Parabolic solar concentrator with regenerative gas micro-turbine
We are going to study the cycle of a parabolic solar concentrator with regenerative gas micro-turbine: the solar hot air receiver is placed upstream of the combustion chamber of a regenerative gas micro-turbine, thus reducing consumption of fuel.
Let us study the micro-turbine solar concentrator cycle.
Click on the following link: Open a file in ThermoptimOpen a file in Thermoptim
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Open the solar collector screen. Models of solar collectors have been established in Thermoptim in the form of external classes, in order to be able to study electro-solar power plants. These models use three parameters:
Two calculation modes are possible: either, knowing the outlet state of the fluid, knowing the collector surface, or give this surface, calculate the state of the outlet point. It is this setting that was retained here.
It has been assumed that the solar flux is equal to 1 kW/m2, and that the surface of the paraboloid of revolution is equal to 50 m2. For an outside temperature of 30 °C, the efficiency of the solar collector is 0.51.
The regenerator exchanger is quite conventional. We have chosen an effectiveness equal to 0.88.
You can now perform sensitivity analyzes of the performance of this cycle to its various parameters, such as the compression ratio, the effectiveness of the regenerator, the characteristics of the solar collector or the turbine inlet temperature.
This exploration allowed you to discover a model of parabolic solar concentrator with regenerative gas micro-turbine and the specific settings which it calls upon.