Image of Kaji Eksperimental Pembangkit Energi Listrik Memanfaatkan Penyerapan Panas Jalan Beton Menggunakan Teknologi Termoelektrik Generator (Teg) Dengan Pelat Penyerap Tembaga Berbentuk I
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Kaji Eksperimental Pembangkit Energi Listrik Memanfaatkan Penyerapan Panas Jalan Beton Menggunakan Teknologi Termoelektrik Generator (Teg) Dengan Pelat Penyerap Tembaga Berbentuk I

ABSTRACT
Heat energy is energy that can be easily found in our daily lives, starting from the
heat provided by nature, namely from the sun's heat, heat from chemical reactions,
and heat generated by mechanical friction. If this heat energy can be converted into
electrical energy, it will certainly be able to help meet the increasing energy needs.
Thermoelectric generator is a technology that can convert heat energy into
electrical energy based on the seebeck effect. This research was carried out by
utilizing the absorption of solar radiation heat on a concrete road with class III
cast concrete type with K 450 and asphalt type AC-WC as a thermoelectric
generator placed on a medium with dimensions (550 x 300 x 100) mm. The study
used 3 modules of the SP 1848 thermoelectric generator type arranged in series, a
heat sink filled with water and a copper plate in the form of I as an absorbent plate
and heat transfer from concrete and asphalt to TEG. The results of the tests
conducted show that the maximum power generated in the concrete produces a
power of 14.88 mW while using asphalt produces a maximum power of 42 mW with
a maximum solar radiation intensity of 1107 W / m2. The results of this test indicate
that asphalt is better used than using concrete because it produces greater power.
By looking at the power generated continuously, this research allows it to be
developed as an alternative energy.
Keywords: Thermal Energy, Thermoelectric Generator, Alternative, Solar Radiation

Ketersediaan
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Perpustakaan Universitas Riau 07 03. 121 (0018)
07 03. 121 (0018)
Tersedia
Informasi Detail
Judul Seri
-
No. Panggil
07 03. 121 (0018)
Penerbit
Pekanbaru : Universitas Riau – Fakultas Teknik – Teknik Mesin.,
Deskripsi Fisik
xii, 29 hlm.; ill.: 29 cm
Bahasa
Indonesia
ISBN/ISSN
-
Klasifikasi
07 03. 121 (0018)
Tipe Isi
-
Tipe Media
-
Tipe Pembawa
-
Edisi
-
Subjek
TEKNIK MESIN
Info Detail Spesifik
-
Pernyataan Tanggungjawab
Versi lain/terkait

Tidak tersedia versi lain

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