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Sub-ambient non-evaporative fluid cooling with the sky

Eli A. Goldstein, Aaswath P. Raman () and Shanhui Fan ()
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Eli A. Goldstein: Edward L. Ginzton Laboratory, 348 Via Pueblo, Stanford University
Aaswath P. Raman: Edward L. Ginzton Laboratory, 348 Via Pueblo, Stanford University
Shanhui Fan: Edward L. Ginzton Laboratory, 348 Via Pueblo, Stanford University

Nature Energy, 2017, vol. 2, issue 9, 1-7

Abstract: Abstract Cooling systems consume 15% of electricity generated globally and account for 10% of global greenhouse gas emissions. With demand for cooling expected to grow tenfold by 2050, improving the efficiency of cooling systems is a critical part of the twenty-first-century energy challenge. Building upon recent demonstrations of daytime radiative sky cooling, here we demonstrate fluid cooling panels that harness radiative sky cooling to cool fluids below the air temperature with zero evaporative losses, and use almost no electricity. Over three days of testing, we show that the panels cool water up to 5 ∘C below the ambient air temperature at water flow rates of 0.2 l min−1 m−2, corresponding to an effective heat rejection flux of up to 70 W m−2. We further show through modelling that, when integrated on the condenser side of the cooling system of a two-storey office building in a hot dry climate (Las Vegas, USA), electricity consumption for cooling during the summer could be reduced by 21% (14.3 MWh).

Date: 2017
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DOI: 10.1038/nenergy.2017.143

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