ANALISA UJI KINERJA WATER TANK CLEANING MACHINE BERKAPASITAS 500 LITER
ANALISA UJI KINERJA WATER TANK CLEANING MACHINE BERKAPASITAS 500 LITER
DOI:
https://doi.org/10.70746/jstunsada.v14i1.497Keywords:
ANALISA UJI KINERJA, RANCANG BANGUN, PENGEMBANGAN MESIN TANGKI AIR, WATER TANK CLEANING MACHINE BERKAPASITAS 500 LITERAbstract
Kebutuhan air bersih sangat di perlukan untuk minum namun apakah air yang kita minum bersih, masalah ini menjadi tugas kita untuk memahami air yang kita minum ketika dipompa dari tanah dan disimpan dalam tangki air apakah kebersihan tangki penyimpan aman dari virus dan bakteri, sehingga dalam penelitian ini menguji kinerja mesin pembersih tangki air berkapasitas 500 liter agar terhindar dari pencemaran. Pengujian kinerja pada mesin permbersih ini menggunakan motor penggerak ¼ Hp dengan kebutuhan daya poros penggerak 623,7 watt dengan putaran poros 1000 Rpm, sementara gaya gesek atau torsi yang di butuhkan pada poros pembersih 4.2 Nm pada putaran poros 1000 Rpm, sedangkan kecepatan waktu yang dibutuhkan untuk proses pembersih tangki yaitu 20 menit pada putaran poros 1000 Rpm.
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2. Artiola JF, Rock C, Fix G. Water storage tank disinfection, testing, and maintenance. 2012;
3. Pinfold J V. Faecal contamination of water and fingertip-rinses as a method for evaluating the effect of low-cost water supply and sanitation activities on faeco-oral disease transmission. I. A case study in rural north-east Thailand. Epidemiol Infect. 1990;105(2):363–75.
4. Chander A, Siddharth G, Kanth EK, Shadrack K, Vetrivezhan P. Design and Fabrication of Water Tank Cleaning Machine. Power. 2019;12:5.
5. Al-Omari A, Fayyad M, Jamrah A. Drinking water quality in roof storage tanks in the city of Amman, Jordan. Water Int. 2008;33(2):189–201.
6. Husen A, Yefri C, Jamaluddin P. KAJIAN DASAR MEKANISME MESIN PEMBERSIH TENGKI AIR SKALA 500 LITER. J Sains Teknol Fak Tek. 2016;6(1):1–8.
7. Rahman KM, Ehsani M. Performance analysis of electric motor drives for electric and hybrid electric vehicle applications. In: Power Electronics in Transportation. IEEE; 1996. p. 49–56.
8. De Almeida AT, Ferreira FJ, Fong JAC. Standards for efficiency of electric motors. IEEE Ind Appl Mag. 2010;17(1):12–9.
9. Ferdyanto F, Farha A, Julian J, Wahyuni F, Rizal R. Analisis Daya Keluaran pada Kinerja Motor Listrik Tipe Synchronous Berbasis Komputasional. TELKA-Jurnal Telekomun Elektron Komputasi dan Kontrol. 2023;9(2):107–16.
10. Lytton A, Torres R, Zabihian F. Comparative analysis of electric mowers. In: Proceedings of the 2015 ASEE North Central Section Conference. 2015.
11. Waide P, Brunner CU. Energy-efficiency policy opportunities for electric motor-driven systems. 2011;
12. Nizam M, Waloyo HT, Inayati I. Brushless Direct Current Electric Motor Design with Minimum Cogging Torque. In: 1st International Conference on Electrical Engineering, Computer Science and Informatics 2014. Institute of Advanced Engineering and Science; 2014.
13. Güemes JA, Iraolagoitia AM, Del Hoyo JI, Fernandez P. Torque analysis in permanent-magnet synchronous motors: A comparative study. IEEE Trans energy Convers. 2010;26(1):55–63.
14. Ehsani M, Gao Y, Gay S. Characterization of electric motor drives for traction applications. In: IECON’03 29th Annual Conference of the IEEE Industrial Electronics Society (IEEE Cat No 03CH37468). IEEE; 2003. p. 891–6.
15. Ramachandran A, Iyer A, Iyer S, Mudaliyar V, Ahmed S. Design and Fabrication of Automatic Water Tank Cleaning Machine.
16. Parth C, Biren D, Harsh P, Rajput GS. Smart water tank cleaning machine for household applications. Int Res J Eng Technol. 2019;6(04):56–2395.
17. Arajpure VG. Intelligent Based Design And Development of Overhead Water Tank Cleaning Machine. 2021;
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Published
2024-08-22
How to Cite
Wiradinata, T. A., Asbanu, H., Esye, Y., & Chan, Y. (2024). ANALISA UJI KINERJA WATER TANK CLEANING MACHINE BERKAPASITAS 500 LITER: ANALISA UJI KINERJA WATER TANK CLEANING MACHINE BERKAPASITAS 500 LITER. Jurnal Sains & Teknologi Fakultas Teknik Universitas Darma Persada, 14(1), 57–64. https://doi.org/10.70746/jstunsada.v14i1.497
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