共查询到18条相似文献,搜索用时 125 毫秒
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提出了一种低频热驱动气–液耦合热声制冷系统,通过数值模拟优化了该系统的结构参数并对其热力性能进行了数值模拟分析。首先,分别对系统关键参数的沿程分布和各部件的?损失进行了分析;然后,探究了不同压力下液体质量对系统热力学参数的影响;最后,与传统热声制冷系统进行了对比。结果表明,气液耦合热声制冷系统可以有效地提升系统的压比、制冷量、COP和相对卡诺效率,降低系统的起振温度和频率。在加热温度300℃,制冷温度15℃,环境温度50℃,平均压力10 MPa时,气液耦合热声制冷系统制冷量为31.12 k W,是传统热声系统理论值的4倍,COP和相对卡诺效率相对于传统热声制冷系统的理论值分别提升了13%和25.9%。 相似文献
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非线性热声理论的研究进展 总被引:4,自引:0,他引:4
主要总结了热声系统中的非线性热声现象,指出了线性热声理论的不足,回顾了近十年来国内外热声工作者为解释这些非线性现象所做的理论探索,对其发展方向进行了展望. 相似文献
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回热器的热声直流模型及其效应研究 总被引:2,自引:0,他引:2
本文由基本的守恒方程出发,获得了能描述回热器存在声直流时的非线性动力学模型及由此而导致的非线性时均热力学效应。根据所得到的模型,考察了声直流对临界声功产生率温度梯度、回热器温度分布以及脉冲管制冷性能的影响。 相似文献
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Tijani ME Zeegers JC de Waele AT 《The Journal of the Acoustical Society of America》2002,112(1):128-133
The characteristic pore dimension in the stack is an important parameter in the design of thermoacoustic refrigerators. A quantitative experimental investigation into the effect of the pore dimensions on the performance of thermoacoustic devices is reported. Parallel-plate stacks with a plate spacing varying between 0.15 and 0.7 mm are manufactured and measured. The performance measurements show that a plate spacing in the stack of 0.25 mm (2.5 deltak) is optimum for the cooling power. A spacing of 0.4 mm (4 deltak) leads to the lowest temperature. The optimum spacing for the performance is about 0.3 mm (3 deltak). It is concluded that a plate spacing in the stack of about three times the penetration depth should be optimal (3 deltak) for thermoacoustic refrigeration. 相似文献
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Thermoacoustic engines convert heat energy into high amplitude sound waves, which is used to drive thermoacoustic refrigerator or pulse tube cryocoolers by replacing the mechanical pistons such as compressors. The increasing interest in thermoacoustic technology is of its potentiality of no exotic materials, low cost and high reliability compared to vapor compression refrigeration systems. The experimental setup has been built based on the linear thermoacoustic model and some simple design parameters. The engines produce acoustic energy at the temperature difference of 325–450 K imposed along the stack of the system. This work illustrates the influence of stack parameters such as plate thickness (PT) and plate spacing (PS) with resonator length on the performance of thermoacoustic engine, which are measured in terms of onset temperature difference, resonance frequency and pressure amplitude using air as a working fluid. The results obtained from the experiments are in good agreement with the theoretical results from DeltaEc. 相似文献
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