Study on pulse tube refrigeration Part 3: Experimental verification

The heat input towards the cold end of a pulse tube refrigerator is studied using combinations of two regenerators and two pulse tubes of different lengths. The temperature gradient in the pulse tube or regenerator is altered by changing the length. Changing the regenerator length produces almost no

Along with the advances of pulse tube refrigeration, there is a pressing demand for a theoretical model which not only reveals the essentials of the internal physical processes, but also can be used for reliable practical design. In this paper, we consider the thermal and viscous influences of the p

The orifice pulse tube refrigerator has the potential to become a small, reliable cryocooler. In linear approximation the refrigeration produced is due to two independent contributions: an enthalpy flow in the bulk of the gas and an enthalpy flow due to heat exchange with the wall. These effects are

Important advances have been achieved during the last 10 years or so in the art of pulse tube refrigeration. In order to meet the requirements for further development and practical applications, a systematic theoretical and experimental study on pulse tube refrigeration has been conducted. The therm

A mechanical support system is described for a space-borne 3He refrigerator that relies on Kevlar 29 braided cords to achieve thermal isolation at temperatures ranging from 0.3 to 40 K. Measurements of the Young's modulus, tensile strength, creep and thermal conductivity of Kevlar cords at room and