Experimental study of the stack geometric parameters effect on the resonance frequency of a standing wave thermoacoustic refrigerator

Thermoacoustic refrigeration is an emerging technology that makes use of acoustic power to pump heat. The resonance frequency is important for the performance of thermoacoustic refrigerators, as it affects the temperature difference across the stack. This paper aims to optimize the performance of thermoacoustic refrigerators by experimentally investigating the effect of the stack geometric parameters (i.e. stack position, stack length, and the stack size) on the resonance frequency of a standing wave loudspeaker driven thermoacoustic refrigerator. Celcor Ceramic stacks of normalized positions of 0.764, 1.05, 1.43, and 1.72, normalized lengths of 0.076, 0.114, 0.153, and 0.191, and two porosities of 0.8 and 0.85 are used. The clarification of the relationship between the stack geometric parameters and the resonance frequency of the thermoacoustic refrigerator is presented. Moreover, the coefficient of performance of the thermoacoustic refrigerator is observed to increase at the resonance frequency of each stack configuration.     

行波管性能测试用试验箱的结构特点及其设计

介绍了一种专门用于行波管性能测试的试验箱的设计过程。在对试验箱结构特点进行分析的基础上,通过结构设计、制冷系统设计和控制系统设计,尤其在风道结构布局方面的创新设计,成功研制了该型试验箱,并在生产过程中得到了实际应用。     

空气涡轮制冷低温粉碎法回收废弃橡胶

利用带回冷循环的空气涡轮制冷系统，在低温条件下，将废旧橡胶进行冷冻、粉碎、制成６０目以上的精细胶粉。此法的冷冻能耗成本仅为国际上通用的液氮法的１／１０，整具工艺过程不产生二次污染，为废旧橡胶的综合利用提供了一条新途径。     

氨制冷系统压力管道安装及实验的要点

近年来,液氨管道事故的不断发生,引起了人们对氨制冷管道系统工程的高度重视.首先介绍了氨的性质,然后介绍了氨制冷管道安装及实验应该注意的一些要点,希望能对氨制冷工程的管道安装质量起到一些作用.     

高温独头巷道人工制冷降温效果的优化研究*

为优化移动式人工制冷设备在高温独头掘进巷道工作面的制冷效果,通过设置风障形成密闭制冷空间,利用数值计算的方法,分别分析风障距工作面距离、回风管压力、回风管垂直高度对掘进工作面制冷效果的影响。研究结果表明:设置风障能够有效缩小制冷空间,阻隔热量,提高制冷效果;风障与工作面之间的距离对制冷效果有显著影响,风障的最佳布置距离为5 m;回风口压力过大或过小都不利于制冷效果,最佳压力为-70 Pa;回风管垂直高度不同,制冷效果也大有不同,其最佳高度为1 m。利用数值模拟所得工况参数进行现场试验,结果表明风障在高温独头掘进巷道降温中具有良好的实际应用效果。研究结果对高温矿井人工制冷工况优化,提高制冷效果具有指导意义。     

氨氮水样的稳定性试验

对采集于聚乙烯塑料瓶内的氨氮地表水样，应立即加入盐酸，使pH值≤2进行现场固定，分别于2～5℃恒温冷藏保存，与20．28℃室温保存，每隔48h检测，连续检测一个月。检测结果统计表明，两种保存方法的测试结果基本一致，氨氮水样在一个月内的检测值基本恒定，水样表现稳定。     

Analysis of a solar photovoltaic-assisted absorption refrigeration system for domestic air conditioning

Theoretical model of a solar photovoltaic integrated water-Lithium bromide absorption system is presented for domestic air conditioning. Surplus electrical energy from photovoltaic modules is used for charging the battery, which is utilized during the periods of zero or insufficient solar radiation. Minimum solar area required for each month is calculated and October is identified as the month requiring the highest area of photovoltaic arrays for a constant cooling load of 3.5 kW. The integrated system is found to be capable of sufficient amount of surplus electrical energy generation during both summer and winter months, with a daily excess of about 815 Ah of electrical energy on average over a complete calendar year. Designed system is found to be economically viable, having an energy payback period of 2.7 years.     

预浓缩/柱箱制冷GCMS/FID法测定大气中117种挥发性有机物

建立了罐采样、吸附剂辅助电子制冷预浓缩-柱箱制冷GCMS/FID同时测定大气中117种挥发性有机物(VOCs)的方法.样品经填充吸附剂的电子制冷预浓缩系统除水、除CO2、浓缩和热脱附后,采用柱箱制冷及GCMS/FID的多维切割单元,将5种C2-C3组分切到二维色谱柱进行分离并进入FID检测,甲醛及其他111种VOCs组...     

集成催化燃烧和氨水吸收制冷的油气冷凝吸附回收系统

为回收并资源化利用挥发油气,建立了一种集成冷凝、吸附、催化燃烧和氨水吸收制冷技术的油气回收系统。为分析该系统回收油气时的回收率和能耗,结合油气混合物及其组 分浓度数据,对采用该系统回收油气的方案进行建模和计算。利用Aspen Plus软件模拟3级冷凝过程,改变2级冷凝温度,得到相应的能耗、未被冷凝的油气量和组分浓度;利用Aspen Plus软件模拟单级氨水吸收式制冷过程,得到相应的制冷系数和能耗;估算催化燃烧子系统所需的油气量;对于吸附子系统,只考虑吸附过程,进入吸附装置的油气全部得到回收。通过计算求得油气的回收率和系统的能耗。结果表明:采用该工艺系统回收油气时,回收率和能耗均随二级冷凝温度的升高而降低;相较于传统的“冷凝加吸附法”工艺,该工艺系统的能耗降低30%左右,回收率仅降低2%左右。     

Thermal performance of ice-making machine with a multi-channel evaporator

An experimental investigation is presented in this paper on the vapor compression refrigeration cycle used in an ice-making machine with a multi-channel evaporator. To study the operation performance of the refrigeration system in the ice-making machine, the fluid temperature distribution in multi-channel evaporating coils are tested and the dynamic variations in each cooling loop are investigated during the ice-generating phase. The results show that the external cooling loops have the largest temperature fluctuations caused by the large initial refrigerant injecting mass flow and the external environmental disturbances. For the inner cooling loops, the related temperature profiles of different test points have relative stable variations. To reduce the temperature fluctuations of the outside loops, it is suggested to reduce the initial refrigerant mass flow and adjust the initial opening of the thermal expansion valve. Moreover, it is the normal phenomenon for the slight temperature variations for the temperature curves of different test points, caused by the adjustment of thermal expansion valve. During the ice-making process, both the sensible heat removal phase and latent heat removal phase are experienced successively. To remove the sensible heat of water, the refrigerant system is operating in high efficiency with test points having a rapid linear temperature reduction. While for eliminating the latent heat of ice, it requires much more power supply, the relating test points have a temperature decrease with fluctuations. To improve the operation performance of ice machine, some suggestions and improvements are proposed.