COMPOSITE CARBON-DOTS AND PVA FOR SOLAR EVAPORATION APPLICATION
Solar evaporator technology is a technology that uses heating and evaporating water to produce clean water. TO improve the performance of solar evaporator, a solar evaporator with an interfacial method is used where the substrate in the form of polyvinyl alcohol (PVA) mixed with carbon-dots as a...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/76898 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Solar evaporator technology is a technology that uses heating and evaporating water
to produce clean water. TO improve the performance of solar evaporator, a solar
evaporator with an interfacial method is used where the substrate in the form of
polyvinyl alcohol (PVA) mixed with carbon-dots as a photothermal material is
placed on the surface of the air to be evaporated. Carbon-dots product was
synthesized from precursor materials in the form of citric acid and urea which were
heated using microwaves. The aims of this study were to synthesize carbon-dots
with PVA, and evaluate the performance of a solar evaporator with an interfacial
system using CD/PVA/CA film as a solar absorber. The material characterization
carried out was UV-Vis, FTIR, water solubility test, and photothermal tests. Based
on UV-Vis tests conducted, carbon dots has a high absorbance in the UV to visible
light region and this high absorbance is still obtained when the carbon dot is
composited with PVA in the form of a film. The result of the water solubility test
are used to determine the mechanical properties of the film where when the film is
immersed, the film does not disintegrate and the carbon dot is not completely
removed. In addition, there is the addition of citric acid (CA) to make a film that
function as cross-link agents. FTIR test on CD/PVA/CA showed that there were
hydroxyl, aldehyde, and carbonyl groups. The photothermal test with the interfacial
system was carried out using a solar simulator with a light intensity of 1 kW/m2
(1
sun) resulting in an evaporation rate of 1.2 kg/m2
h and an efficiency of 75.33%. |
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