What are adsorption technologies for thermal energy storage?

The future work of adsorption technologies for thermal energy storage includes the optimization of adsorbent sizes and adsorption columns to obtain constant outputs, as well as the optimization of temperatures during the charging and discharging processes.

What are adsorption and absorption storage systems?

Sorption storage systems include both adsorption and absorption and are also considered to be thermo-chemical storage technologies as they are based on chemical processes . Absorption is the phenomenon that occurs when a liquid or gas enters another material and is taken up by its volume.

What is energy storage adsorption?

One of the leading areas of interest is energy storage, as it allows for the correction between the supply and demand of available energy. This paper presents an overview of the energy storage technologies under investigation with a focus on adsorption processes for thermal energy storage.

Why is gas adsorption important?

The determination of the gas adsorption properties of these materials is critical to both the development of new materials for targeted applications and the assessment of the suitability of a material for a particular technology.

How does adsorption work?

Adsorption operates on the principle that a gas or vapour (adsorbate) is captured by a solid or porous material (adsorbent) and binds to its surface during the adsorption step. Once the adsorbent is saturated with the adsorbate, and thus no more gas or vapour can bind to its surface, the adsorbent material must be regenerated.

Why is gas sorption analysis important?

Gas sorption analysis is important in many fields of materials science and consumer product development. Some examples of current hot areas of technology involving gas-solid (or gasliquid) interactions include the development of energy storage materials, improved catalysts for petrochemical processing, advanced pharmaceuticals and food industries.