Design and Build of a Solar Panel Integration Dryer and Temperature Controller with Autocad Inventor
Rancang Bangun Alat Pengering Integrasi Panel Surya dan Pengontrol Suhu Dengan Autocad Inventor
Abstract
Drying is a mandatory process carried out after harvest or production. Direct drying is a traditional method that is still used today, but this method has drawbacks because it depends on the weather. Pests, the rainy season, and at night are obstacles experienced in this process. This dryer can help solve common solutions for manufacturers. A dryer coated with clear acrylic it can protect the produce from rain, dust, and pests. The solar panel functions as a power source for the temperature controller in the dryer. 40-50 C is the right temperature when drying, it is not recommended that temperatures exceed 50 because it can cause dry food ingredients outside. Incandescent lamps and mini fans are temperature control devices to stabilize the temperature inside with temperatures of 40 ̊ to 50 C. Incandescent lamps also allow manufacturers to dry at night so that the drying process can be shorter than usual. The result found by the dryer is that it has a cross-sectional area of 2100 cm2 with a maximum capacity of 13 pieces with a diameter of 7 cm. The drying rate with the sun reaches 0.6% per hour, and the energy needed by the sun for 10 hours of drying is 36288 kJ. The power that can be produced by solar panels is 100 watts with the electrical energy needed for 10 hours of drying with a controller of 3600J.
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References
Mukkun, Y. (2016). PEMBUATAN ALAT PENGERING IKAN RAMAH LINGKUNGAN DENGAN MENGGUNAKAN PANEL SURYA. Jurnal Ilmiah FLASH Volume 2 Nomor 2 , 47. DOI: https://doi.org/10.32511/jiflash.v2i2.25
Sari Farah Dina, F. H. (2013). KAJIAN BERBAGAI METODE PENGERINGAN UNTUK PENINGKATAN MUTU BIJI KAKAO INDONESIA. Jurnal Riset Industri Vol. 7 No.1, 37.
Shafiudin, S. (2016). PEMANTAUAN RUANG INKUBATOR PENETASAN TELUR AYAM DENGAN BERBASIS TELEMETRI MENGGUNAKANARDUINO UNO R3. Jurnal Nasional Teknik Elektro Vol: 5, No. 1, 28-29. DOI: https://doi.org/10.20449/jnte.v5i1.181
Wening, T. (2020, Agustus 13). Rangkuman dan Soal Keliling Bangun Datar: Persegi, Persegi Panjang, Segitiga. Dipetik Maret 6, 2021, dari Bobo.id: https://bobo.grid.id/read/082287911/rangkuman-dan-soal-keliling-bangun-datar-persegi-persegi-panjang-segitiga-materi-belajar-dari-rumah-tvri-kelas-4-6?page=all
Wilhelm, L. R. (2005). Food & process engineering technology. Milwaukee: St. Joseph, MI : American Society of Agricultural Engineers
Hardoko. (2018). KONVERSI IKAN ASIN MENJADI NUGGET BERSERAT PANGAN DENGAN TAMBAHAN AMPAS TAHU DAN BEBERAPA JENIS BINDER. JPHPI 2018, Volume 21 Nomor 1, 55. DOI: https://doi.org/10.17844/jphpi.v21i1.21262
Firmansyah Burlian, A. F. (2011). KAJI EKSPERIMENTAL ALAT PENGERING KERUPUK TENAGA SURYA TIPE BOX MENGGUNAKAN KOSENTRATOR CERMIN DATAR. Prosiding Seminar Nasional AVoER ke-3, 99.
Rahardjo, I. (2010). ANALISIS POTENSI PEMBANGKIT LISTRIK TENAGA SURYA DI INDONESIA . Strategi Penyediaan Listrik Nasional Dalam Rangka Mengantisipasi Pemanfaatan, 43
Panggabean, T. (2017). Kinerja Pengeringan Gabah Menggunakan Alat Pengering Tipe Rak dengan Energi Surya, Biomassa, dan Kombinasi . AGRITECH, Vol. 37, No. 2, 231. DOI: https://doi.org/10.22146/agritech.25989