Transients in the heat transfer to He I and He II confined in a narrow space

Heat transfer and fluid flow of He II in a long, narrow channel connected to a bath that supplies a constant supply of heat have been investigated by numerical simulations by using the simplified model of Kitamura et al. [Cryogenics 37 (1) (1997) 1]. Such channels are used to cool compact, stable, l

The characteristics of transient heat transfer on horizontal cylinders in He I and He II caused by various large stepwise heat inputs are described for wide ranges of system pressure and liquid head. Characteristics such as the quasi-steady nucleate boiling with a lifetime for He I, and the quasi-st

The subcooled He I layer, in contact with a large heated surface in a channel filled with the pressurized superfluid He II (He II,), expands the non-boiling region above the Kapitza region up to on, above which nucleate boiling sets in. As the bath temperature decreases, g, is increased more rapidly

Kapitza conductance in steady and transient boiling heat transfer on a horizontal 0.2mm diameter test wire was estimated based on the measured Kapitza conductance value for the same surface in He II. The He II experiments performed are for liquid temperatures ranging from 1.8 to 2.1 K under atmosphe

Transient heat transfer is one of the key parameters determining the stability of superconducting magnets. A large proportion of the experimental and theoretical work has been concerned with transient heat transfer from a solid surface to a liquid helium bath, whereas only few workers have investiga