Analysis Of The Work Effectiveness of Automatic Bage Fish Dryer With The Addition Of A Dehumidifier, Exhaust Fan And Air Ventilation In The Electrical Laboratory Of Sumbawa University Of Technology
DOI:
https://doi.org/10.51401/altron.v2i02.3239Keywords:
Dehumidifier, Exhaust Fan, and Air Ventilation.Abstract
The automatic bage fish dryer designed by Ari Kurniawan in 2022 has several shortcomings. One of them is the temperature of the drying room, which is not stable based on the predetermined set point, namely 60 C, and the drying room is still too humid, as a result of which the fish does not dry completely. So, in this study researchers improved the problem of temperature stability and humidity levels by adding a Dehumidifier, an exhaust fan, and Air Ventilation. Researchers used experimental quantitative research methods to facilitate the research process. The results obtained after the addition of the Dehumidifier, Exhaust Fan, and Air Ventilation provide temperature stability in the automatic bage fish dryer of 60 C with the smallest level of humidity reduction of 16% RH.
References
Anjani, Anastasia. (2021). 10 Negara Kepulauan Terbesar di Dunia, Salah Satunya Indonesia. Retrieved from https://www.detik.com/edu/detikp edia/d-5679064/10-negara- kepulauan-terbesar-di-dunia-salah-satunya-indonesia
Lukmansyah, S. F., Sumaryo, S., & Susanto, E. (2019). Pengembangan Sistem Pengeringan Ikan Asin Otomatis Dengan. E-Proceeding of Engineering, 6(2), 2786–2793.
Andriani, T., Darmawan, I., Jaya, A., & Topan, P. A. (2021). Rancang Bangun Alat Pengering Ikan Bage Otomatis Menggunakan Sensor SHT11 dan Real Time Clock. Dielektrika, 8(2), 126–130.
Herawan, A., & Fauzi, A. (2018). Detektor Sensor Sht11 Sebagai Monitoring Suhu Dan Kelembaban Ruang Berbasis Mikrokontroler Atmega16a Di-Smart Avr System. Setrum?: Sistem Kendali-Tenaga-Elektronika-Telekomunikasi-Komputer, 7(1), 36. https://doi.org/10.36055/setrum.v7i1.3295
Jusman, M. R. R., Masita, S., & Dzarfaraby, M. (2021). Sistem Kontrol & Monitoring Mesin Penetas Telur Berbasis IoT (Internet Of Things). Mechatronics Journal In Professional and Entreprenuer, 3(2), 64–71.
Kurniawan, A., Andriani, T., Darmawan, I., & ... (2022). Aplikasi Sensor Sht11 Dan Soft Start Pada Alat Pengering Ikan Bage Otomatis. Journal Altron; Journal …, 1(1), 18–24. http://www.jurnal.uts.ac.id/index.php/Altron/article/view/1707%0Ahttp://www.jurnal.uts.ac.id/index.php/Altron/article/download/1707/1023
Hammam, M., Feriansah, A., & Muhammadiyah Pekajangan Pekalongan Jl Raya Pahlawan No Gejlig -Kajen Kab Pekalongan, U. (2020). 32 Rancang Bangun Uninterruptible Power Supply (Ups) Berkapasitas Daya 1500 Watt Dengan Sistem Soft Start Studi Kasus?: Laboratorium Sistem Kelistrikan SMSI Teknik Elektronika. 5(1), 32–45. https://jurnal.umpp.ac.id/index.php/cahaya_bagaskara/index
Yunas, R. P., & Pulungan, A. B. (2020). Sistem Kendali Suhu dan Kelembaban pada Proses Fermentasi Tempe. JTEV (Jurnal Teknik Elektro Dan Vokasional), 6(1), 103. https://doi.org/10.24036/jtev.v6i1.106943
Aulia, M., Topan, P. A., Andriani, T., Maulidyawati, D., Studi, P., Elektro, T., Sumbawa, U. T., & Besar, S. (2022). Implementasi Sistem Kendali Proposional Integral Derivatif ( PID ) pada Porototype Pendeteksi Brightness Cahaya Ruangan Implementation of Proportional Integral Derivative ( PID ) Control System in Room Brightness Detection Prototype. 4(2), 217–230. https://doi.org/10.30812/bite.v4i2.2129
Hafidhin, M. I., Saputra, A., Ramanto, Y., & Samsugi, S. (2020). Arduino UNO. 1(2), 59–66.
Subagyo, L. A., & Suprianto, B. (2017). Sistem Monitoring Arus Tidak Seimbang 3 Fasa Berbasis Arduino Uno. Jurnal Teknik Elektro, 6(3), 213–221.
Adrean, S., & Yulia Putri, S. (2013). Sistem Kunci Otomatis Berbasis Arduino Uno Di Pt Jayasegar Berkat Mandiri 1Syachri. Paper Knowledge. Toward a Media History of Documents, 12–26.
Sihopong Parlindungan Siregar, R., Riza Pahlevi, M., Studi Sistem Komputer, P., Ilmu Kmputer, F., & Dinamika Bangsa Jambi Jl Jendral Sudirman, U. (2021). Jurnal Informatika Dan Rekayasa Komputer (JAKAKOM) Rancang Bangun Pendeteksi Pelanggaran Lampu Lalu Lintas Berbasis Mikrokontroler Dan Sms Gateway. 1(1), 2808–5469. http://ejournal.unama.ac.id/index.php/jakakom
Sangian, J. R., Poekoel, V. C., Litouw, J., & Robot, R. F. (2019). Pengendalian Kelembaban Ruang Pengering Hibrida Pada Proses Pengeringan Bawang Merah. Teknik Elektro Dan Komputer, 8(2), 51–58.
Amran, Romi Syahdam (2018) Pengaruh Luas Ventilasi Udara Terhadap Laju Pengeringan Pada Alat Pengering Ikan lele Dengan Kapasitas 30 kg. Thesis, Universitas Islam Riau. https://repository.uir.ac.id/4770/
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