Open AccessEnhanced Passive Cooling for Waterless-Power Production Technologies
Author(s) -
Salvador Rodríguez
Publication year - 2016
Language(s) - English
Resource type - Reports
DOI - 10.2172/1259565
Subject(s) - modular design , coolant , heat transfer , production (economics) , process engineering , electricity , electricity generation , environmental science , power (physics) , nuclear engineering , mechanical engineering , computer science , engineering , electrical engineering , mechanics , physics , thermodynamics , economics , macroeconomics , operating system
Recent advances in the literature and at SNL indicate the strong potential for passive, specialized surfaces to significantly enhance power production output. Our exploratory computational and experimental research indicates that fractal and swirl surfaces can help enable waterless-power production by increasing the amount of heat transfer and turbulence, when compared with conventional surfaces. Small modular reactors, advanced reactors, and non-nuclear plants (e.g., solar and coal) are ideally suited for sCO2 coolant loops. The sCO2 loop converts the thermal heat into electricity, while the specialized surfaces passively and securely reject the waste process heat in an environmentally benign manner. The resultant, integrated energy systems are highly suitable for small grids, rural areas, and arid regions.
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