Experimental Study of Water-Based Al2O3Nanofluid Flow in Direct Absorption Solar Collector
Author:
Affiliation:
1. J K Lakshmipat University; Mahapura, Jaipur Rajasthan 302026 India
2. Department of Mechanical Engineering; Malaviya National Institute of Technology; Jaipur Rajasthan 302017 India
Publisher
Wiley
Subject
Materials Chemistry,Polymers and Plastics,Organic Chemistry,Condensed Matter Physics
Reference16 articles.
1. Demonstration of Solar-Generated Electricity on Demand: The Solar Two Project*
2. Performance of a “black” liquid flat-plate solar collector
3. Experimental evaluation of a non-isothermal high temperature solar particle receiver
4. Optical properties of liquids for direct absorption solar thermal energy systems
5. Review of heat transfer in nanofluids: Conductive, convective and radiative experimental results
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