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Electrical Efficiency Increase in CPVT Collectors by Spectral Splitting
Alois Resch
,
Robert Höller
ASiC
Center of Excellence Energy
Research Center Wels
Research output
:
Contribution to journal
›
Article
›
peer-review
3
Citations (Scopus)
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Keyphrases
Spectral Splitting
100%
Efficiency Increase
100%
Concentrated Photovoltaic Thermal
100%
Electrical Efficiency
100%
Photovoltaic Thermal Collector
100%
Waste Heat
50%
Thermal Receiver
50%
Photovoltaic Cells
50%
Heat Dissipation
50%
Low Temperature
25%
High Efficiency
25%
High Temperature
25%
Heat Transfer Fluid
25%
Modeling Methodology
25%
Semiconductors
25%
C-Si
25%
Industrial Waste Heat
25%
Cadmium Telluride
25%
Single Receiver
25%
Cell Temperature
25%
Configuration Optimization
25%
Concentration Cell
25%
Thin-film PV
25%
Electrical Performance Parameters
25%
Concentration Factor
25%
Temperature Requirements
25%
Receiver Design
25%
Theoretical Efficiency
25%
CIGS Solar Cells
25%
Wavelength Spectrum
25%
Thermal Performance Factor
25%
PV Technologies
25%
Conversion Efficiency
25%
Doped Glass
25%
Engineering
Photovoltaics
100%
Electrical Efficiency
100%
Thermal Collector
100%
Heat Losses
50%
Thin Films
25%
Low-Temperature
25%
Heat Transfer Fluid
25%
Cell Temperature
25%
Thermal Performance
25%
Electrical Performance
25%
Performance Parameter
25%
Conversion Efficiency
25%
Selected Wavelength
25%
Doped Glass
25%
Concentration Factor
25%