Impact of Nano Additives in Heat Exchangers with Twisted Tapes and Rings to Increase Efficiency: A Review

Abstract: The heat exchanger is crucial to all systems and applications that use it. Researchers are primarily focused on improving this component’s thermal conductivity to improve its efficiency. This was achieved by using one or more of the following strategies: inserting tapes with various shapes and numbers, inserting rings of various shapes and spacing between each, and transforming a basic liquid into a nanoliquid by adding nanomaterials with high conductivity and ultra-small particle sizes. Different types of nan… Show more

“…These include a high surface area-to-volume ratio and improved thermal conductivity. These distinctive features make them highly promising for overcoming the longstanding limits associated with conventional fluidized bed heat transfer processes [21][22][23][24]. A growing body of work emphasizes the significance of coatings in improving heat transfer.…”

Nano-Iron Oxide Coating for Enhanced Heat Transfer in Gas–Solid Fluidized Bed Systems

“…These include a high surface area-to-volume ratio and improved thermal conductivity. These distinctive features make them highly promising for overcoming the longstanding limits associated with conventional fluidized bed heat transfer processes [21][22][23][24]. A growing body of work emphasizes the significance of coatings in improving heat transfer.…”

Nano-Iron Oxide Coating for Enhanced Heat Transfer in Gas–Solid Fluidized Bed Systems

Impact of fin and hybrid nanofluid on hydraulic-thermal performance and entropy generation in a solar collector using a two-phase approach

The effect of alphabet-shaped twisted tape on thermo-fluidic properties in a shell-tube type heat exchanger: A comparative study utilizing a two-phase mixture model