In comparison to passive air cooling, immersion cooling can improve the heat transfer rate by ~10,000 times. In two-phase immersion cooling systems, the high heat transfer performance is achieved through the latent heat of evaporation of the dielectric fluid’s liquid-to-gas phase transition and the resulting turbulent dual-phase fluid flow.

In comparison to passive air cooling, immersion cooling can improve the heat transfer rate by ~10,000 times. In two-phase immersion cooling systems, the high heat transfer performance is achieved through the latent heat of evaporation of the dielectric fluid’s liquid-to-gas phase transition and the resulting turbulent dual-phase fluid flow.

In comparison to passive air cooling, immersion cooling can improve the heat transfer rate by ~10,000 times. In two-phase immersion cooling systems, the high heat transfer performance is achieved through the latent heat of evaporation of the dielectric fluid’s liquid-to-gas phase transition and the resulting turbulent dual-phase fluid flow.