Modelling thermodynamics in a high-temperature superconducting dipole magnet: an inverse problem based approach

Ruuskanen, Janne; Stenvall, Antti; Lahtinen, Valtteri; Nugteren, J. van; Kirby, G.; Murtomäki, Jaakko Samuel

doi:10.1088/1361-6668/ab2bc9

Cited by 4 publications

(2 citation statements)

References 27 publications

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“…A variety of magnetic field values and orientations is experienced by different tapes, and these will modify the values contributing to I c i , in (34). One can represent it by introducing the reduction factors α j caused by the magnetic field depending on the tape position [83,84]. These will affect the local critical currents with respect to the self-field values I cij,self leading to the modification of (36) as ( )…”

Section: Cable From Tapes In Electrical Contactmentioning

confidence: 99%

Impact of critical current fluctuations on the performance of a coated conductor tape

Gömöry

Šouc

Adámek

et al. 2019

Supercond. Sci. Technol.

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Coated conductor (CC) tapes often exhibit critical current, Ic, which fluctuates along the length coordinate, x, leading to an Ic(x) dependence. The need to reduce the price of these tapes does not favor a decrease in the variation of Ic in the near future. Therefore, it is reasonable to develop a method for estimating the possible impact of such fluctuating transport ability on the performance of superconducting devices. Fortunately, providing Ic(x) data together with the delivered conductor is becoming a standard approach among CC tape producers, and in-depth analysis of such data is now possible. Extrapolation of the short sample testing methodology to the case of a device incorporating many meters of CC tape leads to the introduction of an ‘overall critical current’ as a value generating 1 μV cm−1 of electric field over the whole conductor. We show that in the case of Ic(x) fluctuations obeying the Gaussian distribution one can predict the value of the overall critical current from the mean value and the variance of the Ic(x) data set. Deviation from the Gaussian distribution found in real tapes would cause a further reduction of the overall critical current. Conversely, in the case of strong dropouts in the critical current value, a statistical approach is useless and one must analyze the probability of the weakest location developing in a hot spot with a dramatic increase of temperature. Extending the analysis for a single tape to cables and coils results in a rather simple summary: when current sharing is possible, the reduction of overall critical current with respect to its mean value is significantly depressed. This favors the parallel arrangement of tapes with low contact resistance allowing current migration from tape to tape. On the other hand, the insulation of tapes leads to the same overall critical current reduction as observed for a single tape.

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Section: Cable From Tapes In Electrical Contactmentioning

confidence: 99%

Impact of critical current fluctuations on the performance of a coated conductor tape

Gömöry

Šouc

Adámek

et al. 2019

Supercond. Sci. Technol.

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“…In this context, several approaches have been developed for modeling of large scale HTS coils, where, the finite element method based on the H formulation is the most commonly used [8,9]. Homogenization strategies have been successfully applied in some works for modeling inductive coils as single homogeneous anisotropic bulks, where different approaches of the homogenized properties are used, depending on the geometrical structures; the simplest gives the new properties in prorate of the HTS volume fraction [10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Fast modeling approach of large-scale non-inductive HTS coils under different current supply

et al. 2023

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This paper presents a fast-integral modeling approach for the design and characterization of large-scale non-inductive high temperature superconducting (HTS) coils made of first-generation HTS tape. The integral modeling is combined with a strategy of far tape approximation allowing to model a reduced set of consecutive tapes instead of the entire coil. It makes it possible to estimate the losses and the current density distribution in the coil, under different current supply. This leads to a considerable reduction in the computation time. The calculated AC losses show a good agreement with the Norris ellipse formula and measurements, highlighting the importance of considering the elliptical section of the superconductor in the tape, in the modeling. The developed modeling approach is in particular useful in the AC+DC mode, where Norris’s formulas cannot be used to determine the losses. Besides, some interesting phenomena have been observed, related to the current distribution in the tapes at different AC and DC current values.

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Hybrid cooling scheme combining the novel supercritical helium forced flow method with heat conduction for superconducting dipole magnets in proton therapy facilities

Zheng

Liu

et al. 2023

Cryogenics

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Modelling thermodynamics in a high-temperature superconducting dipole magnet: an inverse problem based approach

Cited by 4 publications

References 27 publications

Impact of critical current fluctuations on the performance of a coated conductor tape

Impact of critical current fluctuations on the performance of a coated conductor tape

Fast modeling approach of large-scale non-inductive HTS coils under different current supply

Hybrid cooling scheme combining the novel supercritical helium forced flow method with heat conduction for superconducting dipole magnets in proton therapy facilities

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