基于分析的集成涡流板实验研究

Exergy analysis of an integrated vortex board

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摘要涡流板是单个涡流管的集成化，结构比较复杂，将它看作一个开口系统来研究．依据热力学第一、第二定律，建立适合涡流板系统[火用]分析的热力学模型．结合实验对集成涡流板系统进行[火用]分析，得到分离孔板尺寸、热端管长度、喷嘴结构以及入口压力、冷流比等因素对涡流板能量分离效果和[火用]效率的影响．研究结果表明：入口压力在0．45MPa、冷流比在0．7～0．8、冷端孔板内径与涡流室内径之比在0．5处[火用]效率最大；热端管长度越长[火用]效率越大；渐缩型喷嘴的系统[火用]效率比平行喷嘴大。 An integrated vortex board is made up of many vortex chambers, an integration of many individual vortex tubes. So its structure is very complicated. Usually, it is considered as an open system. According to the first and second laws of thermodynamics, thermodynamic equations for exergy analysis of integrated vortex board were established. The exergy analysis was conducted on integrated vortex board in combination of experiments, and the effects of the size of separated orifice plate, the length of hot tube, the nozzle structure, the inlet pressure and the cold flow ratio on energy separation and exergy efficiency of vortex board were obtained. The research outcomes showed that, the maximal exergy efficiency of a vortex board occurs when the inlet pressure is 0.45MPa, cold flow ratio is 0.7-0. 8 and the ratio of the diameter of cold air orifice to vortex chamber＇s diameter is 0. 5. The longer the length of the hot tube, the higher the exergy efficiency. Moreover, the exergy efficiency of the shrink nozzle is bigger than that of the parallel nozzle.

作者宋福元张鹏王朋涛周少伟陈跃进高超

机构地区哈尔滨工程大学动力与核能工程学院

出处《哈尔滨工程大学学报》 EI CAS CSCD 北大核心 2008年第8期814-818,共5页 Journal of Harbin Engineering University

基金哈尔滨工程大学基金资助项目(HEUF040123)

关键词集成涡流板能量分离 [火用]分析 [火用]效率 integrated vortex board energy separation exergy analysis exergy efficiency

分类号 TK123 [动力工程及工程热物理—工程热物理]

作者简介宋福元（1967-），男，副教授，E-mail：songfuyuan@hrbeu．edu．cn

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参考文献8

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二级参考文献5

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哈尔滨工程大学学报

2008年第8期

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基于分析的集成涡流板实验研究

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