应用场结构对YBCO块材悬浮性能的影响

永磁轨道是高温超导磁悬浮车的重要组成部分之一,对YBCO块材在两种应用场:单峰永磁轨道和双峰永磁轨道上的磁悬浮性能进行了数值和实验研究。通过对比两种轨道上方的切向和法向分量的磁场分布,对实验结果进行了分析。实验发现YBCO块材在双峰轨道上方,悬浮力和导向力均大于单峰轨道,双峰轨道在磁利用率方面高于单峰轨道。     

基于磁滞效应的YBCO块材磁刚度测试方法

处于外磁场中的高温超导块材具有自稳定性。这种特性使得高温超导块材在磁悬浮轴承、飞轮储能、磁悬浮列车等方面,具有潜在的应用价值。非理想高温超导体具有很强的磁通钉扎特性,表现出很强的磁滞性。处于悬浮状态的高稳超导体,其稳定特性与其悬浮刚度密不可分。文中首先描述了高温超导块材磁悬浮测试系统磁刚度测试原理。此刚度测试方法充分考虑了非理想高温超导块材磁滞效应对磁刚度的影响。基于这种测试方法,研究了YBCO块材在永磁轨道上方悬浮力刚度的特性。通过与传统刚度测试方法比较,这种方法更能反应高温超导磁悬浮车实际磁刚度特性。     

永磁轨道上方高温超导块材各向异性对悬浮力弛豫特性的影响

采用顶部熔融织构生长法制备的高温超导块材YBCO通常有5个生长区域．通过捕获磁通实验研究,人们发现高温超导块材内部生长区域及边界的捕获磁通能力不同,存在明显的各向异性．面向高温超导磁悬浮应用,本文比较研究了3块不同的高温超导块材YBCO组合在永磁轨道上方悬浮力弛豫特性．实验结果表明,无论场冷还是零场冷情况,块材籽晶生长...     

YBCO堆叠高温超导磁体的磁悬浮振动传递特性实验研究

在YBCO堆叠磁体与永磁轨道构成的高温超导磁悬浮系统中,永磁轨道的振动通过电磁作用传递给YBCO堆叠磁体.本文通过实验研究了振动在YBCO堆叠磁体磁悬浮系统中的传递效率与基振加速度幅值和基振频率的关系.研究表明:在YBCO堆叠磁体磁悬浮系统中,YBCO堆叠磁体自由振动频率在9 Hz左右;一定低频条件下,振动的传递效率与基振加速度幅值呈正相关趋势,与基振频率呈负相关趋势.     

多块YBaCuO高温超导体在永磁轨道上的悬浮力

】报道了多块 YBa Cu O高温超导体块材的不同组合方式在永磁轨道上的磁悬浮力的实验研究结果 ,实验研究证明不同的组合方式对其悬浮力的影响较大。作者分别研究了四块 YBa Cu O高温超导体块材以不同的组合方式在永磁轨道上的悬浮力 ,并进行了分析比较 ,为高温超导磁悬浮车的设计提供了初步的实验依据     

广东科学中心高温超导磁悬浮车设计与制作

广东科学中心交通世界展馆的高温超导磁悬浮车演示模型,由支架、永磁轨道、超导磁悬浮小车、直线电机和控制系统构成。∞形轨道长19m,包含直线、圆曲线、缓和曲线、坡道,轨道沿线布置直线电机线圈和光电传感器。磁悬浮小车为两节联挂,每节小车车体由两个低温液氮容器和一个直线电机动子组成,每个液氮容器中包含6块YBCO超导块材。磁悬浮小车可以在轨道上连续运行,自控系统能够对小车进行启动、加速、减速、定位停车等运行控制,运行模式分自动行驶和手动操作两种。     

永磁轨道外磁场横向不对称分布特性

研究了永磁轨道外磁场的横向不对称分布对高温超导(HTS)磁浮系统悬浮稳定性的影响。采用有限元软件COMSOL Multiphysics,建立HTS磁浮系统的理论仿真模型,求解永磁轨道外磁场横向分布及YBa_2Cu_3O_(7-x)(YBCO)高温超导块材的静态悬浮力。进一步设计搭建三轴运动实验平台,通过相应的测试设备,依次对永磁轨道外磁场、表面轮廓的横向分布及YBCO超导块的静态悬浮力进行测量。仿真与实验结果表明,实际PMG的表面沿横向不平整,相邻永磁之间存在间隙和不同的磁体损伤,导致了横向磁场不对称分布,结果使YBCO超导块在偏离永磁轨道中心对称位置处的静态悬浮力存在差异。     

强钉扎高温超导体与永磁体系统的悬浮力数值模型

本文从数值模拟和实验两方面研究了熔融织构Y-Ba-Cu-O(YBCO)高温超导块材与永磁体组成的磁悬浮系统的悬浮特性.通过理论与实验结果的比较,在Hikihara-Moon超导磁悬浮动力学唯像模型的基础上,提出了强钉扎磁悬浮力模型,并进一步研究了熔融织构YBCO块材在不同条件下的悬浮特性,包括:场冷高度(FCH)和零场冷却(ZFC)的对磁浮力的影响,以及由不同运动速度导致的磁悬浮力的变化等.结果表明,强钉扎磁悬浮力模型适合于精确描述由熔融织构YBCO高温超导块材与永磁体所组成的磁悬浮系统的悬浮特性.     

一种新式单倾角高温超导磁悬浮车永磁道岔设计

高温超导(HTS)磁悬浮列车是下一代新型磁悬浮交通工具的备选方案之一。非接触轮轨系统使得轨道道岔面临诸多问题。给出了一种单倾角永磁体结构的新型机械永磁道岔结构。在使用单倾角永磁体装配永磁道岔时,两相邻永磁体之间的楔形缝隙用于调整永磁轨道在水平面上的曲率,以适应磁悬浮车变道目的。成功推导出了单倾角永磁体的几何尺寸、倾角大小和永磁道岔最小转弯半径之间的关系数学表达式并通过仿真计算进行了初步验证。计算结果表明,当永磁道岔换轨时,这种微小的差别不足于影响高温超导磁悬浮车的运行稳定性。     

永磁导轨磁场的三维有限元计算及纵向磁场不均匀性分析

在高温超导磁悬浮车永磁轨道中,由于轨道的连接处存在缝隙,将影响永磁轨道纵向磁场的分布。文中用CEDRAT公司的Flux3D电磁计算软件,建立了高温超导磁悬浮车导轨磁场的三维计算模型。该模型的计算结果与实验结果一致性较好。用该模型计算并分析了分段导轨连接处无缝隙和具有1mm、2mm和5mm缝隙时的导轨磁场;并分析了纵向磁场的不连续性。     

Effective method to control the levitation force and levitation height in a superconducting maglev system

The influence of the width of the middle magnet in the permanent magnet guideways(PMGs) on the levitation force and the levitation height of single-domain yttrium barium copper oxide(YBCO) bulks has been investigated at 77 K under the zero field cooled(ZFC) state. It is found that the largest levitation force can be obtained in the system with the width of the middle magnet of the PMG equal to the size of the YBCO bulk when the gap between the YBCO bulk and PMG is small.Both larger levitation force and higher levitation height can be obtained in the system with the width of the middle magnet of the PMG larger than the size of the YBCO bulk. The stiffness of the levitation force between the PMG and the YBCO bulk is higher in the system with a smaller width of the middle magnet in the PMG. These results provide an effective way to control the levitation force and the levitation height for the superconducting maglev design and applications.     

Influence of maglev force relaxation on the forces of bulk HTSC subjected to different lateral displacements above the NdFeB guideway

This paper studied the influence of maglev force relaxation on the force (both levitation and guidance forces) of bulk high-temperature superconductor (HTSC) subjected to different lateral displacements above a NdFeB guideway. Firstly, the maglev forces relaxation property of bulk HTSC above the permanent-magnet guideway (PMG) was studied experimentally, then the levitation and guidance forces were measured by SCML-2 measurement system synchronously at different lateral displacements, some times later(after relaxation), the forces were measured again as the same way. Compared to the two measured results, it was found that the change of the levitation force was larger compared to the case without relaxation, while the change of the guidance force was smaller. In addition, the rate of change of levitation force and guidance force was different for different maximum lateral displacements. This work provided a scientific analysis for the practical application of the bulk HTS.     

Analysis and experimental validation of an HTS linear synchronous propulsion prototype with HTS magnetic suspension

A high temperature superconducting (HTS) linear propulsion system composed of a single-sided HTS linear synchronous motor (HTSLSM) in its middle and HTS magnetic suspension sub-systems on both sides has been developed. The HTSLSM uses an HTS bulk magnet array on the moving secondary, and the field-trapped characteristics of the HTS bulk using different magnetized methods have been measured and compared to identify their magnetization capability. In order to generate a large levitation force for the system, three different types of permanent magnet guideways (PMGs) have been numerically analyzed and experimentally verified to obtain an optimal PMG. Based on comprehensive experimental prototype tests, the results show that the HTS linear propulsion system can run with stable magnetic suspension having a constant air-gap length, and the thrust characteristics versus the exciting current, working frequency and the air-gap length have also been obtained. This work forms the basis for developing a practical HTS linear propulsion system by using HTS bulks both for propulsion and suspension.     

Characteristic study of high-Tc superconducting maglev under side-loading

In practical application of High-T_c Superconducting (HTS) maglev, slant is an observable defect. It was caused by constantly one side on and off the vehicle by passengers. So far, this phenomenon has not been reported yet. In order to understand its influence on the stability of the HTS maglev, we experimentally studied the dynamic characteristic and slant effect of HTS maglev under center-load and side-load. It was found that load destabilizes the vehicle, and the side-load can obviously slant the vehicle body. In the end, the pre-load method was proposed to enhance the dynamic stability and suppress the slant, which proved to be considerably effective. These results are critical in practical running of HTS maglev.     

高温超导高速磁浮交通系统悬浮导向与牵引方案研究

本文提出了一种全高温超导高速磁悬浮交通技术模式,该技术模式采用高温超导钉扎悬浮导向和高温超导直线电机牵引,具有高速运行、静态悬浮和动态自稳定悬浮导向三大特征.根据5编组时速500公里磁悬浮列车的运行要求和工况,本文对高温超导钉扎悬浮导向系统和高温超导直线牵引系统进行了方案设计,并通过有限元仿真对所提方案进行了可行性分析和验证.结果证明了全高温超导磁悬浮系统的高速运行、静态悬浮和动态自稳定悬浮导向技术优势和设计方案的可行性.     

Suppression of guidance force decay of HTS bulk exposed to AC magnetic field perturbation in a maglev vehicle system

Superconducting maglev vehicle was one of the most promising applications of HTS bulks. In such a system, the HTS bulks were always exposed to AC external magnetic field, which was generated by the inhomogeneous surface magnetic field of the NdFeB guideway. In our previous work, it was observed that the guidance force of the YBCO bulk over the NdFdB guideway used in the high-temperature superconducting maglev vehicle system was decayed by the application of the AC external magnetic field. In this paper, we adopted a method to suppress the decay by altering the field–cooled height of the bulk. From the experimental results, it was found that the decay rate of the guidance force was smaller at lower field–cooled height. So we could suppress the guidance force decay of HTS bulk exposed to AC external magnetic field perturbation in the maglev vehicle system by reducing the field–cooled height of the bulk. Furthermore, all the experimental results in this paper were explained based on Bean critical-state model.     

预载对高温超导磁悬浮系统中横向运动引起的悬浮力衰减行为的影响

预载是一种有效抑制高温超导磁悬浮系统中由横向运动引起的悬浮力衰减的方法,但目前研究仅停留在概念验证阶段,尚未对影响预载效果的一些因素进行详细地分析和研究.利用高温超导磁悬浮测试系统,本文通过改变块材的冷却条件(场冷和零场冷)、悬浮高度以及轨道磁场结构、材料性能等实验研究了不同预载高度下YB-CO块材的悬浮力随横向运动次数的变化关系,得到这些因素对预载条件下悬浮力随横向运动变化情况影响的规律.结果表明,预载高度越低,由横向运动引起的悬浮力变化越快地趋于稳定,但悬浮力的稳定值也越小,并且这一现象不随冷却条件、悬浮高度、轨道磁场结构和材料性能等因素的改变而变化.     

Levitation performance of the magnetized bulk high-Tc superconducting magnet with different trapped fields

To a high-T_c superconducting (HTS) maglev system which needs large levitation force density, the magnetized bulk high-T_c superconductor (HTSC) magnet is a good candidate because it can supply additional repulsive or attractive force above a permanent magnet guideway (PMG). Because the induced supercurrent within a magnetized bulk HTSC is the key parameter for the levitation performance, and it is sensitive to the magnetizing process and field, so the magnetized bulk HTSC magnets with different magnetizing processes had various levitation performances, not only the force magnitude, but also its force relaxation characteristics. Furthermore, the distribution and configuration of the induced supercurrent are also important factor to decide the levitation performance, especially the force relaxation characteristics. This article experimentally investigates the influences of different magnetizing processes and trapped fields on the levitation performance of a magnetized bulk HTSC magnet with smaller size than the magnetic inter-pole distance of PMG, and the obtained results are qualitatively analyzed by the Critical State Model. The test results and analyses of this article are useful for the suitable choice and optimal design of magnetized bulk HTSC magnets.     

NdFeB永磁轨道上方YBaCuO块材的悬浮稳定性与场冷位置间关系

如何获得稳定悬浮是高温超导磁悬浮系统的一个重大问题.高温超导体在外磁场中所受的悬浮力和导向力是两个衡量系统悬浮稳定性的重要参数.本文实验研究了场冷情况下NdFeB永磁轨道上方YBaCuO块材在竖直运动和水平运动时所受悬浮力和导向力的情况,并且根据Bean模型开发了数值计算程序用于悬浮力和导向力的计算分析.不同竖直场冷高度下计算值和实验值获得了较好的一致性.实验结果和计算结果都显示出永磁轨道场中高温超导体所受的两个力与其场冷历史有着密切的关系,也就是说超导体的悬浮稳定性受场冷历史影响程度较大.不同的竖直场冷高度,其最大悬浮力的变化趋势和最大导向力的变化趋势相反.较小的水平场冷位置导致了较大的导向力和较大的磁滞.根据上述结果,为了获得较优的悬浮稳定性,本文推荐了可行的场冷高度范围和有效的高温超导体组合方式.     

HTSC Maglev Systems for IFE Target Transport Applications

A challenge in inertial fusion energy (IFE) research is to deliver the target to the target chamber center at a high repetition rate. Therefore, the problem of target fabrication and delivery is focused on methods that scale to highly repeatable and cost-effective target production. In this paper, we investigate the possibility of using magnetic-levitation (maglev) transport systems for noncontact manipulation, positioning, and delivery of the cryogenic targets. We focus on the development of transport systems based on movement of high-temperature superconductors (HTSC) over a permanent magnet guideway (PMG). Active guidance is achieved using the HTSC ceramics YBa₂Cu₃O₇? _X and PMG, where an ordered motion is initiated by a special arrangement of the permanent magnets. At present, significant R&D programs are ongoing in order to fulfill the technical requirements and basic elements of the system’s operation as a maglev target accelerator. We present here the main results of this work along with recent results.