Rancang bangun dan uji performansi mesin pencampur beberuk, makanan khas Lombok

A. Ansar, S. Muttalib, R. Sabani, R. Kustina

Abstract


During this time the process of making beberuk was still done traditionally using a mortar as a mixer, so that production is very limited, while the market demand is quite high. To increase productivity, it is necessary to design a machine that can increase the production capacity of the beberuk. The research method begins with the mixing machine design process, then continues with the assembly process and engine performance test. The design of the mixing machine is done with two approaches namely functional approach and structural approach. Test engine performance on 3 power variations namely 144, 168, and 192 watts and 3-time variations namely 30, 45, and 60 seconds. The results showed that the cylindrical mixing chamber has a diameter of 20 cm and a height of 50 cm. The mixing tube has a rectangular hopper with dimensions of 37 cm long and 9 cm wide. Engine performance test results showed the best results on 168 watts of power treatment and 30 seconds with the results of mixing not bubbly and still looks tomato chunks and is not too smooth according to the standard beberuk food.


Keywords


Beberuk; Mixer Machine; Power; Time

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References


Andrini B.D., Adnyawati, D.M., Damiati, 2017, Identifikasi makanan tradisional khas Kabupaten Lombok Tengah, Nusa Tenggara Barat. Jurnal Bosaparis Pendidikan Kesejateraan Keluarga, 8(2), 26-31.

Ansar, Nazaruddin, 2018, Peningkatan produktivitas dan kualitas dodol nangka di Desa Suranadi Lombok Barat Nusa Tenggara Barat, Panrita Abdi-Jurnal Pengabdian pada Masyarakat, 2(2), 135-141.

Ansar, Sirajuddin, 2012, Model matematis kenaikan suhu pada butiran selama pengepresan pada pembuatan tablet effervescen buah markisa, Agritech, 32(4), 418-424.

Ariffudin S.D., Wulandari D., 2014. Perancangan sistem pemanas pada rancang bangun mesin pengaduk bahan baku sabun mandi cair, Jurnal Rekayasa Mesin, 1(2), 52-57.

Elga L.N., 2012, Perancangan alat pengaduk adonan bakery menggunakan motor DC 1/2 HP, Dairy Cattle Nutrition Work, 5(1), 34-41.

Haipa A.T., Nurlaela L., 2018, Kajian pengolahan dan penyajian ayam taliwang di kawasan wisata Gili Trawangan, Jurnal Tata Boga, 7(3), 310-316.

Herdian F., Jabbar R.J., Batubara F.Y., Zulnadi, Anas I., Yudistira, 2019, Rancang bangun alat pengaduk kerupuk adonan tipe horizontal, Journal of Applied Agricultural Science and Technology, 3(1), 157-165.

Hermawan R., Adib A., Wijayanti A., 2015, Perancangan promosi warung Taliwang Lombok di Surabaya, Jurnal DKW Adiwarna, 1(6), 231-238.

Irwan A., Syafri E., Evawati, Putera P., Prabawayuda E., 2015, Pembuatan dan uji kinerja mesin pengaduk adonan gelamai untuk peningkatan produksi gelamai, Jurnal Teknologi Pertanian Andalas, 19(1), 22-29.

Sanaji M., 2010, Wisata kuliner makanan daerah khas Lombok, Penerbit Gramedia Pustaka Utama, Jakarta.

Soegihardjo O., Aninditya, 2005, Perancangan mesin pembuat tepung tapioka, Jurnal Teknik Mesin, 7(1), 22-27.

Suteja I.W., Wahyuningsih S., 2018, Potensi kuliner lokal dalam menunjang cullinary tourism di kawasan ekonomi khusus Mandalika Kabupaten Lombok Tengah, Media Bina Ilmiah, 12(11), 737-744.

Tamami Y., Riandadari D., 2017, Analisa hasil pengadukan mesin pengaduk dodol dan jenang, Jurnal Rekayasa Mesin, 4(2), 89-93.

Tan M.C., Chin N.L., Yusof Y.A., 2012, A box-behnken design for determining the optimum experimental condition of cake batter mixing, Food Bioprocess Technology, 5(3), 972-982.

Thamrin T., Faiza D., Jasril I., 2017. Rancang bangun alat pengaduk bubur otomatis menggunakan sensor suhu berbasis Arduino Uno, Jurnal Teknologi Informasi dan Pendidikan, 10(3), 87-100.




DOI: https://doi.org/10.29303/dtm.v11i1.359

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Copyright (c) 2021 Ansar Ansar, Surya Muttalib, Rahmat Sabani, Rinda Kustina

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