共查询到19条相似文献,搜索用时 734 毫秒
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先进光源技术研发与测试平台(PAPS)需要2K超流氦系统为超导腔提供低温环境,2K负压换热器是低温系统的关键部件,考虑氦工质的物性随温度变化较剧烈,采用分段法对换热器进行计算,建立了2K负压换热器的计算模型,基于该模型编写了换热器的设计及校核计算程序,并对换热器进行了优化。结果表明,结构参数对换热性能有较大的影响,优化后的换热器所需的换热面积减小,换热系数增加,低压侧压降降低。 相似文献
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报道了采用单次脉冲非稳腔空间增强探测 相干反斯托克斯喇曼散射(USED CARS)技术诊断常压下固体燃剂瞬态燃烧场温度和氮气浓度。采用宽带USED CARS技术,在固体燃剂瞬态燃烧场获得了较高信噪比的单次激光脉冲氮气Q支CARS实验谱,用CARS理论计算软件拟合CARS实验谱,给出了固体燃剂瞬态燃烧场温度和氮气浓度在不同高度的分布,固体燃剂燃烧场温度约2 250K、氮气相对浓度16%~20%。 相似文献
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通过OH自由基A~2Σ~+→X~2Π_r电子带系分子发射光谱测温法,实现了对氩气、氮气、空气三种大气压微波等离子体气体温度的测量。探究了不同微波功率、不同气体流量下气体温度的变化规律,测量了氮气、空气微波等离子体羽流的轴向温度分布。实验结果表明,不同工作条件下微波等离子体核心温度普遍超过2 000K,空气微波等离子体可超过6 000K;同样工作条件下三种微波等离子体气体温度满足:T_(Ar)T_N_2T_(Air);气体温度总体上随微波功率增加而小幅增加,随气体流量下降而小幅降低;氮气与空气等离子体羽流温度沿轴向迅速降低。为验证分子发射光谱测温法的准确性,以热电偶测温作为比对,对温度较低的介质阻挡放电氩气等离子体进行了温度测量,实验表明,分子发射光谱法与热电偶所测结果十分接近。 相似文献
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通过OH自由基A2Σ+→X2Πr电子带系分子发射光谱测温法,实现了对氩气、氮气、空气三种大气压微波等离子体气体温度的测量。探究了不同微波功率、不同气体流量下气体温度的变化规律,测量了氮气、空气微波等离子体羽流的轴向温度分布。实验结果表明,不同工作条件下微波等离子体核心温度普遍超过2 000 K,空气微波等离子体可超过6 000 K;同样工作条件下三种微波等离子体气体温度满足:TAr<TN2<TAir;气体温度总体上随微波功率增加而小幅增加,随气体流量下降而小幅降低;氮气与空气等离子体羽流温度沿轴向迅速降低。为验证分子发射光谱测温法的准确性,以热电偶测温作为比对,对温度较低的介质阻挡放电氩气等离子体进行了温度测量,实验表明,分子发射光谱法与热电偶所测结果十分接近。 相似文献
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In this work, a double-layered microchannel heat exchanger is designed for investigation on gas-to-gas heat transfer. The micro-device contains 133 parallel microchannels machined into a polished polyether ether ketone plate for both the hot side and cold side. The microchannels are 200 μm high, 200 μm wide, and 39.8 mm long. The design of the micro-device allows tests with partition foils in different materials and of flexible thickness. A test rig is developed with the integration of customized pressure and temperature sensors for in situ measurements. Experimental tests on the counter-flow micro heat exchanger have been carried out for five different partition foils and various mass flow rates. The experimental results, in terms of pressure drop, heat transfer coefficients, and heat exchanger effectiveness are discussed and compared with the predictions of the classic theory for conventionally sized heat exchangers. 相似文献
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Heat transfer characteristics of a gas-to-gas counterflow microchannel heat exchanger have been experimentally investigated. Temperatures and pressures at inlets and outlets of the heat exchanger have been measured to obtain heat transfer rates and pressure drops. The heat transfer and the pressure drop characteristics are discussed. Since the partition wall of the heat exchanger is thick compared with the microchannel dimensions, a simple heat exchange model with constant wall temperature is proposed to predict the heat transfer rate. The predicted heat transfer rate using the constant wall temperature model agrees well with the experimental results. 相似文献
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螺旋折流片换热器壳侧传热与流动的数值模拟 总被引:9,自引:1,他引:8
提出了一种强化管壳式换热器壳侧传热的螺旋折流片式换热器新方案,该方案在部分管子上套上螺旋折流片,不仅强化传热,而且对相邻管子形成支撑;利用FLUENT流体计算软件对同心套管螺旋折流片式换热段的壳侧流场、温度场进行了数值模拟,并讨论了螺旋角对其强化传热和阻力性能的影响。结果显示螺旋折流片诱导的涡旋流动对于减薄边界层,促进近壁流体与主流区流体的动量和质量交换进而强化传热有明显的作用,传热系数可比光管提高约40%-100%,但其流动阻力也将增大。 相似文献
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This paper presents the results of experimental research of heat transfer in air-to-air regenerative heat exchanger with periodic change of flow direction. The temperatures of the airflow and the material of regenerative packing in different sections have been obtained. The temperature efficiency of the heat exchanger has been determined at different flow rates. The developed mathematical model of the regenerative heat exchanger is described. It is shown that the model fairly well describes the experimental results. Based on numerical studies the dependence of thermal efficiency of the heat exchanger on the airflow rate is determined. It is shown that changing the ratio of the oppositely directed flow rates, it is possible to regulate the temperature of the air flowing into the room. The possibility of using the model for optimizing the operational and design parameters of heat exchanger is demonstrated. 相似文献
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依据热力学非对称理论对脉冲管制冷机冷端的热力学过程进行分析 ,对脉冲管制冷机制冷功率的提高提出了改进方案 ,搭建了单级低频大功率脉冲管制冷机的实验台 ,在实验中首次采用新型的填料烧结型换热器作为脉冲管的冷头 ,对这种换热器的效率在不同实验条件下进行了计算 ,并通过实验验证了这种新型换热器在脉冲管制冷机中应用的可行性。实验表明 :改进冷端换热器是提高脉冲管制冷机制冷效率的关键问题。在使用烧结换热器的单级脉冲管制冷机实验台上 ,采用输出功率 3k W的压缩机在 80 K时得到了 35W的制冷量 ,在效率上属国内领先水平。 相似文献
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