Cooling by convective heat transport in superfluid helium

The research and development programme for the Large Hadron Collider (LHC) magnets developed at CERN includes stability studies which are carried out at Saclay in a collaboration between CERN and CEN Saclay. For Nb-Ti magnets cooled by superfluid helium the most severe thermal barrier comes from the

The authors present an extensive study on the behaviour of time dependent heat transport in subcooled He II under conditions which are closely related to the cooling problem of superconducting magnets. Experimental results on the.delay for onset of burnout and on the transient recovery from burnout

Experimental results covering a technically interesting range of temperatures ( 1.4 K T ~ T x) and channel dimensions (L <~ 100 cm, 0.2 <<. id <<. 5 mm) have been complied into a collection of practical data on steady state heat transport in superfluid helium at atmospheric pressure. The data, given

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

Experimental and theoretical investigations have been carried out on time dependent heat transfer in a pressurized He II channel, terminated by a copper rod. Heat flux is applied in the form of a sinusoidal wave. As the heat flux frequency increases, copper and He II temperatures converge with the v

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