.SolarTherm.Media.CarbonDioxide

Information

Calculation of thermo-physical properties for pure solid CarboHSP particle in the temperature region of 50 to 1100 degC. CarboHSP can used in falling particle CSP central receiver systems as heat transfer carrier and storage medium.

This package of thermodynamic properties is explicit for pressure and temperature.

These correlations have been obtained by integration of (cp dT) to obtain enthalpy, and integration of (cp/T dT) to obtain entropy. Integration constants are added so that h and s evaluate to zero at T = 298.15 K (i.e. 25 degC).

Restriction

The functions provided by this package shall be used inside of the restricted limits according to the referenced literature.

References

Albrecht, K.J. and Ho, C.K, 'Design and operating considerations for a shell-and-plate, moving packed-bed, particle-to-sCO2 heat exchanger', Solar Energy 178 (2019) 331-340. Retrieved from https://bit.ly/2GbWHTM

Siegel, N.P. et al., 'Development and Evaluation of a Prototype Solid Particle Receiver: On-Sun Testing and Model Validation', Journal of Solar Energy Engineering 132 (2010) 021008. Retrieved from https://bit.ly/2RFgEUz

Siegel, N.P. et al., 'The Development of Direct Absorption and Storage Media for Falling Particle Solar Central Receivers', Journal of Solar Energy Engineering 137 (2015) 041003. Retrieved from https://bit.ly/2UMc3lx

CARBO Company's website. Retreived from https://bit.ly/2GbWHTM

Contents

NameDescription
 ThermodynamicStateA selection of variables that uniquely defines the thermodynamic state
 BasePropertiesBase properties of medium
 setState_pTXReturn thermodynamic state from p, T, and X or Xi
 setState_phXReturn thermodynamic state from p, h, and X or Xi
 setState_psXReturn thermodynamic state from p, s, and X or Xi
 setState_dTXReturn thermodynamic state from d, T, and X or Xi
 pressureReturn pressure
 temperatureReturn temperature
 specificEnthalpyReturn specific enthalpy
 densityReturn density
 specificInternalEnergyReturn specific internal energy
 thermalConductivityReturn thermal conductivity
 specificEntropyReturn specific entropy
 specificGibbsEnergyReturn specific Gibbs energy
 specificHelmholtzEnergyReturn specific Helmholtz energy
 specificHeatCapacityCpReturn specific heat capacity at constant pressure
 specificHeatCapacityCvReturn specific heat capacity at constant volume
 isentropicEnthalpyReturn isentropic enthalpy
 density_derT_pReturn density derivative w.r.t. temperature at constant pressure

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