共查询到17条相似文献,搜索用时 125 毫秒
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对熔融盐高温斜温层蓄热过程进行了较深入的理论与实验研究.基于多孔介质局部热平衡理论,建立了多孔介质中熔融盐流体斜温层蓄热的局部热平衡数值模型,研究了熔融盐、多孔介质孔隙结构参数对多孔介质中熔融盐流体传热与流动的影响规律,并在熔融盐传热-蓄热实验平台上进行了试验研究.结果表明:与熔融盐单相流体斜温层(无填充多孔介质)蓄热系统相比,多孔介质填料能够减少斜温层的厚度和改善其形状,采用单位体积热容量(pc)s大于(pc)f,孔隙率(?)小于0.4有利于降低斜温层厚度及其移动速度.揭示了多孔介质中熔融盐流体斜温层蓄热系统的蓄热特性,为熔融盐高温斜温层蓄热的设计和运行控制提供依据. 相似文献
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本文建立了双层相变材料熔盐斜温层储热系统的传热储热数值模型,分析了相变材料熔点/位置/含量/比例对储热系统斜温层厚度、流固温差和有效热效率等参数的影响规律。结果表明,由于相变材料的存在,储热系统斜温层分为高温斜温层,低温斜温层和相变层,出口温度出现三个平台,储热系统形成热能梯级输出,使有效放热效率升高。相变材料位置直接影响储热系统性能,高熔点相变材料靠近出口,提高了中高温段放热量。下层填充物占罐体高度比为0.15时,有效放热效率比单层时提高3%~10%。 相似文献
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蓄热技术是平衡热量供应和需求的有效手段,可以提高系统的热稳定性和延长工作时间。应用于太阳能高温热发电中的单罐斜温层蓄热系统越来越受到重视。本文从热力学第二定律出发对蓄热系统的不可逆损失进行了研究,分析了蓄热过程中蓄热材料的密度、导热系数、颗粒直径和熔盐的流速等参数对蓄热系统熵产的影响。结果表明当蓄热材料密度较小,导热系数较小、蓄热球颗粒直径较小时,系统的熵产值较小;当熔盐流速较低时,系统的熵产值也较小。 相似文献
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新型低熔点熔盐黏度的实验研究 总被引:2,自引:0,他引:2
熔盐因其具有广泛的使用温度范围,低蒸气压,大热容量,低黏度,良好的稳定性,低成本等诸多特性已成为聚光太阳能热发电中颇有潜力的传热蓄热介质。准确的熔盐热物性对于太阳能发电过程中介质的传热蓄热性能有重要影响。其中熔盐黏度作为重要的热物性之一,对于提高传热效率和降低流动阻力具有决定作用。本文利用研制的高温黏度测量仪对水和HITEC盐的黏度温度特性进行了实验研究,实验结果与文献数据具有较好的一致性,证明了该高温熔盐黏度仪的可靠性。为了降低混合熔盐的熔点,改进其热物性能,本文对Solar Salt进行改性研究,得到两种新型低熔点混合熔盐,并测定得到了黏度温度特性曲线。结果表明,改性后的高温熔融盐黏度有所降低,有利于降低太阳能热发电熔盐传热管路系统的阻力和成本。 相似文献
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熔融盐以其优良的性能在太阳能热发电站中常被用作储热和蓄热介质,然而由于蓄热的熔融盐工作温度高达500?600℃,这就使得熔融盐对蓄热系统材料的腐蚀成为一个关键问题。本文以美国新月沙丘塔式熔盐太阳能热电站为原型,针对其运行情况,自主设计并搭建旋转式高温NaNO3/KNO3二元熔盐腐蚀特性模拟实验系统,探究了304不锈钢在特定温度、不同流速、不同时间协同作用下的腐蚀动力学特性,并利用SEM、EDX、XRD等分析测试技术探索材料表面的微观腐蚀形貌和腐蚀产物形态及元素组成,揭示了304不锈钢在高温流动熔融盐中的腐蚀行为规律和腐蚀机理。 相似文献
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On account of excellent thermal physical properties, molten nitrates/nitrites salt has been widely employed in heat transfer and thermal storage industry, especially in concentrated solar power system. The thermal stability study of molten nitrate/nitrite salt is of great importance for this system, and the decomposition mechanism is the most complicated part of it. The oxide species O22- and O2- were considered as intermediates in molten KNO3-NaNO3 while hard to been detected in high temperature molten salt due to their trace concentration and low stability. In this work, the homemade in situ high temperature UVVis instrument and a commercial electron paramagnetic resonance were utilized to supply evidence for the formation of superoxide during a slow decomposition process of heat transfer salt (HTS, 53 wt% KNO3/40 wt% NaNO2/7 wt% NaNO3). It is found that the superoxide is more easily generated from molten NaNO2 compared to NaNO3, and it has an absorption band at 420-440 nm in HTS which red shifts as temperature increases. The band is assigned to charge-transfer transition in NaO2 or KO2, responsible for the yellow color of the molten nitrate/nitrite salt. Furthermore, the UV absorption bands of molten NaNO2 and NaNO3 are also obtained and compared with that of HTS. 相似文献
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颗粒传热实验测控系统是为颗粒换热平台设计的测控系统。该系统基于分布式系统EPICS架构设计,通过对NI硬件平台、红外热像仪设备以及Oracle数据库进行集成,实现了颗粒换热平台实验的在线采集、监测、控制与实时存储。由于红外热像仪具有灵敏度高、测温范围广、非接触测温等优点,因此在该测控系统中用于测量颗粒在换热器出口处的温度。本文使用SDK将其集成到EPICS系统中,利用红外图像更加直观地呈现出颗粒的实时温度分布,并提取红外图像中的数据,与热电偶的测量数据对比,进一步检测利用红外热像仪作为一种颗粒实时温度测量设备的可行性。实验结果表明,集成后的红外热像仪操作软件能够实时提取并存储红外图像中的温度数值,并且采用EPICS架构设计、开发的颗粒传热实验测控系统完全可以满足颗粒换热平台的数据采集与存储需求。 相似文献
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María Jos Montes Jos Ignacio Linares Rubn Barbero Beatriz Yolanda Moratilla 《Entropy (Basel, Switzerland)》2020,22(8)
One of the ways to make cost-competitive electricity, from concentrated solar thermal energy, is increasing the thermoelectric conversion efficiency. To achieve this objective, the most promising scheme is a molten salt central receiver, coupled to a supercritical carbon dioxide cycle. A key element to be developed in this scheme is the molten salt-to-CO2 heat exchanger. This paper presents a heat exchanger design that avoids the molten salt plugging and the mechanical stress due to the high pressure of the CO2, while improving the heat transfer of the supercritical phase, due to its compactness with a high heat transfer area. This design is based on a honeycomb-like configuration, in which a thermal unit consists of a circular channel for the molten salt surrounded by six smaller trapezoidal ducts for the CO2. Further, an optimization based on the exergy destruction minimization has been accomplished, obtained the best working conditions of this heat exchanger: a temperature approach of 50 °C between both streams and a CO2 pressure drop of 2.7 bar. 相似文献
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Measurements of the gas-to-wall forced-convection heat transfer coefficient in a packed-bed, high-temperature, thermal energy storage system were carried out. The maximum temperature attained was 1,000°C. Effects of media property variations with temperature were incorporated along with detailed uncertainty analysis. Results were correlated in terms of Nusselt number, Prandtl number, and Reynolds number. The operating fluid during energy storage was flue gas and air during recovery, making this more applicable to industrial waste recovery and similar systems. Similar studies used air for both storage and recovery and developed correlations from experiments at either room temperature or slightly above. Few associated results with corresponding uncertainty margins. Due to substantial uncertainties associated with the measurements of this heat transfer coefficient, it is significant to note that no firm conclusions can be reached on the validity or otherwise of existing similar correlations for which the uncertainty margins were not reported. 相似文献