Abstract
In this study, a new type of functional hybrid suspension for solar energy conversion and thermal energy storage was prepared by adding carbon nanotube (CNT) and microencapsulated phase-change material (MEPCM) into deionized water. MEPCM with octadecane as the core material and titania (TiO2) as the shell material was synthesized by the sol–gel method. The MEPCMs were spherical particles with diameters of 2–4 μm, and the thickness of the shell was about 100 nm. The MEPCM achieved better thermal stability and thermal conductivity than the pure octadecane due to the TiO2 shell. The melting and solidification latent heats of the MEPCM were about 154.24 and 154.26 J/g, respectively. The encapsulation efficiency of octadecane was calculated to be 65.84%. Most of all, the novel hybrid CNT and MEPCM suspensions exhibited remarkable dispersion stability owing to the stable reticular structure composed of CNT in the suspension. Compared with pure water, the thermal conductivity, specific heat of the MEPCM/CNT suspension improved by 34.48 and 43.57%, respectively and the photo-thermal conversion efficiency reached a high value of 86.0%. This work provided a new type of hybrid functional suspension towards direct absorption solar collector for solar energy conversion and storage.
Highlights
At present, environmental pollution and energy shortage have become two major global problems to be solved urgently
Direct absorption solar collector (DASC) is a new technology that uses some medium with a large specific heat to directly absorb the solar radiation and convert the energy to heat to store
DASC is an effective way to solve the mismatch between solar energy supply and demand, as well as improve the efficiency of photo-thermal conversion
Summary
Environmental pollution and energy shortage have become two major global problems to be solved urgently. The development of clean and sustainable energy has attracted huge attention in recent years. As an inexhaustible new energy source, solar energy has great significance in alleviating the energy crisis due to its wide sources and its properties of being clean and pollution-free [1,2,3] DASC is an effective way to solve the mismatch between solar energy supply and demand, as well as improve the efficiency of photo-thermal conversion
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