ReceiverSimple with convective losses
Brief description:
This model simulate an external receiver that is composed by a
series of flat panels with the a vertical arragement of tubes. This
panels are arranged around the circunference of the solar tower.
The coating absortance and emittance of the tubes determine the
receiver thermal losses. It assumes a single receiver temperature
which is calculated acording the average temperature between the
inlet and outlet fluid temperature. In this model a mass flow rate
is heated as a function of the concentrated solar power considering
thermal losses but neglecting effects due to receiver shape and
thermal capacitances. The outlet specific enthaply is calculated in
an algebraic way assuming that:
heat flow rate absorbed = heat flow rate emitted + mass flow rate * (outlet specific enthalpy - inlet specific enthalpy)
This model allows zero mass flow rate althought the model only
guarantees the results at the operating range.
Inputs:
HeatPort:
- heat: This connector provides the total concentrated solar
power that reachs the receiver and gives the temperature of the
receiver.
FluidPort:
- fluid_a: This connector provides the inlet mass flow rate and
specific enthalpy of the system working fluid, the pressure is not
used.
Parameters:
Working fluid:
- Medium: This parameter defines the medium in the component. The
thermodynamic properties of the fluid are function of this medium
model. All Modelica.Media can be selected and new ones that extend
from the Partial Medium
Technical data:
- H_rcv: Height of the receiver panels.
- D_rcv: Total diameter of the receiver. The double distance
between the center of the tower to a center of a receiver
panel.
- N_pa: Total number of panels.
- D_tb: The outer diameter of the panel tubes.
- t_tb: The thickness of panel tubes.
- ab: The absorptance of the receiver coating.
- em: The emissivity of the receiver coating.
Outputs:
FluidPort:
- fluid_b: This connector provides the outlet mass flow rate and
specific enthalpy of the system working fluid, the pressure is not
used.
Contents
| Name |
Description |
 Nusselt |
Heat Transfer Correlation |
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.SolarTherm.Models.CSP.CRS.Receivers.ReceiverSimple_2