High Temperature Superconducting Magnetic Levitation
246 Ë 7 Numerical simulations of HTS Maglev Fig. 7.19:Normalized maximum levitation forces with the ratio of height to width of ...
7.6 Three-dimensional modeling and simulations Ë 247 level. A prominent advantage of theTmethod lies in the fact that the state ...
248 Ë 7 Numerical simulations of HTS Maglev Eq. (7.65) is reduced to the following form when the Coulomb gauge and boundary cond ...
7.6 Three-dimensional modeling and simulations Ë 249 When we replace휎sby a tensor resistivity휌sto take the anisotropy of the HTS ...
250 Ë 7 Numerical simulations of HTS Maglev Eq. (7.75) can be rewritten in the following form when Eq. (7.77) is taken into acco ...
7.6 Three-dimensional modeling and simulations Ë 251 7.6.2.2Example of applications: optimization of the configuration of the PM ...
252 Ë 7 Numerical simulations of HTS Maglev Fig. 7.21:Chart of the Maglev system with three HTSCs undergoing the vertical or tra ...
7.6 Three-dimensional modeling and simulations Ë 253 Fig. 7.22:Changing curves of the levitation forces on the HTSCs at position ...
254 Ë 7 Numerical simulations of HTS Maglev Fig. 7.23:Changing curve of the guidance forces on HTSCs at a lateral displacement o ...
7.6 Three-dimensional modeling and simulations Ë 255 Fig. 7.24:Changing curve of the levitation forces on the HTSCs at positions ...
256 Ë 7 Numerical simulations of HTS Maglev Fig. 7.25:Changing curve of the guidance forces on the HTSCs at a lateral displaceme ...
References Ë 257 Fig. 7.26:Levitation forces versus height of Rail_A (a) and Rail_B (b). The height of both PMGs varied from 15 ...
258 Ë 7 Numerical simulations of HTS Maglev [4]Yang Y, Zheng XJ. Method for solution of the interaction between superconductor a ...
References Ë 259 [22]Del-Valle N, Sanchez A, Pardo E, Navau C, Chen DX. Enhanced stability by field cooling in superconducting l ...
260 Ë 7 Numerical simulations of HTS Maglev [47]Miya K, Hashizume H. Application of T-method to AC problem based on boundary ele ...
Jun Zheng, Zi-Gang Deng, Jia-Su Wang, and Su-Yu Wang 8 New progress of HTS Maglev vehicle 8.1 Introduction Since there is no mec ...
262 Ë 8 New progress of HTS Maglev vehicle These preliminary explorations not only proved the feasibility, but also demons- trat ...
8.2 Dynamic characteristics Ë 263 SWJTU, China, will be systemically summarized and reviewed in the next sections to illustrate ...
264 Ë 8 New progress of HTS Maglev vehicle Fig. 8.2:Top view of the vibration experimental set-up. by the vibration measurement ...
8.2 Dynamic characteristics Ë 265 Fig. 8.4:Typical vertical dynamic response of the HTS Maglev vehicle model at the B point afte ...
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