Final answer:
The project entails designing a 20 MW PTC-CSP Plant with an 8-hour TES system, with an evaluation that compares the performance with varying solar input and with and without a TES system. The design focuses on the efficiency of electricity generation using parabolic mirrors and stored heat in molten salts for continuous power supply.
Step-by-step explanation:
The project involves designing a 20 MW PTC-CSP Plant and evaluating its performance with a Thermal Energy Storage (TES) system of 8 hours. This process starts by focusing sunlight using parabolic mirrors to heat a transfer fluid, which then generates steam to run turbines and produce electricity. For the TES system, materials like molten salts store heat which can run the turbines after sundown.
The evaluation involves comparing the output and efficiency of the plant with and without the TES system and with varying amounts of solar input, known as 'various solr multiple values'. The TES system provides the potential for the plant to continue generating electricity even when solar energy is not immediately available, such as during the night or cloudy periods.
In this comparison, it's important to consider the cost, efficiency, and land usage. It's notable that various solar multiple values will influence the design and performance, as well as how effectively the TES system can bridge the gap when direct solar energy is not available.