Nonstationary heat transfer in a channel containing saturated He II: stepped heat loading

We report on heat transport in horizontal two-phase He II and vapor in a 2 m long test section with a 3 mm wide by 65 mm tall cross section. Liquid and vapor temperatures are measured at eight locations, six along the channel and two in the boundary reservoirs. The six measurements along the channel

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

We report on a preliminary experiment designed to study combined heat and mass transfer processes associated with two-phase vapour/He II flow systems. The experiment consists of two separate baths connected by two channels, the upper one being for vapour flow and the lower one containing He II. Thus

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