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120Hz单级脉管制冷机理论与实验 被引量:3

Therotical and experimental study on a 120 Hz single stage pulse tube cryocooler
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摘要 为了研究百赫兹以上的高频回热器的特性及其对脉管制冷机性能的影响,采用回热器数值计算程序RE-GEN3.2对高频回热器的尺寸参数和运行参数进行优化设计,并研制出一台运行频率为120 Hz的斯特林型脉管制冷机,其无负荷制冷温度为47.8 K,在78.6 K有8.0 W制冷量.初步证明配合使用更高的充气压力、采用小水力直径的回热填料以及缩短回热器长度,能够使得回热器在百赫兹以上的高频下仍然保持较高的效率.另外,实验显示该百赫兹高频脉管制冷机能够实现快速降温,脉管方向性问题也得到较好的抑制. In order to study the characteristics of the high frequency regenerator and its influence to the performance of the pulse tube cryocooler,this paper optimized the geometry and operating parameters for the high frequency regenerator by using the numerical model,known as REGEN 3.2.A Stirling type pulse tube cryocooler operating at 120 Hz was designed,fabricated and tested.This cryocooler achieves a no-load temperature of 47.8 K,and can provide a cooling power of 8.0 W at 78.6 K.The result proves preliminarily that with higher frequency together with higher charging pressure,smaller hydraulic diameter and shorter regenerator,it is still possible to let the regenerator keep high efficiency.The experiment also indicated that this cryocooler can cool down fast and the pulse tube orientation effect was well suppressed benefiting from this higher frequency characteristic.
作者 甘智华 吴英哲 袁园 邱利民 张学军 张小斌 徐旭
机构地区 浙江大学制冷与低温研究所 浙江大学能源清洁利用国家重点实验室 中国计量学院计量测试工程学院
出处 《浙江大学学报(工学版)》 EI CAS CSCD 北大核心 2011年第11期2014-2019,共6页 Journal of Zhejiang University:Engineering Science
基金 国家自然科学基金资助项目(50876094)
关键词 百赫兹 高频 脉管制冷机 快速降温 方向性 high frequency pulse tube cryocooler fast cooling down orientation
分类号 TB651 [一般工业技术—制冷工程]
  • 相关文献

参考文献17

  • 1RADEBAUGH R. Pulse tube cryocoolers for cooling infrared sensors [C]// Proceedings of SPIE, Infrared Technology and Applications XXVI. Bellingham: SPIE, 2000, 4130:363 - 379.
  • 2RADEBAUGH R, O'GALLAGHER A, Regenerator operation at very high frequencies for microcryocoolers [C]// Advances in Cryogenic Engineering. New York: American Institute of Physics (AIP), 2004, 51:1919 - 1928.
  • 3VANAPALLI S, LEWIS M, GAN Z H, et al. , 120 Hz pulse tube eryocooler for fast cooldown to 50 K [J]. Applied Physics Letters, 2007, 90 (7): 072504.
  • 4甘智华,邱利民,Michael Lewis,Srinivas Vanapalli,Ray Radebaugh.可用于THz探测器的百赫兹高频脉管制冷性能[J].稀有金属材料与工程,2008,37(A04):266-270. 被引量:1
  • 5GARAWAY I, GAN Z H, BRADLEY P, et al. Development of a miniature 150 Hz pulse tube cryocooler EC]// Cryocoolers 15. Madison: Omnipress, 2009:105 113.
  • 6DAI W, YU G Y, ZHU S L, et al. 300 Hz thermoacoustically driven pulse tube cooler for temperature below 100K [J]. Applied Physics Letters, 2007, 90 (2) : 024104.
  • 7ZHU S L , YU G Y , DAI W, et al. Characterization of a 300 Hz thermoacoustically-driven pulse tube cooler [J]. Cryogenics, 2009, 49 (1): 51-54.
  • 8PETACH M, WATERMAN M, PRUITT G, et al. High frequency coaxial pulse tube microcooler [C]// Cryocoolers 15. Madison: Omnipress, 2009:97 - 103.
  • 9GAN Z H, LIU G J, WU Y Z, et al. Study ona 5.0 W/80 K single stage Stirling type pulse tube cryocooler [J]. Journal of Zhejiang University-Science A, 2008, 9 (9) : 1277 - 1282.
  • 10GARY J, RADEBAUGH R. An improved model for the calculation of regenerator performance (REGEN3. 1 ) [C]// Proceeding Fourth Interagency Meeting on Cryocoolers. Bethesda: [s. n.], 1991: 165-176.

二级参考文献8

  • 1Qiu L M, Sun D M, Yan W L et al. Cryogenics[J], 2005, 45: 380.
  • 2Radebaugh R, O'Gallagher A. Advances in Cryogenic Engineering[C], 2006, 51 : 1919.
  • 3Gary J, Radebaugh R. Proc Fourth Interagency Meeting on Cryocoolers[C], David Taylor Research Center Technical Report DTRC91/003, 1991:165.
  • 4Gary J, Daney D E, Radebaugh R. Proc Third Cryocooler Conf. [C], NIST Special Publication 698, 1985:199.
  • 5Radebaugh R, Lewis M, Luo E et al. Advances in Cryogenic Engineering[C], American Institute of Physics, 2006, 51 : 59.
  • 6Vanapalli S, Lewis M, Gan Z H et al. Applied Physics Letters[J], 2007, 90(7): 072504.
  • 7DaiL(代黎) GanZH(甘智华) QiuLM(邱利民)etal.低温工程,2007,:194-194.
  • 8Radebaugh R, Cryo Frontiers. Cold Facts[J], 2007, 23(2): 17.

同被引文献21

  • 1徐娜娜,陈厚磊,梁惊涛,蔡京辉,杨鲁伟.超高频同轴型脉冲管制冷机研究[J].机械工程学报,2011,47(6):156-159. 被引量:7
  • 2Godshalk K M, Jin C, Kwong Y K, et al. Characterization of 350Hz thermoacoustic driven orifice pulse tube refrigerator with measurements of the phase of the mass flow and pressure[ C]. Advances in Cryogen- ic Engineering, 1996,41 : 1411-1418.
  • 3Radebaugh R,OGallagher A. Regenerator operation at very high fre- quencies for microcryocoolers[ C ]. Advances in Cryogenic Engineer- ing,2006,51:1919-1928.
  • 4Vanapalli S,Lewis M, Gan Z H,et al. 120 Hz pulse tube cryocooler for fast cooldnwn to 50K [ J ]. Applied Physics Letters,2007,90 (7) : 072504.
  • 5Dai W, Yu G Y, Zhu S L, et al. 300Hz thermoaeoustieally driven pulse tube cooler for temperature below 100K [J ]. Applied Physics Letters, 2007,90 ( 2 ) : 024104.
  • 6Zhu S L,Yu G Y,Dai W,et al. Characterization of a 300Hz thermoaeous- tically-dfiven pulse tube cooler[ J ]. Cryogenics ,2009,49:51-54.
  • 7Cai H K,Yang L W,Luo E C,et al. A 300Hz two-stage pulse tube cryocooler that attains 58K[ J]. Cryogenics,2010,50:469-471.
  • 8Tward E, Ngnyen T, Godden J, et al. Miniature pulse tube cooler[ C ]. Advances in Cryogenic Engineering,2004,49:1326-1329.
  • 9Petach M,Waterman M,Tward E. Pulse tube microcooler for space applications[ C ]. Cryocoolers 14,2007:89-93.
  • 10Petach M,Waterman M,Pruitt G, et al. High frequency coaxial pulse tube microcaoler[ C]. Cryocoolers 15,2009:97-103.

引证文献3

二级引证文献7

浙江大学学报(工学版)
2011年 第11期

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