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The invention of air conditioner (AC) has undoubtedly saved the world from the heat of summer. The development of AC is an important embodiment of continuous development and perfection of science and technology. This article explains the mechanism of freon pollution from the perspective of chemistry, and enumerates the important role of fluoride in daily life, to eliminates people's misunderstanding of fluorine element. The hardships of extracting fluorine reflect the chemists' research experience of collecting experience from failure and the scientific spirit of pursuing the truth. 相似文献
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提高低温制热量是小型家用空调器技术的一个难点,除霜带来的热量损失是低温制热量损失的一个重要方面。对小型家用空调器的除霜技术的发展进行了分析和总结,对小型家用空调器提出了一些新的除霜方式,对提高空调器的低温制热量、使用性能有重要意义。 相似文献
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In the paper, a cross‐flow fan in refrigerant operating condition is systematically simulated using user‐defined functions. Three‐dimensional simulations are acquired with Navier–Stokes equations coupled with k–ε turbulence model, and internal flow characteristics of an indoor split‐type air conditioner are obtained, which is mainly composed of cross‐flow fan and heat exchanger. It has systematically been simulated in the isothermal flow condition that the performance of cross‐flow fan may be reduced easily with dry or humid air, and in the refrigerant operating condition in which user‐defined functions are applied to the humid air, considered as a mixture of dry air and vapor. A density‐modulated function is adopted to deal with the condensation of the vapor at the heat‐transfer region approximately. The results show flow mechanism of the two gas‐phase flow, including phase‐vary process. The distribution of the parameters is not uniform at the inlet of the machine, the intensity and position of pressure and velocity vary along the axial direction of the fan, the distribution of vapor volume fraction and turbulent intensity in heat‐transfer region is obtained, and the external characteristic data of the indoor machine are obtained and analyzed. Compared with the experimental data, the calculated characteristic curves and designed parameters are on target. © British Crown Copyright 2010/MOD. Reproduced with permission. Published by John Wiley & Sons, Ltd. 相似文献
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空调制冷系统具有滞后大、非线性等特点,采用普通控制方式时效果不佳。采用模糊PID控制器对系统电子膨胀阀开度进行控制,并设计了模糊控制器,选取了PID控制参数。实践结果表明,该控制方法简单有效,很好地满足了用户的实际需要。 相似文献
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尾缘凹陷轴流风轮内流特性分析与降噪研究 总被引:1,自引:0,他引:1
为减少空调室外机用低压轴流风轮叶片的颤振,改善音质,降低噪音和电机功率。本文设计了尾缘凹陷新型三叶轴流风轮,同时除对前缘局部加厚处理外,对叶片其他区域整体减薄。文中采用Navier-Stokes方程对新风轮和原风轮的内流及气动特性进行了三维数值模拟,同时对两者的流量压力曲线和噪音频谱进行了实验研究。研究表明:对轴流风轮叶片尾缘进行凹陷设计,对前缘以外的区域减薄设计,能够减轻风轮重量,降低电机负荷同时减弱转子尾迹;对叶轮前缘进行局部加厚处理可以减小叶尖颤振,降低叶片旋转频率峰值噪音,从整体上降低噪音,改善音质。 相似文献
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本特种工程车用空调器采用蒸气压缩制冷原理,即利用液态制冷剂吸热汽化产生制冷效应,利用车上的发动机作为驱动源,通过皮带传动带动压缩机工作,使制冷剂在系统内产生循环,通过换热器与空气进行热交换,从而实现车室的降温要求。制冷剂采用新型环保制冷剂R134 a,整机结构紧凑、性能可靠、换热效率高。 相似文献
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随着空调技术的进一步发展,低温送风空调系统逐渐兴起。文中利用fluent 6.3,通过对低温送风空调系统末端装置——诱导混合箱进行内部空气流动及传热模拟,研究内部其气体流动规律及诱导性能,对诱导混合箱的性能优化及选用提供了理论依据。 相似文献