Penerapan Sistem Daya Cadangan Untuk Lemari Vaksin Menggunakan PLTS Pada Puskesmas Sindangbarang Bogor

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Hasna Satya Dini
Muhamamd Imbarothur Mowaviq
Sugeng Purwanto
Andi Junaidi
Pawenary Pawenary
Sofitri Rahayu

Abstract

The temperature stability of the vaccine needs to be designed in such a way as to maintain its quality. Where vaccines are generally placed in a special refrigerator with an internal temperature of around +20C - +80C. The condition of the electricity network in the Bogor area, which sometimes goes out for a long time can cause electricity to not be supplied for vaccine refrigerators. For a long period of time, this condition can cause damage to the vaccine so that it cannot be given to toddlers. This activity is the application of technology that is very useful for the people of the Bogor, especially for the Sindangbarang Health Center in Bogor related to the design of power reserves, especially for vaccine refrigerators. This power backup system uses various equipment with appropriate technology such as Automatic Transfer Switch (ATS), solar panels, inverters, batteries, solar charge controllers and other supporting equipment. This PKM program has a focus on managing backup power systems in vaccine cabinets using solar power plants

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References

[1] Kemenkes, Peraturan Menteri Kesehatan Republik Indonesia Nomoe 75 Tahun 2014. 2014.
[2] K. T. Mauriraya, R. Afrianda, A. Fernandes, A. Makkulau, D. P. Sari, and N. Kurniasih, “Edukasi Pemanfaatan PLTS untuk Penerangan Jalan Umum Di Desa Cilatak Kecamatan Ciomas Kabupaten Serang Banten,” Terang, vol. 3, no. 1, pp. 92–99, 2020.
[3] Y. Simamora, A. Senen, T. W. Oktaviana Putri, and D. Anggaini, “Rancang Bangun Lampu Jalan Tenaga Surya Pada Jembatan Penghubung Desa Di Kabupaten Lebak Banten,” Terang, vol. 2, no. 2, pp. 160–168, 2020.
[4] S. Azzahra, S. Samsurizal, C. Christiono, and M. Fikri, “Pemasangan Lampu Jalan dan Pembangunan Pembangkit Listrik Berbasis Solar Cell Sebagai Prototype Pembelajaran Energi Terbarukan Di MA Al-Khairiyah Rancaranji,” Terang, vol. 3, no. 1, pp. 100–105, 2020.
[5] A. Senen, “Perancangan Pemanfaatan Tenaga Surya untuk Penyaluran Air Bersih Bagi Pesantren Attuma’ninah Kab. Lebak, Banten,” Terang, vol. 3, no. 1, pp. 1–9, 2020.
[6] D. P. Sari, N. Kurniasih, and A. Fernandes, “Pemanfaatan Listrik Tenaga Surya Sebagai Pasokan Listrik Untuk Menghidupkan Mesin Pompa Air Masyarakat Dusun Cilatak, Desa Sukadana, Kecamatan Ciomas, Kabupaten Serang, Banten,” Terang, vol. 3, no. 1, pp. 68–79, 2020.