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A unified approach to the thermodynamics of a photovoltaic system
Ido Frenkel, Avi Niv
The Swiss Institute for Dryland Environmental and Energy Research
Research output
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Working paper/Preprint
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Preprint
27
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Dive into the research topics of 'A unified approach to the thermodynamics of a photovoltaic system'. Together they form a unique fingerprint.
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Keyphrases
Thermodynamics
100%
Unified Approach
100%
Photovoltaic System
100%
Law
50%
Light-matter Interaction
50%
First Law of Thermodynamics
50%
Inconsistency
50%
Emissivity
50%
Chemical Potential
50%
Solar Energy Conversion
50%
Renewable Energy Technologies
50%
Radiative Cooling
50%
Elevated Temperature
50%
Detailed Balance
50%
Second Law of Thermodynamics
50%
Macroscopic Object
50%
Photovoltaic Effect
50%
Laws of Thermodynamics
50%
Radiative Processes
50%
Universal Truth
50%
Thermophotonics
50%
Thermoradiative
50%
Engineering
Photovoltaics
100%
Photovoltaic System
100%
Laws of Thermodynamics
100%
Solar Energy
50%
Power Conversion
50%
Chemical Potential
50%
Limiting Factor
50%
Elevated Temperature
50%
Emissivity
50%
Photovoltaic Effect
50%
Renewable Energy Technologies
50%
Physics
Emissivity
100%
Photovoltaic Effect
100%
Renewable Energy
100%
Second Law of Thermodynamics
100%
Energy Technology
100%
Detailed balance
100%
First Law of Thermodynamics
100%
Material Science
Photovoltaics
100%
Photovoltaic Effect
33%