Litcius/Paper detail

A practical upper-bound efficiency model for solar power plants

Eduardo González‐Mora, Ram Poudel, María Dolores Durán-García

2023Journal of Non-Equilibrium Thermodynamics25 citationsDOI

Abstract

Abstract A generalized model for the maximum work rate extractable from the Sun is developed considering a reversible and an endoreversible system to define a more practical upper-bound efficiency for the conversion of solar radiation into work and power. This model is based on a photo-thermal work extractor in communication with a high-temperature radiation reservoir and a low-temperature heat sink. Following the model, a parametric analysis of the concentration acceptance product ( ξ ) and thermal conductance is performed to identify the interdependence of variables for the solar exergy. The results are compared with existing models to provide a practical baseline of work and power extractable from concentrated solar power plants (CSP) technologies. Therefore, it is possible to quantify the irreversibilities of an idealized thermodynamic system operating between the Sun and the absorber (via radiative transfer) and the environment (via convective transfer).

Topics & Concepts

ExergyWork (physics)Radiative transferParametric statisticsConcentrated solar powerHeat transferExergy efficiencyEnvironmental scienceSolar powerThermodynamicsThermalPower (physics)MathematicsPhysicsOpticsStatisticsThermal energy storageSolar Thermal and Photovoltaic SystemsAdvanced Thermodynamics and Statistical MechanicsThermal Radiation and Cooling Technologies