Design and Modification of Copper Oxide Electrodes for Improving Conversion Coefficient Indoors Lights (PV-Cell) Photocells

Zainul, Rahadian (2016) Design and Modification of Copper Oxide Electrodes for Improving Conversion Coefficient Indoors Lights (PV-Cell) Photocells. Der Pharma Chemica, 8 (19). pp. 338-395. ISSN 0975-413x (Unpublished)

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Abstract

This research aims to investigate photocells reactor design can convert indoor lights energy into electrical energy.Indoor lights comes from sunlight entering into the room and fluorescent light irradiation. Design of photocells reactor use a panel of copper oxide (Cu2 O/CuO) of calcined Cu plate and filler electrolyte Na 0.5 N.Modification of electrode by n-p junction layer, which one of section (n) and the others section (p).hotocellsreactor was constructed by thickness of the glass pane, the distance between the electrodes, the interface layer,layer and coating reflector panels. In this research there are three design of photocells reactor, The first design is, R the thickness of the glass panel 3 mm thick reactor 15 mm without anti reflector. In this design, there are two type based on the difference at the junction of type n, (R 11a = plate Cu; R = plate Aluminum) generate 182.82 mW/m2 and 21119644.3 NW/m 2 . Than, the second design of photocells reactor is R 1b (junction-type n = plate Cu) and R 2b 2a (junction-type n = plate Al), a panel thickness of 15 mm and has a layer anti reflector provide power 214.95 mW/m 2 and 24163298.3 NW/m2.The last design of photocells reactor is R 3 (R 3a = Cu) and R (Al), thickness of 9 mm, the distance between the electrodes 0.30 mm, using anti reflector carbon, giving each the power of 277.36 mW/m2 and 31258420.91 NW/m 2 . The most optimum reactor design is R with 2:14% conversion capabilities (Intensity = 90.21 foot candles) for indoor lights.

Item Type: Article
Subjects: Q Science > QD Chemistry
Divisions: Fakultas Matematika dan Ilmu Pengetahuan Alam > Kimia - S1
Depositing User: Mrs. Wiwi Sartika
Date Deposited: 19 Dec 2016 04:23
Last Modified: 07 Oct 2019 10:05
URI: http://repository.unp.ac.id/id/eprint/607

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