1·The thermoacoustic system comprises the thermal buffer tube.
该系统包括所述的热缓冲管。
2·The study enhanced the understanding of the thermoacoustic regenerator.
该研究有助于增加对回热器的进一步认识和理解。
3·The invention provides a thermal buffer tube and a thermoacoustic system.
本发明提供一种热缓冲管及热声系统。
4·The factors are founded which cause the thermoacoustic prime mover to work on the second mode.
得出导致热声发动机工作在二阶谐振频率模态下的影响因素。
5·Then, the principle of thermoacoustic system is also discussed qualitatively and quantitatively.
并定性和定量的对热声系统的原理进行了简单的论述。
6·The thermoacoustic oscillation during film boiling heat transfer in superfluid helium is studied.
以超流氦为对象,对其沸腾传热过程中的热声振荡现象进行了研究。
7·A pulse tube refrigerator driven by a traveling wave thermoacoustic prime engine has no moving parts.
采用热声发动机驱动脉冲管制冷机,使彻底消除低温制冷机中的运动部件成为可能。
8·The thermoacoustic phenomenon is a positive excitement betWeen lieat release and acoustic oscillation.
热声现象是放热过程和声学脉动之间的一种正向的相互激励。
9·The current natural gas liquefaction technology is compared with thermoacoustic refrigeration technology.
将当前的天然气液化技术与热声制冷技术进行比较。
10·The structure of pulsating combustor which used the technology of thermoacoustic exchange is the simplest.
应用热声转换技术制造的脉动燃烧装置,结构最为简单。
1·Then, the principle of thermoacoustic system is also discussed qualitatively and quantitatively.
并定性和定量的对热声系统的原理进行了简单的论述。
2·The current natural gas liquefaction technology is compared with thermoacoustic refrigeration technology.
将当前的天然气液化技术与热声制冷技术进行比较。
3·The thermoacoustic oscillation during film boiling heat transfer in superfluid helium is studied.
以超流氦为对象,对其沸腾传热过程中的热声振荡现象进行了研究。
4·The invention provides a thermal buffer tube and a thermoacoustic system.
本发明提供一种热缓冲管及热声系统。
5·Driven by the thermoacoustic engine, a single stage double-inlet PTC obtained the lowest refrigeration temperature of 80.9K with operating frequency of 45Hz.
该热声发动机驱动双向进气型单级脉管制冷机达到80.9 K的最低制冷温度。