Add to ORKGA nanoparticles layer of bright nickel base was deposited on copper substrates using electrodeposition technique before spraying the paint. IR reflectance of the paint was found to be around 0.4 without bright nickel layer and the reflectance increased to 0.6 at a Ni layer thickness of 750 nm. The efficiency of the constructed solar collectors using black paint and black paint combined with bright nickel was found to be better than black paint individually. After aging tests under high temperature, Bright nickel improved the stability of the absorber paint. The collector optical gain FR(τα) was lowered by 24.7% for the commercial paint and lowered by 19.3% for the commercial paint combined with bright nickel. The overall heat loss FR(UL) wa...
Metal-ceramic nanocomposite films for solar absorbers have been obtained by electro-deposition techn...
Copyright © 2014 Stefano Pratesi et al. This is an open access article distributed under the Creativ...
Selective black nickel coatings with solar absorptance (αs = 0.94) and thermal emittance (ε = 0.08) ...
AbstractA nanoparticles layer of bright nickel base was deposited on copper substrates using electro...
AbstractA nanoparticles layer of bright nickel base was deposited on copper substrates using electro...
Kuwait Inst for Scientific Research, Safat, Kuwait;Kuwait Foundation for the Advancement of Sciences...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
Solar absorber coatings based on blackened electroless nickel are reported in this study. Such coati...
Selective black coatings are promising candidate for increasing the efficiency of solar collectors u...
Efficient conversion of solar energy into heat energy requires a selective absorber surface which ha...
This EngD Thesis investigated the addition of Near Infrared (NIR) absorbing pigments into pre-finish...
The development of spectrally selective materials is gaining an increasing role in solar thermal tec...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
Metal-ceramic nanocomposite films for solar absorbers have been obtained by electro-deposition techn...
Copyright © 2014 Stefano Pratesi et al. This is an open access article distributed under the Creativ...
Selective black nickel coatings with solar absorptance (αs = 0.94) and thermal emittance (ε = 0.08) ...
AbstractA nanoparticles layer of bright nickel base was deposited on copper substrates using electro...
AbstractA nanoparticles layer of bright nickel base was deposited on copper substrates using electro...
Kuwait Inst for Scientific Research, Safat, Kuwait;Kuwait Foundation for the Advancement of Sciences...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
Solar absorber coatings based on blackened electroless nickel are reported in this study. Such coati...
Selective black coatings are promising candidate for increasing the efficiency of solar collectors u...
Efficient conversion of solar energy into heat energy requires a selective absorber surface which ha...
This EngD Thesis investigated the addition of Near Infrared (NIR) absorbing pigments into pre-finish...
The development of spectrally selective materials is gaining an increasing role in solar thermal tec...
An ideal solar absorber surface coating must have good optical properties like high solar absorptanc...
Metal-ceramic nanocomposite films for solar absorbers have been obtained by electro-deposition techn...
Copyright © 2014 Stefano Pratesi et al. This is an open access article distributed under the Creativ...
Selective black nickel coatings with solar absorptance (αs = 0.94) and thermal emittance (ε = 0.08) ...