2021
DOI: 10.1088/1748-3190/ac2f55
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Bioinspired design and optimization for thin film wearable and building cooling systems

Abstract: In this work, we report a paradigmatic shift in bioinspired microchannel heat exchanger design toward its integration into thin film wearable devices, thermally active surfaces in buildings, photovoltaic devices, and other thermoregulating devices whose typical cooling fluxes are below 1 kW m−2. The transparent thermoregulation device is fabricated by bonding a thin corrugated elastomeric film to the surface of a substrate to form a microchannel water-circuit with bioinspired unit cell geometry. Inspired by th… Show more

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Cited by 4 publications
(7 citation statements)
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“…Aizenberg et al further empirically derived the sizing rules and developed a numerical optimization method to enhance the mass flow and temperature distribution uniformity (Figure 13c). 116 With the optimized design, the heat dissipation flux can be increased by 37%, if compared to the nonoptimized one. This optimized microchannel heat exchanger could be integrated into wearable devices, buildings, and photovoltaic devices for temperature regulation.…”
Section: Transpiration-inspired Coolingmentioning
confidence: 99%
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“…Aizenberg et al further empirically derived the sizing rules and developed a numerical optimization method to enhance the mass flow and temperature distribution uniformity (Figure 13c). 116 With the optimized design, the heat dissipation flux can be increased by 37%, if compared to the nonoptimized one. This optimized microchannel heat exchanger could be integrated into wearable devices, buildings, and photovoltaic devices for temperature regulation.…”
Section: Transpiration-inspired Coolingmentioning
confidence: 99%
“…This optimized microchannel heat exchanger could be integrated into wearable devices, buildings, and photovoltaic devices for temperature regulation. 116 The hierarchical vascular structure in leaf veins and in plant stems (Figure 13d) also inspired the fabrication of advanced cooling textiles. Ding et al fabricated a cooling textile woven with aligned PU/boron nitride nanosheet (BNNS) fibers (Figure 13e, left).…”
Section: Transpiration-inspired Coolingmentioning
confidence: 99%
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