PENERAPAN TEKNOLOGI TEPAT GUNA SEBAGAI PENINGKATAN KAPASITAS MESIN PENGAYAK PASIR TIPE ROTARY DAN USAHA DUSUN TANGGALAN, KABUPATEN KARANGANYAR
Abstract
The increasing of infrastructure development causing in increased demand for sand material. On the other hand, the sand still contains many other components such as gravel. The size of good sand according to the Indonesian National Standard (SNI - 03-247-2002) is natural or artificial sand produced by the stone crusher industry with the largest grain size of 5 mm. On the other hand, the lack of infrastructure of the Tanggalan vilage and the small income of the village has resulted in an uneven distribution of the regional economy. Youths and heads of the Tanggalan village see the potential to increase the village's income by making sieving businesses and providing good quality building sand. The manual sieving process takes longer, so it has an impact on the development process as well as from an economic point of view on the long construction costs. So, it is necessary to have a rotary type automatic sieving machine that has a function to separate fine sand grains or according to the criteria requested by consumers with gravel. Rotary type sieving machine with a capacity of 10 m3/hour, so it is expected to meet the demand and accelerating development process. In addition, with this tool, hamlet businesses can be formed to increase hamlet income.
Key words: Business, Enhancement, National Standard, Rotary, Sand Sieve.
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Aditya, C., Silviana, & Hermawati, A. (2018). Mesin ayakan getar tipe excentric sebagai pengayak butiran marmer dan batu alam pada produksi industri teraso dari limbah batu alam di kabupaten tulungagung. PEDULI: Jurnal Ilmiah Pengabdian Pada Masyarakat, 2(2), 22–31. https://doi.org/https://doi.org/10.37303/peduli.v2i2.79
Alqadri, R. (2019). Pengujian mesin ayakan pasir dengan kapasitas dua kubik pasir perjam. Politeknik Negeri Padang.
Aprilman, D. (2019). Analisa efisiensi mesin pengayak pasir dengan tenaga motor bakar daya 5,5 hp. Jurnal Teknik Mesin, 5(1), 15–23.
Arifin, Z., Prasetyo, S. D., Triyono, T., Harsito, C., & Yuniastuti, E. (2020). Rancang bangun mesin pencacah limbah kotoran sapi. Rekayasa Mesin, 11(2), 187–197. https://doi.org/https://doi.org/10.21776/ub.jrm.2020.011.02.6
Arifin, Z., Triyono, T., Harsito, C., Prasetyo, S. D., & Yuniastuti, E. (2019). Pengolahan limbah kotoran sapi dan onggok pati aren menjadi pupuk organik. Prosiding Seminar Nasional Pengabdian kepada Masyarakat, 191–196.
Badan Standardisasi Nasional. (2002). Tata cara perhitungan struktur beton untuk bangunan gedung. SNI 03-2847-2002. In SNI 03-2847-2002.
Cahyono, A. I., Qiram, I., & Rubiono, G. (2019). Pengaruh sudut kemiringan dan kecepatan putaran saringan pada unjuk kerja mesin pengayak pasir tipe rotary. V-MAC (Virtual of Mechanical Engineering Article), 4(1), 7–9.
Fattah, F. (2017). Rancang bangun alat pengayak pasir otomatis. Motor Bakar: Jurnal Teknik Mesin, 01(1), 1–17.
Mott, R. L., & Tang, J. (2004). Machine elements in mechanical design (Vol. 4). Pearson Prentice Hall Upper Saddle River.
Perdana, A., & Rusdiyantoro, R. (2013). Ancangan pembuatan mesin pengayak pasir untuk meningkatkan produktivitas kerja operator. WAKTU, 11(2), 41–46.
Prasetyo, S. D., & Harsito, C. (2019). Energy consumption of spray dryer machine for producing red natural powder dye and its stability energy consumption of spray dryer machine for producing red natural powder dye and its stability. AIP Conference Proceedings, 2097(1) 030076(April), 1–7. https://doi.org/10.1063/1.5098251
Riwu, T. A., & Mali, A. W. T. S. (2020). Pengaturan kecepatan motor 3 phase pada mesin ayak pasir. Universitas 17 Agustus 1945 Surabaya.
Sateria, A., Yudo, E., Zulfitriyanto, Z., Sugiyarto, S., Melati, R., Saputra, B. E., & Naufal, I. (2019). Rancang bangun mesin pengayak pasir untuk meningkatkan produktivitas pengayakan pasir pada pekerja bangunan. Manutech: Jurnal Teknologi Manufaktur, 11(01), 8–13.
Siahaan, E. W. B. (2018). Perancangan mesin pengayak pasir dengan kapasitas 6,5 m3/jam. Jurnal Darma Agung, XXVI(1), 460–475.
Tjahjana, D. D. D. P., Hadi, S., Wicaksono, Y. A., Kurniawati, D. M., Fahrudin, Utomo, I. S., Cahyono, S. I., & Prasetyo, A. (2019). Study on performance improvement of the savonius wind turbine for urban power system with omni-directional guide vane (ODGV). Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 55(1), 126–135.
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