Hot Water Looping System to Control Temperature of Drug Production Based Arduino Sistem Looping Hot Water Untuk Mengatur Suhu Ruang Produksi Obat Berbasis Arduino
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Abstract
The temperature regulation in the drug production room is intended as a way to maintain the quality of the drug in accordance with the Good Manufacturing Practices (CPOB). In order to regulate the room temperature, one of the supporters is hot water. So a looping hot water system is needed which will be circulated to the AHU (Air Handling Unit) machine. To get hot water that is circulated automatically, a looping hot water system is made. This control system is made using Arduino Uno as a controller for the looping hot water system which will later control all supporting devices, the HC-SR04 ultrasonic sensor to read the water level in the tank, the DS18B20 sensor to read the water temperature, 16x2 LCD, 4x4 keypad, relays, heating components and a pump to fill the water tank automatically and circulate hot water. From the test results of installing this system with 5 times of data collection, it can be seen that the process of filling the water tank, water heating, and water circulation is going well with the accuracy of the ultrasonic sensor HC-SR04 reaching 96% and the DS18B20 sensor having an accuracy rate of up to 97%. Results This can make the drug production process run well because the room temperature is maintained.
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References
[2] R. Saputra and Abdunnaser, “Perancangan Instalasi Tata Udara Ruang Bersih Area Penimbangan Pada Industri Farmasi Kelas E,” Bina Tek., vol. 14, no. Juni 2018, pp. 37–46, 2018.
[3] S. Cipta and K. Informatika, “Jurnal Sosial dan Teknologi (SOSTECH) RUANGAN PENYIMPANAN OBAT BERBASIS INTERNET OF THINGS ( IoT ) Diterima : Direvisi : Disetujui : Implementasi Sistem Monitoring Suhu dan Kelembapan e-ISSN 2774-5155 Ruangan Penyimpanan Obat Berbasis Internet of Things,” vol. 1, no. 9, pp. 21–28, 2021.
[4] M. Cook, “Basic Arduino,” Arduino Music Audio Proj., pp. 3–30, 2015, doi: 10.1007/978-1-4842-1721- 4_1.
[5] D. Purnomo, B. Irawan, and Y. Brianorman, “Jurnal Coding Sistem Komputer Untan Jurnal Coding Sistem Komputer Untan ISSN : 2338-493X,” Sist. Pakar Diagnosa Penyakit Pada Kucing Menggunakan Metod. Demster-Shafer Berbas. Android, vol. 05, no. 1, pp. 45–55, 2017.
[6] R. S. V. Simbar and A. Syahrin, “Prototype Sistem Monitoring Temperatur Menggunakan Arduino Uno R3 Dengan Komunikasi Wireless,” J. Teknol. Elektro, vol. 8, no. 1, pp. 80–86, 2017, doi: 10.22441/jte.v8i1.1381.
[7] R. Triady and D. Triyanto, “Prototipe Sistem Keran Air Otomatis Berbasis Sensor Flowmeter pada Gedung Bertingkat,” J. Coding Sist. Komput. Untan, vol. 03, no. 3, pp. 25–34, 2015.
[8] D. A. O. Turang, “Pengembangan Sistem Relay Pengendalian Dan Penghematan Pemakaian Lampu Berbasis Mobile,” Semin. Nas. Inform., no. October, pp. 75–80, 2015, [Online]. Available: http://103- 23-20-161.isi.cloud.id/index.php/semnasif/article/view/1368.
[9] M. F. A. Hanur, “Rancang Bangun Alat Pemutus KWH Meter Sebagai Proteksi Berbasis Arduino,” p. 54, 2016.
[10] N. C. Makasenggehe, B. Narasiang, S. R. U. Sompie, and Bahrun, “Perancangan Power Supply Digital Berbasis Mikrokontroler Menggunakan Keypad Sebagai Pemilih Tegangan,” E-Journal Tek. Elektro Dan Komput., vol. 1, no. 1, pp. 1–6, 2012.
[11] R. Bangun et al., “Rancang bangun pemanas air pintar berbasis mikrokontroler,” J. Edukasi Elektro, vol. 8, no. 2, p. 88, 2017, [Online]. Available: https://www.journal.unimal.ac.id/miej/article/view/375.
[12] T. A. Siswanto and M. A. Rony, “Aplikasi Monitoring Suhu Air Untuk Budidaya Ikan Koi Dengan Menggunakan Mikrokontroller Arduino Nano Sensor Suhu Ds18B20 Waterproof Dan Peltier Tec1- 12706 Pada Dunia Koi,” Skanika, vol. 1, no. 1, pp. 40–46, 2018.
[13] E. Dewanto and J. Yoseph, “Tandon Air Otomatis Dengan Sistem Monitoring Melalui Android Berbasis Arduino Uno,” Autocracy, vol. 5, no. 1, pp. 8–16, 2018, doi: 10.21009/autocracy.05.1.2.
[14] Abdul Tahir, “Otomatisasi Pengisian Tangki Air Dengan Visualisasi Menggunakan Pemmrograman Visual Basik,” J. Ilm. Media Process., vol. 10, no. 1, p. 332, 2015.