共查询到16条相似文献,搜索用时 62 毫秒
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对定加热温度下行波热声发动机驱动阻容负载进行了数值模拟,分析讨论了声阻和容抗对声功输出的影响。以氦气为工质,在充气压力为3 MPa、加热温度为923 K的条件下,对不同气库体积的热声系统进行了模拟;此外,还采用负体积气库模拟了阻抗虚部为正值的情况。计算结果表明,容抗值较大时,在负载相位角约为-45°(或45°)时,声功率存在一个极大值;当容抗值较小时,声功率会出现两个极大值和一个极小值,且在负载阻抗相位角约为-45°(或45°)时为极小值;此外,声功输出最大值与效率最大值对应的阻抗并不相同。 相似文献
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大型多功能热声发动机的研制及初步实验 第二部分:热声发动机的初步实验 总被引:13,自引:5,他引:13
行波热声发动机在回热器中进行的是可逆热声转换过程,理论上可以更高效地产生和传输声功,因而具有广阔的研究应用前景.对自行研制的大型多功能热声发动机进行了初步实验,着重研究了系统的起振、消振过程及压力波动情况.实验结果表明,该热声发动机比纯驻波型热声发动机具有更低的起振温度、更大的压比及更高的热声转换效率.以氮气为工质,在充气压力为9×105 Pa的条件下,该热声发动机最大压比达1.21,工作频率为25 Hz,这是当前国际上处于前列的实验结果. 相似文献
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基于热声效应发展起来的热声发动机是一种新型的完全没有机械运动部件,可利用低品位热源的环保发动机。近年来,行波热声发动机由于热声转换效率高而受到各国学者的广泛关注。针对近十年来行波热声发动机的实验研究进展与典型样机进行了介绍,并对热声发动机的性能参数作了分析与总结,最后展望了行波热声发动机的发展趋势和应用前景。 相似文献
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Effect of RC load on performance of thermoacoustic engine 总被引:2,自引:0,他引:2
Based on linear thermoacoustics, a symmetric standing-wave thermoacoustic engine connected with an acoustic resistance and acoustic compliance (RC) load was simulated to study the effect of the load impedance on the performance of the thermoacoustic engine. Experiments were performed to verify the simulation. Both the simulation and the experimental results show that there is a non-monotonic variation of the acoustic power delivered to the load with the acoustic resistance of the load and a maximal acoustic power may be obtained when the acoustic resistance equals to its compliance impedance. And a lower compliance impedance of RC load may lead to a higher acoustic power delivered to the load. 相似文献
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A resonance tube is an important component of a thermoacoustic engine, which has great influence on the performance of the thermoacoustically driven pulse tube refrigerator. A standing wave thermoacoustic engine is simulated with linear thermoacoustics. Computed results show that an appropriate accretion of the resonance tube length may lead to a decrease of the working frequency and an increase of the pressure amplitude, which will improve the match between the thermoacoustic engine and the pulse tube refrigerator. The theoretical prediction is verified by experiments. A refrigeration temperature as low as 88.6 K has been achieved with an optimized length of the resonance tube, helium as working gas, and 2200 W of heating power. 相似文献
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