共查询到19条相似文献,搜索用时 78 毫秒
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准确计算分析超导磁体低温系统的漏热量,是评价超导磁体低温绝热性能的重要依据。文中以一台自制的7 T磁共振成像系统(MRI)的超导磁体作为研究对象,对其低温系统进行了详细的漏热计算,分别得到了液氦容器和液氮容器的理论漏热量。将计算结果与实测数据进行比较,分析了磁体实际的低温性能。 相似文献
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FAIR收集环超导二极磁体支撑设计与热负荷分析 总被引:1,自引:0,他引:1
为保证FAIR收集环(Collector ring-CR)超导二极磁体工作过程中的磁场位形符合设计要求,同时保证由磁体支撑带来的热负荷小于设计要求,用CATIA软件建立了不同结构的磁体支撑3D模型,并用ANSYS有限元分析软件对建立的模型进行了低温热负荷分析和结构分析。通过比较分析的结果和对磁体支撑结构进行的进一步优化,确定了316LN+G10材料的支撑结构,为收集环超导二极磁体工程制造提供了参考。 相似文献
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C. Ferret L. Falk A. Chenu U. DOrtona T. T. Veenstra 《Superlattices and Microstructures》2004,35(3-6):657
The heat transfer performance of a micro-vaporizer has been measured by conventional methods (using temperatures, flow rates, effective power input). The study was carried out for laminar flow in channels (5 mm×3 cm×200 μm) micro-structured with square obstacles to increase the specific area. The results show that high heat transfer coefficients (1300– 2500 W m−2/C−1) can be reached in such a micro-structured channel. Image analysis was done to estimate the volume vapour fraction, which can be converted into the mass vapour fraction using a slip ratio and avoids the need for any temperature or electric power input measurements. The estimation of this slip ratio is discussed in this paper. 相似文献
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Roughness effect on the heat transfer and pressure loss performances of microscale tubes and channels are investigated through a finite element CFD code. Surface roughness is explicitly modelled through a set of random generated peaks along the ideal smooth surface. Different peak shapes and distributions are considered; geometrical parameters are representative of tubes in the diameter range from 50 to 150 μm. The use of a fine enough mesh allows the direct computation of tube performances under the assumption of incompressible fully developed flow. As a result, a significant increase in Poiseuille number is detected for all of the configurations considered, while the effect of roughness on heat transfer rate is smaller and highly dependent on the tube shape. 相似文献
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