Origami microfluidics for radiant cooling with small temperature differences in buildings
Abstract
Design and fabrication methods translated from microfluidics, microelectromechanical systems, origami, and biologically inspired engineering may offer efficiency improvements for water-based thermoregulation in buildings. This paper introduces foldable radiant cooling devices that are fabricated by lamination with integrated microfluidic water-circuits. These devices produce more surface convection because of their geometry and because they have more surface area than flat panels. As a result, lukewarm water instead of chilled water may be sufficient for cooling a room, leading to potential savings in primary energy use and lifecycle greenhouse gas emissions. Analytical models and physical experiments show a 55-67% improvement in thermal performance when comparing these novel folded surfaces to flat surfaces, mainly due to the improved convection heat transfer.
- Publication:
-
Applied Energy
- Pub Date:
- November 2020
- DOI:
- 10.1016/j.apenergy.2020.115610
- Bibcode:
- 2020ApEn..27715610G
- Keywords:
-
- Radiant cooling;
- Thermally activated surfaces and building structures;
- Heat exchange;
- Vascular materials;
- Microfluidics;
- Origami