Abstract
The paper proposes the validation of the latest System Advisor Model (SAM) vs. the experimental data for concentrated solar power energy facilities. Both parabolic trough, and solar tower, are considered, with and without thermal energy storage. The 250 MW parabolic trough facilities of Genesis, Mojave, and Solana, and the 110 MW solar tower facility of Crescent Dunes, all in the United States South-West, are modeled. The computed monthly average capacity factors for the average weather year are compared with the experimental data measured since the start of the operation of the facilities. While much higher sampling frequencies are needed for proper validation, as monthly averaging dramatically filters out differences between experiments and simulations, computational results are relatively close to measured values for the parabolic trough, and very far from for solar tower systems. The thermal energy storage is also introducing additional inaccuracies. It is concluded that the code needs further development, especially for the solar field and receiver of the solar tower modules, and the thermal energy storage. Validation of models and sub-models vs. high-frequency data collected on existing facilities, for both energy production, power plant parameters, and weather conditions, is a necessary step before using the code for designing novel facilities.
Highlights
The System Advisor Model (SAM) code is free software [1], very popular among policymakers and engineers
The latest 12-months moving averages of the ε are Ivanpah* 22.87%, Ivanpah 23.67%, Solana 36.40%, Genesis 28.11%, Mojave
Sample concentrating solar power parabolic trough and solar tower models are available in SAM [1]
Summary
The System Advisor Model (SAM) code is free software [1], very popular among policymakers and engineers. SAM can model many renewable energy facilities, including concentrating solar power systems for electric power generation, parabolic trough, or solar towers. Concentrating solar power modeling details may be found in [5,6,7]. This software has not been validated yet vs the latest concentrated solar power energy facilities that recently started operation in the US, with real-world production data available, and a reasonable guess of the weather conditions available. This contribution addresses this significant research gap
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