Effect of axial thermal conductivity on efficiency of heat exchangers in cryogenic refrigerators

1. W. Garwey, S. Logan, W. Rowe, and W. A. Little, Appl. Phys. Lett.,42, No. 12, 1048–1050 (1983).

   Google Scholar 

2. A. P. In'kov, I. V. Kachalova, and P. V. Nagornyi, “Investigation of the effect of axial thermal conductivity on the efficiency of heat exchangers of planar Joule-Thomson microrefrigerators,” Moscow (1990); Dep. TsINTIkhimneftemashe 23.10.90, No. 2155.

3. E. I. Mikulin, Yu. A. Shevich, T. K. Danilenko, et al., “Development of planar Joule-Thomson microrefrigerators,” Abstracts, Fourth All-Union Scientific Conference on Scientific and Technical Problems and Achievements in Cryogenic Technology (Kriogenika-87) [in Russian], Part 2, Kriogenmash Scientific-Industrial Association, Balashikha (1988), pp. 60–66.

   Google Scholar 

4. P. G. Kroeger, Adv. Cryog. Eng.,12, 363–372 (1967).

   Google Scholar 

5. Tsiu, “Effect of longitudinal thermal conductivity on the operation of a heat ex-changer,” Teploperedacha,100, No. 2, 197–202 (1978).

   Google Scholar 

6. E. I. Mikulin and T. K. Danilenko, “Calculation for a heat exchanger taking into account longitudinal thermal conductivity of the wall of the heat exchanger,” in: Ultracold and Conditioning. Transactions of the Moscow Advanced Technical School [in Russian] (1979), pp. 24–31.

7. W. M. Kays and A. L. London, Compact Heat Exchangers, 2nd edn. [Russian translation], Énergiya, Moscow (1967).

   Google Scholar 

8. Peiyi Wu and W. A. Little, Cryogenics,23, No. 5, 273–277 (1983).

   Google Scholar 

9. Peiyi Wu and W. A. Little, Cryogenics,24, 415–420 (1984).

   Google Scholar 

Download references