制冷学报
製冷學報
제랭학보
JOURNAL OF REFRIGERATION
2014年
4期
93-98
,共6页
郑闽锋%刘曦%黄成%林跃东%雷晓健%李学来
鄭閩鋒%劉晞%黃成%林躍東%雷曉健%李學來
정민봉%류희%황성%림약동%뢰효건%리학래
压力波制冷机%实验验证%气体分配器%喷管%制冷效率
壓力波製冷機%實驗驗證%氣體分配器%噴管%製冷效率
압력파제랭궤%실험험증%기체분배기%분관%제랭효솔
pressure wave refrigerator%validation%gas distribution%nozzle%refrigerating efficiency
采用理论分析和实验研究相结合的方法,探讨了喷管型式、相对充气时间等气体分配器结构因素对压力波制冷机内流动及性能的影响。结果表明:膨胀比ε在2.0~12.0的范围内,采用收缩型喷管形成的入射激波最强,缩放型喷管次之,匀直喷管最弱,因而采用收缩型喷管时的冷效应最强;最大制冷效率ηmax随相对充气时间τ的增加先增大后减小,在ε=4、振荡管长径比L/d=400、气体分配器喷射孔的相对深度为0.55的情况下,制冷机最佳相对充气时间约为0.06;相对充气时间τ<0.075时,振荡管的最佳激励频率fopt为制冷效率曲线第二波峰的频率,τ>0.075时则为制冷效率曲线第三波峰的频率。
採用理論分析和實驗研究相結閤的方法,探討瞭噴管型式、相對充氣時間等氣體分配器結構因素對壓力波製冷機內流動及性能的影響。結果錶明:膨脹比ε在2.0~12.0的範圍內,採用收縮型噴管形成的入射激波最彊,縮放型噴管次之,勻直噴管最弱,因而採用收縮型噴管時的冷效應最彊;最大製冷效率ηmax隨相對充氣時間τ的增加先增大後減小,在ε=4、振盪管長徑比L/d=400、氣體分配器噴射孔的相對深度為0.55的情況下,製冷機最佳相對充氣時間約為0.06;相對充氣時間τ<0.075時,振盪管的最佳激勵頻率fopt為製冷效率麯線第二波峰的頻率,τ>0.075時則為製冷效率麯線第三波峰的頻率。
채용이론분석화실험연구상결합적방법,탐토료분관형식、상대충기시간등기체분배기결구인소대압력파제랭궤내류동급성능적영향。결과표명:팽창비ε재2.0~12.0적범위내,채용수축형분관형성적입사격파최강,축방형분관차지,균직분관최약,인이채용수축형분관시적랭효응최강;최대제랭효솔ηmax수상대충기시간τ적증가선증대후감소,재ε=4、진탕관장경비L/d=400、기체분배기분사공적상대심도위0.55적정황하,제랭궤최가상대충기시간약위0.06;상대충기시간τ<0.075시,진탕관적최가격려빈솔fopt위제랭효솔곡선제이파봉적빈솔,τ>0.075시칙위제랭효솔곡선제삼파봉적빈솔。
The influence of some structural factors,i. e. the nozzle style,relative gas charge time on the flow in and the performance of pressure wave refrigerator are studied theoretically and experimentally in this paper. The results show that the strength of incident shock wave is the strongest when using the contraction nozzle,follows by using the laval nozzle,and is the weakest when using the uniform noz-zle when the ratio of the expansionεis from 2. 0 to 12. 0. Thus the cooling effect of pressure wave refrigerator is the strongest when using the contraction nozzle. The maximun refrigerating efficiencyηmax is increased first and then decreased when the relative gas charge timeτis increased. The optimum relative gas charge time τ is about 0. 06 when the ratio of the expansionεis 4,the ratio of length to diameter L/d is 400 and the relative depth of the jet hole in gas distribution is 0. 55. Whenτ>0. 075,the optimum pulsing frequency (fopt) is on the second peak of the refrigerating efficiency ,while fopt is on the third peak of the refrigerating efficiency when τ>0. 075.
