Characteristics of a superfluid fountain pump

Turbulent He II flow behaviour in superfilters of non-cylindrical shape at large temperature gradients was investigated. It was found that the mass flow rates were always lower than those that would follow from a straightforward extrapolation of results obtained at small temperature gradients; under

The efficiency of a pumping system is defined in terms of energy flows into and out of a control volume surrounding the pump. It is shown that the centrifugal pump power requirement is affected little by the heat leaks expected in a planned He II transfer system. In contrast, the power requirement f

A fountain effect pump has been built at the Italian Institute of Metrology (IMGC) with the aim of supplying a closed-loop circuit, intended as a secondary facility for calibration and testing of LHe II flow meters. The pump performance, in terms of pressure -flow rate curves at different values of

The analysis of a He II transfer process consisting of a fountain effect pump coupled to a transfer line is presented. It is shown that the flow rate of the fountain effect pump is largely determined by the hydraulic load, i.e. the transfer line. Based on the isocaloric equation for ideal superfluid

The thermomechanical flow of He II through a porous element for a fountain effect pump was experimentally investigated to understand the general flow characteristics in both ideal and turbulent flow states. The flow rate increases in proportion to the heat input Q in the ideal superfluid flow state