Putra, Dhiki Handika Tama (2021) Peningkatan Kinerja Hybrid Sterilizer Ultraviolet Dan Ozon Untuk PM-01 Emergency Ventilator Sterilization Dengan Pendekatan Metode Task Scheduler. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Sterilisator sebagai alat sterilisasi produk PM-01 Emergency Ventilator teridentifikasi memiliki kinerja yang kurang optimal. Pertama, radiasi sinar ultraviolet terserap oleh ozon ketika tahap sterilisasi ultraviolet. Kedua, beberapa parameter sterilisasi diatur hanya berdasarkan perkiraan (tanpa ada standar yang diikuti). Ketiga atau terakhir, sterilisator sepenuhnya belum beroperasi secara otomatis yakni membutuhkan bantuan pengoperasian ketika proses disposal. Menggunakan pendekatan metode task scheduler dilakukan peningkatan kinerja dengan rancang bangun ulang sistem yang dapat mengoperasikan beberapa task (tahap sterilisasi) secara sekuensial dan otomatis selama 90 menit. Berdasarkan hasil pengujian, diambil sebuah kesimpulan bahwa pendekatan metode yang digunakan dapat diimplementasikan dan sterilisator beroperasi sesuai dengan harapan. Selain itu, pengujian bakteri membuktikan parameter terukur yang disesuaikan dengan standar, meliputi: radiasi minumum sinar ultraviolet 48 μW/cm², dosis sterilisasi ultraviolet 720 μWmin/cm², dan konsentrasi minimum sterilisasi ozon 1,2 ppm selama 14 menit, ini efektif dapat menghilangkan 99,9% mikroba (kecuali mikroba pada makanan dan minuman).
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The sterilizer as a means of sterilizing the PM-01 Emergency Ventilator product was identified as having a less than optimal performance. First, ultraviolet radiation is absorbed by ozone during the ultraviolet sterilization stage. Second, some sterilization parameters are set based on estimates only (without any standards being followed). Third or last, the sterilizer does not fully operate automatically, that is, it requires operational assistance during the disposal process. Using the task scheduler method approach, performance improvements were made by redesigning a system that can operate several tasks (sterilization stages) sequentially and automatically for 90 minutes. Based on the test results, a conclusion is drawn that the method approach used can be implemented and the sterilizer operates as expected. In addition, bacterial testing proved the measured parameters adjusted to the standard, including: minimum ultraviolet radiation 48 μWmin/cm², ultraviolet sterilization dose 720 μWmin/cm², and minimum sterilization concentration of 1,2 ppm ozone for 14 minutes, it can effectively remove 99,9% microbes (except microbes in food and beverages).
Item Type: | Thesis (Undergraduate) |
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Uncontrolled Keywords: | Otomatis, Sterilisator, Task Scheduler, Ultraviolet dan Ozon, Automatic, Sterilizer, Task Scheduler, Ultraviolet and Ozone |
Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK3070 Automatic control T Technology > TS Manufactures > TS171 Product design |
Divisions: | Faculty of Vocational > 36304-Automation Electronic Engineering |
Depositing User: | Dhiki Handika Tama Putra (DOBEL) |
Date Deposited: | 18 Aug 2021 01:33 |
Last Modified: | 18 Aug 2021 01:33 |
URI: | http://repository.its.ac.id/id/eprint/87467 |
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