Abstract
In regions that experience abundant sunshine, solar radiation emanating from the sun constantly generates significant thermal energy which has been an established potential source of harvestable clean energy. But an enormous amount of this form of renewable energy reaching the earth’s crust gets re-emitted back into the space at sunset period without being harnessed. There is a special need for researches to further develop thermal storage alternatives with high thermal capacity, good thermal transfer rate, portable, cost effective and durable. From literature, aluminum and silicon alloys have proved to be one of the most efficient thermal storage materials for medium to high temperature storage applications. It has been shown that different combinations of these gives different results depending on the application the alloy is to be used for. This paper reviews the application of Al-Si alloys for thermal storage with superior properties to Al-Cu, Al-Mg, Al-Cu-Zn, Al-Si-Mg and Al-Si-Cu alloys. The making of Al-Si for thermal storage through liquid and solid metallurgical processes were also highlighted.
Highlights
IOP PublishingThere is a special need for researches to further develop thermal storage alternatives with high thermal capacity, good thermal transfer rate, portable, cost effective and durable
AbstractIn regions that experience abundant sunshine, solar radiation emanating from the sun constantly generates significant thermal energy which has been an established potential source of harvestable clean energy
There is a special need for researches to further develop thermal storage alternatives with high thermal capacity, good thermal transfer rate, portable, cost effective and durable
Summary
There is a special need for researches to further develop thermal storage alternatives with high thermal capacity, good thermal transfer rate, portable, cost effective and durable. 1. Thermal storage overview Thermal energy is one of the components of solar radiation coming from the sun. A huge amount of this reaches the earth’s crust every day and gets re-emitted back to space at night as waste energy. Industries are as well a huge source of thermal energy waste. For this reason, it is of high importance for researchers to come up with a thermal storage system with high thermal capacity, good thermal transfer rate, portable, cost effective and durable, [1].
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