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All Journal Jurnal Teknik Elektro Universitas Tanjungpura Communications in Science and Technology
Gumilar, Desisius
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Electrical & Electronics Engineering Engineering

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RANCANG BANGUN KONTROLER UNTUK PENGISIAN BATERAI PADA PEMBANGKIT LISTRIK TENAGA BAYU (PLTB) SKALA MIKRO Gumilar, Desisius; Hadary, Ferry; Hartoyo, Aryanto
Jurnal Teknik Elektro Universitas Tanjungpura Vol 1, No 1 (2020): Jurnal S1 Teknik Elektro UNTAN
Publisher : Fakultas Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (645.071 KB)

Abstract

Tingginya konsumsi energi listrik saat ini tidak sebanding dengan ketersediaan listrik, terutama di daerah 3T (daerah tertinggal, terdepan dan terluar) di Indonesia. Oleh karena itu alternatif untuk dapat mengatasi masalah ini adalah dengan membangun pembangkit listrik energi terbarukan, seperti Pembangkit Listrik Tenaga Bayu (PLTB).Proses konversi energi pada pembangkit listrik tenaga bayu skala mikro terjadi jika energi listrik yang dihasilkan oleh generator dikonversi dari tegangan AC menjadi DC dengan menggunakan kontroler pengisian baterai. Kontroler pengisisian baterai dikendalikan oleh mikrokontroler untuk mengatur besarnya tegangan dan arus yang akan masuk ke baterai serta memproteksi baterai dan komponen lainnya dari kerusakan.Pada penelitian hasil pengujian kontroler pembangkit listrik tenaga bayu dengan rata-rata daya input sebesar 23,90 W menghasilkan daya output sebesar 15,46 W sehingga kontroler yang dirancang memiliki rata-rata efisiensi sebesar 66,35%.
Peat water electrocoagulator design with aluminium electrodes in household scale for cleaning water supply Hadary, Ferry; Rezeki, Sri; Hansen; Dewi, Sri Utari Shinta; Alana, Darul Giring; Anindito, Adith; Yulianto, Supi; Gumilar, Desisius; Putri, Lisa Astridni
Communications in Science and Technology Vol 10 No 1 (2025)
Publisher : Komunitas Ilmuwan dan Profesional Muslim Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21924/cst.10.1.2025.1694

Abstract

The peat water studied contained colour, turbidity, organic substances, and iron that were sufficient to be analysed for the use of electrocoagulation. The aluminium electrodes were contacted with peat water by varying electrode plates, sedimentation time, electrolyte concentration, stirring speed, and contact time to produce clean water. The results showed that the electrocoagulator with the 3 pairs of electrode plates, 60-minute sedimentation time, 75 g NaCl electrolyte concentration, stirring speed at 75 rpm, and 60-minute electrocoagulation time was the most optimal variation. The results showed that the electrocoagulation method was able to reduce the pollutant levels in peat water. The results of this treatment also met the standards of the Ministry of Health and based on the calculation of cost incurred by the electrocoagulation method, i.e. $ 0.154/day, $ 4.641/month and $ 55.693/year.
Co-Authors Alana, Darul Giring Anindito, Adith Aryanto Hartoyo Dewi, Sri Utari Shinta Hadary, Ferry Hadary, Ferry Hansen Putri, Lisa Astridni Sri Rezeki Yulianto, Supi