[HTML][HTML] Photovoltaic–thermal advanced technology for real applications: Review and case study
This study analyzes research trends on photovoltaic–thermal (PVT) systems used in
buildings. The applications of PVT systems are also classified into system design, material …
buildings. The applications of PVT systems are also classified into system design, material …
[HTML][HTML] Recent advances and developments of the application of hybrid nanofluids in parabolic solar collector energy systems and guidelines for future prospects
This study addresses challenges in enhancing the thermal efficiency of parabolic solar
collector energy systems using hybrid nanofluids, focusing on issues like nanoparticle …
collector energy systems using hybrid nanofluids, focusing on issues like nanoparticle …
Machine learning model for transient exergy performance of a phase change material integrated-concentrated solar thermoelectric generator
Despite the merits of incorporating phase change materials in concentrating solar
thermoelectric generating systems, the following research gaps still need to be filled to make …
thermoelectric generating systems, the following research gaps still need to be filled to make …
[HTML][HTML] Outdoor experimental validation for ultra-high concentrator photovoltaic with serpentine-based cooling system
With demand for renewable energy growing, concentrator photovoltaic thermal hybrids have
great potential. Maximising concentration ratios through the deployment of multi-stage optics …
great potential. Maximising concentration ratios through the deployment of multi-stage optics …
[HTML][HTML] Indoor experimental analysis of Serpentine-Based cooling scheme for high concentration photovoltaic thermal systems
High concentration photovoltaic thermal hybrids are expected to play an important role in
meeting growing energy demands. When approaching concentrations over 1000 suns, a …
meeting growing energy demands. When approaching concentrations over 1000 suns, a …
Optical modeling of a cylindrical-hemispherical receiver for parabolic dish concentrator
Among all sub-systems of a solar thermal energy system, the receiver plays a significant role
when it gets heat energy from the concentrator. The reliability of such systems depends on …
when it gets heat energy from the concentrator. The reliability of such systems depends on …
Record high solar concentration ratio for photovoltaics: Experimental validation for achieving effective concentration of> 1200 suns
The optical ultra-high concentration ratio levels are still not demonstrated enough due to the
high complexity of the associated optical designs offering restricted angular freedom, and …
high complexity of the associated optical designs offering restricted angular freedom, and …
Perfect stabilisation of the electrical efficiency of a set of semi-transparent photovoltaic panels using a smart cooling system
The hybrid solar photovoltaic systems are among the most widely used photovoltaic systems
due to their high electrical efficiency. In this paper, a set of smart hybrid photovoltaic …
due to their high electrical efficiency. In this paper, a set of smart hybrid photovoltaic …
A critical review of the thermophysical properties and applications of carbon-based hybrid nanofluids in solar thermal systems
This review focuses on the potential of carbon-based hybrid nanofluids to enhance the
performance of solar thermal energy systems. Solar thermal technology is pivotal in …
performance of solar thermal energy systems. Solar thermal technology is pivotal in …
Optical efficiency and convective heat loss of a cylindrical-hemispherical receiver used in parabolic dish concentrator
The efficiency of the parabolic dish concentrator system is primarily affected by the
geometrical parameters of the receiver. To understand these effects, optical and thermal …
geometrical parameters of the receiver. To understand these effects, optical and thermal …