Other
Scientific paper
Aug 1989
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989esasp.294..281d&link_type=abstract
In ESA, European Space Power, Volume 1 p 281-286 (SEE N90-17678 10-20)
Other
Heat Storage, Mathematical Models, Solar Dynamic Power Systems, Systems Simulation, Thermal Simulation, Brayton Cycle, Enthalpy, Photothermal Conversion, Solar Thermal Electric Power Plants, Space Station Power Supplies, Spacecraft Power Supplies
Scientific paper
The transient behavior of a sensible heat storage system is investigated numerically. With a counterflow scheme and a matrix of BeO-spheres, a thermal efficiency of 98.5 percent and almost constant fluid outlet temperature during 85 percent of discharge time are obtained, proving the potential of this storage alternative for application to solar dynamic power generation in space. Some preliminary results of the overall system simulation, comprising the storage, induced transient behavior of turbine, radiator etc. indicate that the electrical power output can be kept constant within a few percent.
Denner W. J.
Fritzsche Andreas
Jany P.
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