

Abstract

Good and efficient waste management with incineration technology is the conversion of combustible plastic waste materials into gaseous materials (exhaust gases), as well as hard-tocombustible solids, namely bottom ash and fly ash. One of the waste treatment systems uses open burning, and transporting it to public landfills is a separate problem. Certain types of plastic waste that should be burned to process waste have not been carried out yet because there is no waste combustion system in the form of an incinerator, so further discussion is needed. This research aims to provide enlightenment and gain knowledge about how to design an incinerator system that can be used in processing waste in the Ciamis University campus environment. The research target is the Galuh University campus environment and the community, especially those related to plastic waste decomposition systems. The research method uses CAD (Computer Aided Design) and CAE (Computer Aided Engineering) systems, namely system design, manufacture, modification, analysis, or design optimization using a computer (workstation) using CAD software. The output of this method is a technical drawing that has been analyzed by CAE.
Analysis of Heat Transfer in the Process of Smelting Plastic Waste in the Form of Paving Blocks Maulani, Irna Sari; Syamsuri, Heris
Mestro: Jurnal Teknik Mesin dan Elektro Vol 5 No 1 (2023): Edisi Juni
Publisher : Fakultas Teknik Universitas 17 Agustus 1945 Cirebon

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47685/mestro.v5i1.398

Abstract

Plastic waste is an inseparable part of human life. People's habit of burning accumulated plastic waste can release heavy metal content in plastic and toxic chemicals such as dioxins which can interfere with the respiratory process. There is another way to reduce plastic waste, namely by melting plastic waste into paving blocks. The process of melting plastic waste is carried out in a melting furnace. The purpose of this study is to analyze the heat transfer that occurs in the smelting furnace. The method used in this research is heat transfer analysis using FEM analysis and heat transfer analysis through experimental studies. The results obtained in the FEM analysis, the heat generated by the smelting furnace ranges from 212-300 ⁰C. While the heat generated in the measurement process is 280 ⁰C. Analysis of heat transfer that occurs in the smelting furnace obtained a figure of 1.95 Watt. The value of the wasted heat from the smelting furnace is 6.77 W. This means that the wasted heat is greater than the heat generated from the smelting furnace, this will result in a waste of energy. To overcome wasted heat, it is recommended to add insulating material to the furnace around smelting.
PEMANFAATAN PANAS TERBUANG BOILER UNTUK PENCETAKAN KERUPUK LEPIT Irna Sari Maulani; Syamsuri, Heris; Abidin, Zenal
SEMINAR TEKNOLOGI MAJALENGKA (STIMA) Vol 7 (2023): STIMA 7.0 "Transformasi Peradaban Akademik Menyongsong Revolusi Industri 5.0"
Publisher : Universitas Majalengka

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31949/stima.v7i0.1030

Abstract

Lepit crackers are one of the types of crackers in Indonesia. Made from tapioca flour and a mixture of other ingredients, this food is very popular with all people, of course the taste is very unique. In Cipaku Subdistrict, Ciamis Regency, the place where the cracker cracker is made, precisely at the Sumber Usaha factory, is still manual by hand. This of course reduces the productivity of the production process. This research is targeted to produce a semi-automatic based cracker machine by utilizing steam heat from the boiler. By having a working principle of utilizing the rotation of an electric motor as a source of automatic propulsion of the tool. This study aims to increase the productivity of the cracker production process at the Sumber Usaha Cipaku factory. This research includes several stages including data collection, design analysis, preparation of tools and materials, the process of making tools, then testing whether the tools work successfully. The target of this research is the success of the manufacturing process for making crackers and can help increase the productivity of the Sumber Usaha factory. Keywords: Lepit cracker printer, Electric motor.
DESAIN SISTEM OTOMASI DAN PENGENDALIAN SUHU BERBASIS TEMPERATURE CONTROLLER PADA USAHA AIR REBUS” Riyadi, Slamet; Syamsuri, Heris; Setiawan, Tia
SEMINAR TEKNOLOGI MAJALENGKA (STIMA) Vol 9 (2025): Seminar Teknologi Majalengka (STIMA) 9.0 Tahun 2025
Publisher : Universitas Majalengka

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

The Boiled Water Business (UAR) in Kertasari Village, Ciamis Regency is one of the micro-enterprises that focuses on providing hygienic drinking water through a boiling process. The production process, which is still done manually, leads to several problems, such as unstable water temperature, potential hazards for operators due to exposure to hot water, inefficient production time, and energy wastage. This research aims to design and create an automation and temperature control system based on a microcontroller, equipped with a cooling system, so that the water boiling process becomes more efficient, safe, and stable. This system is designed to automatically regulate the water temperature until it reaches boiling point (100°C) using a temperature sensor connected to the microcontroller, and automatically channels the water to the cooling system through a solenoid valve once the temperature is reached. The research method used is research and development with an experimental approach, which includes stages of system design, component selection, hardware assembly, microcontroller programming, and performance testing of the system in a real operational environment. The results of this research are expected to improve the efficiency of UAR production by minimizing manual intervention, reducing energy consumption, accelerating the cooling process, and lowering the risk of workplace accidents. With this system, the Boiled Water Enterprise can operate more optimally and consistently in meeting the hygienic standards of drinking water.
Co-Authors Abidin, Zenal Ade Herdiana Irna Sari Maulani Maulani, Irna Sari Setiawan, Tia Slamet Riyadi Syarifudin Syarifudin Tia Setiawan Zenal Abidin