Title :
Thermal model and associated novel approach for synchrotron radiation liner with end cooling
Author :
Shu, Quan-Sheng ; Yu, Kun ; Clay, Wayne ; Maddocks, Jim ; Morales, Gilberto ; Zbasnik, Jon
Author_Institution :
Superconducting Super Collider Lab., Dallas, TX, USA
Abstract :
An end conductive cooling approach has been developed to reduce the radial space budget of a synchrotron radiation liner to permit the maximum possible liner tube inner diameter (1D). A thermal model has also been developed to analyze the thermal performance of such liners. This approach is found to be acceptable for a liner in a 5 m long quadrupole magnet and 3 m long spool piece, but not for a longer 15 m dipole. The heat transfer and temperature distribution were calculated respectively along the axis of two different liner model: 20 K and 80 K liner with different thicknesses (0.5-2 mm) of liner tubes and different emissivities (0.05-0.3) of liner surface for a variety of magnets. The thermal model is also applied to the case of an 80 K liner connected directly to a 4 K beam position monitor (BPM). In order to utilize the end cooling, a good thermal joint and a compact heat exchanger are designed
Keywords :
cooling; heat transfer; heating; synchrotron radiation; temperature distribution; 20 K; 3 m; 5 m; 80 K; beam position monitor; dipole magnet; end cooling; heat exchanger; heat transfer; quadrupole magnet; synchrotron radiation liner; temperature distribution; thermal joint; thermal model; thermal performance; Copper; Heat transfer; Magnetic materials; Particle beams; Space cooling; Superconducting magnets; Synchrotron radiation; System testing; Temperature distribution; Thermal conductivity;
Conference_Titel :
Particle Accelerator Conference, 1993., Proceedings of the 1993
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-1203-1
DOI :
10.1109/PAC.1993.309825
