Litcius/Paper detail

Low Solar Absorptance, High Emittance Performance Thermochromic VO2-Based Smart Radiator Device

Ali Hendaoui

2022Nanomaterials21 citationsDOIOpen Access PDF

Abstract

Thermochromic vanadium dioxide (VO2)-based smart radiator devices (SRDs) display emittance variation with changes in temperature, making them very promising for energy-efficient thermal control of spacecrafts in general, and nanosatellites in particular. However, the high solar absorptance of the VO2-based SRDs remains too high for their intended application. Based on an approach combining optical simulation and experimental work, I demonstrate that an additional top stack layer alternating between high and low refractive indices made of a-Si(25 nm)/SiO2(67 nm) reduces the solar absorptance of a VO2-based SRD by 35% (from 0.43 to 0.28) while keeping the emittance performance of the SRD within the requirements for the intended application (low-temperature emittance εL = 0.35, high-temperature emittance εH = 0.81 and emittance tuneability with temperature Δε = 0.46). I also discuss factors to consider while designing additional top stack layers alternating between high and low refractive indices to further decrease the SRD’s solar absorptance without affecting its emittance performance.

Topics & Concepts

Thermal emittanceAbsorptanceMaterials scienceRadiator (engine cooling)OpticsStack (abstract data type)OptoelectronicsThermalComputer sciencePhysicsMeteorologyBeam (structure)ReflectivityProgramming languageTransition Metal Oxide Nanomaterialssolar cell performance optimizationThermal Radiation and Cooling Technologies