He-H_2 mixture and Er_3NiH_χ packing for the refrigeration enhancement of pulse tube refrigerator

He-H_2 mixture and packing for the refrigeration enhancement of pulse tube refrigerator

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摘要 The computation with the theory of modified Brayton Cycle indicates that higher cooling power and coefficient of performance for a pulse tube refrigerator can be achieved with He-H2 mixture as working gas than those with pure He in the temperature region of 30 K. In addition, it is found that Er3Ni, a regenerative material, is able to absorb H2 and produces Er3NiHx. The computation presents that the regenerative performance of Er3NiHx is better than that of Er3Ni due to its higher volume specific heat. Experimental results show that the pulse tube refrigeration performance in 30 K temperature region is enhanced greatly with He-H2 mixture and Er3NiHx packing. The computation with the theory of modified Brayton Cycle indicates that higher cooling power and coefficient of performance for a pulse tube refrigerator can be achieved with He-H2 mixture as working gas than those with pure He in the temperature region of 30 K. In addition, it is found that Er3Ni, a regenerative material, is able to absorb H2 and produces Er3NiHx. The computation presents that the regenerative performance of Er3NiHx is better than that of Er3Ni due to its higher volume specific heat. Experimental results show that the pulse tube refrigeration performance in 30 K temperature region is enhanced greatly with He-H2 mixture and Er3NiHx packing.

作者 CHENGuobang TANGKe HUANGYonghua GANZhihua BAORui

机构地区 CryogenicsLaboratory

出处《Chinese Science Bulletin》 SCIE EI CAS 2004年第5期527-530,共4页

关键词氦氢混合工质 Er3NiHx 脉管制冷机制冷系数 pulse tube refrigerator, mixture, metallic hydride.

分类号 TB651 [一般工业技术—制冷工程]

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共引文献7

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Chinese Science Bulletin

2004年第5期

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He-H_2 mixture and Er_3NiH_χ packing for the refrigeration enhancement of pulse tube refrigerator

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