Predicted Efficiency of a Low-Temperature Nanofluid-Based Direct Absorption Solar Collector

Tyagi, Himanshu; Phelan, Patrick E.; Prasher, Ravi

doi:10.1115/1.3197562

articleJournal of Solar Energy EngineeringSep 17, 2009Closed access

Predicted Efficiency of a Low-Temperature Nanofluid-Based Direct Absorption Solar Collector

HTHimanshu Tyagi PEPatrick E. Phelan RPRavi Prasher

Arizona State University · SMART Reading

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Abstract

Due to its renewable and nonpolluting nature, solar energy is often used in applications such as electricity generation, thermal heating, and chemical processing. The most cost-effective solar heaters are of the “flat-plate” type, but these suffer from relatively low efficiency and outlet temperatures. The present study theoretically investigates the feasibility of using a nonconcentrating direct absorption solar collector (DAC) and compares its performance with that of a typical flat-plate collector. Here a nanofluid—a mixture of water and aluminum nanoparticles—is used as the absorbing medium. A two-dimensional heat transfer analysis was developed in which direct sunlight was incident on a thin flowing film…

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Topics & keywords

Topics

Keywords

Nanofluid
Nanofluids in solar collectors
Materials science
Working fluid
Absorption (acoustics)
Renewable energy
Heat transfer
Thermal

UN Sustainable Development Goals

Affordable and clean energy

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