Browse > Article
http://dx.doi.org/10.9714/psac.2010.12.4.001

Progress of Pulse Tube Cryocooler  

Matsubara, Yoichi (Nihon University)
Koh, Deuk-Yong (KIMM)
Publication Information
Progress in Superconductivity and Cryogenics / v.12, no.4, 2010 , pp. 1-7 More about this Journal
Abstract
The pulse tube cooler as an alternative of Stirling, G-M or VM cooler to overcome the requirement from the various application fields is described. The necessity of the object oriented cooler development is explained to realize the cryocooler of more energy-efficient, more reliable, more compact and less expensive than what is currently available commercially.
Keywords
Citations & Related Records
연도 인용수 순위
  • Reference
1 W. Dai, Y. Matsubara and H. Kobayashi, "Experimental investigation of 4K VM type pulse tube cooler," Cryocoolers 12, KA/Plenum Press, pp. 331-336, 2003.
2 G. W. Swift and J. J. Wollan, Gas TIPS, vol. 8, No. 4, pp. 21-26, Fall 2002.
3 Y. Matsubara, H. Kasahara and S. Akita, "A couple of pulse tube cryocoolers as current leads for the superconducting magnet," Proceedings of the Nineteenth International Cryogenic Engineering Conference, Grenoble, France, pp. 625-628, 2002.
4 R. Maekawa, et al., "Optimization of a two stage pulse tube refrigerator for the integrated current lead system," Advances in Cryogenic Engineering, vol. 53, pp. 101-108, 2008.
5 Y. Matsubara, J. L. Gao, K. Tanida, Y. Hiresaki and M. Kaneko, "An experimental and analytical investigation of 4 K pulse tube refrigerator," Proceedings of 7th International Cryocooler Conference, pp. 166-186, 1993.
6 G. Davey, "Review of the Oxford cryocooler," Adv. in Cryogenic Engineering, vol. 35, Plenum Press, New York, pp. 1423-1430, 1990.
7 P. S. Spoor, "Acoustic-Stirling 55 gal/day oxygen liquefier for use on aircraft carriers," Cryocoolers 15, ICC Press, pp. 681-685, 2009.
8 S. L. Zhou, "Energy transport characteristics of the oscillating flow within the pulse tube," Dr. Thesis in Nihon University, 2001.
9 K. Ikeda, "Development of high capacity(1 kW) pulse tube cryocooler," Superconductivity web 21, ISTEC, pp. 22-23, Fall 2008.
10 G. Thummes, S. Bender and C. Heiden, "Approaching the He4 lamda line with a liquid nitrogen precooled two-stage pulse tube refrigerator," Cryogenics, vol. 36, pp709-711, 1996.   DOI   ScienceOn
11 MY. Xu, ATAM. De Waele and YL. Ju, "A pulse tube refrigerator below 2 K," Cryogenics, vol. 39, pp. 865-869, 1999.   DOI   ScienceOn
12 C. Wang, G. Thummes and C. Heiden, "A two-stage pulse tube cooler operating below 4 K," Cryogenics, vol. 37, No. 3, 159, 1997.   DOI   ScienceOn
13 S. Zhu, P. Wu, and Z. Chen, "Double inlet pulse tube refrigerators: an important improvement," Cryogenics, vol. 30, 514, 1990.   DOI   ScienceOn
14 R. Vuilleumier, "Method and apparatus for including heat changes," U. S. Patent No. 1275507, 1918.
15 G.K. Pitcher and F.K. du Pre, "Miniature Vuilleumier cycle refrigerator," Adv. Cryo. Eng. 15, pp. 447-451, 1969.
16 Y. Matsubara, H. Kobayashi and S. L. Zhou, "Thermally actuated He3 pulse tube cooler," Cryocooler 11, Kluwer Academic/Prenum Publication, pp. 273-280, 2001.
17 W. E. Gifford and R. C. Longsworth, "Pulse tube refrigeration," Trans. of the ASME, Journal of Engineering for Industry, paper No. 63-WA-290, August 1964.
18 E. I. Mikulin, A. A. Tarasov, and M. P. Shkrebyonock, "Low temperature expansion pulse tubes," Adv. in Cryogenic Engineering, vol. 29, Plenum Press, New York , pp. 629-637, 1984.
19 Y. Matsubara and A. Miyake, "Alternative methods of the orifice pulse tube refrigerator," Proc. of 5th International Cryocooler Conference, Naval Postgraduate School, pp. 127-135, 1989.
20 Y. Kakimi, S. W. Zhu, T. Ishige, K. Fujioka and Y. Matsubara, "Pulse tube refrigerator and nitrogen liquefier with active buffer system," 9th Intl. Cryocooler Conf., New Hampshire, U.S.A., 1996.
21 S. W. Zhu, S. L. Zhou, N. Yoshimura and Y. Matsubara, "Phase shift effect of the long neck tube for the pulse tube refrigerator," Cryocooler 9, Plenum Press, pp. 269-278, 1997.