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Toni Mulyono
Dinas Pekerjaan Umum dan Penataan Ruang Kab. Merauke
Agriculture, Biological Sciences & Forestry Control & Systems Engineering Decision Sciences, Operations Research & Management Engineering

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Modifikasi Dan Uji Kinerja Mesin Pemarut Sagu Dengan Penggerak Motor Bensin Dan Pedal Sepeda Saripudin Nur Ali; Toni Mulyono; Yosefina Mangera
Musamus AE Featuring Journal Vol 1 No 2 (2019): MAEF-J April 2019
Publisher : Faculty of Agriculture, Musamus University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35724/maef-j.v1i2.2026

Abstract

This study aims is to modify the intake hopper, grater rollers, pedal drive motors, and find out the effective capacity of the modified grater and compare it to the unmodified shredder. The method used in this research is to make design, modification, and testing of tools and machines. Based on the results of research, Ali BK sago dissolution using a motorbike driven by Honda WZ 20 (old movers) produces pith as much as 3.25 kg /minutes, CPT National 5.5 HP 2200 rpm (new movers) driving motor produces pith as much as 5.90 kg/minutes with an average pith diameter of 0.4318 mm, and solubility using a bicycle pedal drive produces pith as much as 0.63 kg/minutes with an average pith diameter of 0.5410 mm. Making this sago sieve machine cost Rp. 4 242 000.
Uji Alat Pengering Pisang Tipe Rak Energi Surya Dan Biomassa Mario Rinaldo Masela; Jamaludin Jamaludin; Ni Luh Sri Suryaningsih; Toni Mulyono
Musamus AE Featuring Journal Vol 1 No 2 (2019): MAEF-J April 2019
Publisher : Faculty of Agriculture, Musamus University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35724/maef-j.v1i2.2031

Abstract

Banana chips drying is an important process in flouring. Conventional drying has many drawbacks such as long drying time, large areas, quality degradation due to dirt, and unpredictable rain can occur. The purpose of this study was to test the banana dryer for solar and biomass rack energy types. The stages of this research are the design of a rack type banana dryer, the manufacture of parts for tools, and the testing of dryers. The test was carried out with three treatments, namely drying with a solar energy dryer, biomass energy dryer, and conventional drying as a control. Drying test was carried out for 600 minutes with an initial sample water content of 69.33%. During the test, banana samples were taken to measure temperature and water levels every 30 minutes. The test results showed the moisture content of banana chips on drying using the lowest biomass energy compared to conventional solar energy dryers and drying. The final moisture content of banana chips on the rack 5 solar energy dryers and biomass energy dryers is 22% and 16%, respectively. Whereas, in conventional drying, the final moisture content of banana chips is 33.33%.
Modifikasi Dan Uji Kinerja Mesin Pemarut Sagu Dengan Penggerak Motor Bensin Dan Pedal Sepeda Saripudin Nur Ali; Toni Mulyono; Yosefina Mangera
Musamus AE Featuring Journal Vol 1 No 2 (2019): MAEF-J April 2019
Publisher : Faculty of Agriculture, Musamus University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35724/maef-j.v1i2.2026

Abstract

This study aims is to modify the intake hopper, grater rollers, pedal drive motors, and find out the effective capacity of the modified grater and compare it to the unmodified shredder. The method used in this research is to make design, modification, and testing of tools and machines. Based on the results of research, Ali BK sago dissolution using a motorbike driven by Honda WZ 20 (old movers) produces pith as much as 3.25 kg /minutes, CPT National 5.5 HP 2200 rpm (new movers) driving motor produces pith as much as 5.90 kg/minutes with an average pith diameter of 0.4318 mm, and solubility using a bicycle pedal drive produces pith as much as 0.63 kg/minutes with an average pith diameter of 0.5410 mm. Making this sago sieve machine cost Rp. 4 242 000.
Uji Alat Pengering Pisang Tipe Rak Energi Surya Dan Biomassa Mario Rinaldo Masela; Jamaludin Jamaludin; Ni Luh Sri Suryaningsih; Toni Mulyono
Musamus AE Featuring Journal Vol 1 No 2 (2019): MAEF-J April 2019
Publisher : Faculty of Agriculture, Musamus University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35724/maef-j.v1i2.2031

Abstract

Banana chips drying is an important process in flouring. Conventional drying has many drawbacks such as long drying time, large areas, quality degradation due to dirt, and unpredictable rain can occur. The purpose of this study was to test the banana dryer for solar and biomass rack energy types. The stages of this research are the design of a rack type banana dryer, the manufacture of parts for tools, and the testing of dryers. The test was carried out with three treatments, namely drying with a solar energy dryer, biomass energy dryer, and conventional drying as a control. Drying test was carried out for 600 minutes with an initial sample water content of 69.33%. During the test, banana samples were taken to measure temperature and water levels every 30 minutes. The test results showed the moisture content of banana chips on drying using the lowest biomass energy compared to conventional solar energy dryers and drying. The final moisture content of banana chips on the rack 5 solar energy dryers and biomass energy dryers is 22% and 16%, respectively. Whereas, in conventional drying, the final moisture content of banana chips is 33.33%.
Co-Authors Jamaludin Jamaludin Mario Rinaldo Masela Ni Luh Sri Suryaningsih Saripudin Nur Ali Yosefina Mangera