Study of solar energy powered transcritical cycle using supercritical carbon dioxide
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Hindawi Limited
Reference11 articles.
1. Pilot plants of solar steam generating stations
2. Solar Thermal Power Technology: Present Status and Ideas for the Future
3. 1983. Combined cycle and waste-heat recovery power systems based on a novel thermodynamic energy cycle utilizing low-temperature heat for power generation. ASME Paper 83-JPGC-GT-3.
4. Fundamental process and system design issues in CO2 vapor compression systems
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