Author:
Shiroyanagi Y,Anliker E,Hasse Q,Ivanyushenkov Y,Kasa M,Fuerst J
Abstract
Abstract
The Advanced Photon Source Upgrade includes four 4.8-m-long superconducting undulator (SCU) cryostats, each containing two planar undulator NbTi magnets up to 1.9 m long. The cooling is provided by six cryocoolers arranged in three thermal circuits. The magnets are indirectly cooled with LHe penetrating through channels in the magnet cores. This 4 K circuit, which also includes a LHe tank, is cooled by five 4 K cryocooler 2nd stages. A beam vacuum, which is thermally isolated from the magnets, is cooled by one 10 K cryocooler 2nd stage. A thermal shield and warm parts of current leads are cooled by the 1st stages of all six cryocoolers. This paper presents an ANSYS-based thermal analysis of the new SCU cryostat including all thermal circuits. The benchmarked thermal conductance between the cryocooler cold heads and the LHe tank are used in the calculations as well as the measured cryocooler load lines. The model predicts temperatures in the system, total 4 K heat loads, and excess cooling power for various operational modes of the undulator.
Reference7 articles.
1. Thermal analysis of superconducting undulator cryomodules;Shiroyanagi;IOP Conf. Ser.:Mater. Sci. Eng.,2015
2. Development and operating experience of a short-period superconducting undulator at the Advanced Photon Source;Ivanyushenkov;Phys. Rev. ST Accel. Beams,2015
3. A second-generation superconducting undulator cryostat for the APS;Fuerst;IOP Conf. Ser.: Mater. Sci. Eng.,2017
4. Cryogenic testing and initial performance of a helical superconducting undulator at the APS;Fuerst;Proc. IPAC2018,2018
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