Study of the transient thermal wave heat transfer in a channel immersed in a bath of superfluid helium

The temperature rise due to a step-wise pulse current/heat through horizontally immersed thin wires in a bath of sub-cooled superfluid helium (HelIp) is studied. Simplifications are made to establish the mathematical model according to the transient heat transfer characteristics of Hellp. The comput

Considering the basic heat transfer rules of superfluid helium and the phase diagram of helium, pressure effects on heat transfer to HeII are especially studied. If the bath pressure is less than -Pressure (P ), special peak heat flux density relations are shown to correlate bath pressure, hydrostat

A modified two-fluid model is adopted to study flow and heat transfer of superfluid helium in a microchannel with a diameter as small as that of a superleak in a fountain effect pump. Variable properties of superfluid helium and energy dissipations due to the two-fluid mutual friction and the fricti

The present study investigates the influence of partial restrictions on the axial heat transport and critical heat flux limits in subcooled superfluid helium (helium II) channels. Different size orifices are used to simulate partial plugging of superconducting magnets cooling channels by frozen oxyg