Showing total 94 results

1. Equivalent Models of Critical Current and Magnetization for Calculating the Magnetic Field in Simply Connected Structures Made of HTS Bulk and HTS Tape.

Author

Kurbatova, E. and Kurbatov, P.

Subjects

*MAGNETIC fields, *MAGNETIZATION, *ELECTROMAGNETIC fields, *HIGH temperature superconductors, *SUPERCONDUCTORS, *CRITICAL current density (Superconductivity), *CRITICAL currents, *ADHESIVE tape

Abstract

This paper proposes a way to represent the anisotropic nonlinear superconducting properties using a discrete model for magnetization with the corresponding critical parameters, equivalent to the Power Law model for currents. This simplified model makes it possible to analyze magnetic systems with superconducting elements in a stationary mode, which reduces the calculation time. Using of proposed model is demonstrated by the calculation of force interactions between high-temperature superconducting (HTS) samples and permanent magnet in zero-field-cooling (ZFC) and field-cooling (FC) modes. HTS bulks in the form of a prism and stack made of HTS tape are considered. The calculation of the electromagnetic field was carried out using the method of integral equations for field sources. The data of calculations are compared with the results of experimental studies. [ABSTRACT FROM AUTHOR]

Published

2022

2. Conceptual Design and Optimisation of HTS Roebel Tapes.

Author

Hao, Luning, Shen, B., Ma, Jun, Yang, J., Patel, I., Hu, J., Tian, M., Wei, H., Shah, A., Wang, Q., and Coombs, T. A.

Subjects

*CABLES, *ADHESIVE tape, *CONCEPTUAL design, *HIGH temperature superconductors, *ATHLETIC tape, *FINITE element method, *SUPERCONDUCTING cables

Abstract

The main obstacle for the application of the high-temperature superconducting (HTS) coated conductors (CCs) in AC energy applications is the relatively large AC loss. To tackle this, several forms of HTS cables for AC applications have been invented and investigated, such as the HTS Roebel cable, Cable on Round Conductor (CORC), and Twisted Stacked Tape Cable (TSTC). In this paper, the possibility of encapsulating Roebel cables into a single HTS CC is investigated, from which a novel conception of a Roebel tape is proposed. Compared with the existing HTS cables, HTS Roebel tapes are more compact, more capable at carrying large current with minimised AC losses, and easier to manufacture. A 3D finite element method (FEM) model of the Roebel tape is built to optimise the structure and verify the performance. The results show that, compared with normal ReBCO CCs, Roebel tapes with optimum patterns can reduce AC transport losses by 60% through field-cancelling and can reduce magnetisation losses by the factor of the filament number through patterning. With excellent loss reduction performance and high current capability, the Roebel tape shows great potential to become a revolutionary HTS cable for high-current power transmission and AC machine applications. [ABSTRACT FROM AUTHOR]

Published

2022

3. Modeling of an Axial Field Machine (AFM) With Superconducting Windings.

Author

Wei, Haigening, Shen, Boyang, Shah, Adil, Yang, Jiabin, Hao, Luning, Tian, Mengyuan, Hu, Jintao, Patel, Ismail, Ozturk, Yavuz, and Coombs, Tim

Subjects

*SUPERCONDUCTING coils, *HIGH temperature superconductors, *MACHINE parts, *FINITE element method, *POWER density

Abstract

The development of high-temperature superconducting (HTS) electrical machines results in applications of various fields, as they have higher efficiency and power density. Numerical modeling of superconducting electrical machines is usually performed by finite element method based their electrical behavior, and H-Formulation of the Maxwell's equations is one of the models that are used tremendously due to its high flexibility and simplicity. Axial field machine (AFM) is a machine topology with higher efficiency and power density, but with more complexity when modeling. This paper proposed a new 2D model for the superconducting AFM, where the superconducting coil is simulated with a 2D infinitely long model, this model also divides the electrical machine into two parts: the superconducting parts (HTS coils, bulks, etc.) and non-superconducting parts (e.g., conventional conductors, machine structure). This paper compares the results of H-A Formulation and T-A Formulation with this approach, which requires appropriate boundary conditions and continuity between the two regions, along with correct modeling of fixed and moving parts of the electrical machine, where the geometry of this model is based on a linear synchronous machine, which means the rotor is moving linearly instead of rotation. [ABSTRACT FROM AUTHOR]

Published

2022

4. 3D FEM Modeling of ${\mathrm CORC}$ Commercial Cables With Bean’s Like Magnetization Currents and Its AC-Losses Behavior.

Author

Fareed, M. U., Kapolka, M., Robert, B. C., Clegg, M., and Ruiz, H. S.

Subjects

*COFFEE beans, *MAGNETIZATION, *CABLES, *MAGNETIC fields, *BEANS, *SUPERCONDUCTING cables

Abstract

The Conductor on Rounded Core (${\mathrm CORC}$) cables manufactured by Advanced Conductor Technologies with current densities beyond 300 Amm $^{-2}$ at 4.2 K, and bending diameter of up to 3.5 cm, are considered as one of the strongest candidates for the next generation of high field power applications and magnets. In this paper, we present a full 3D FEM model for their monolayer and bilayer ${\mathrm CORC}$ cables made with up to three and six superconducting tapes respectively, disclosing the full curve of AC losses for the monolayer cable at magnetic fields beyond 60 mT, and the actual distribution of current density along and across the thickness of the superconducting tapes in both designs. The model is based on the so-called H-formulation, allowing to incorporate the true three-dimensionality of the tapes without recurring to 2D thin-film approaches where non-physical surface currents that do not follow the celebrated Bean’s model for type-II superconductors appear. Likewise, good agreement with the experimentally measured AC-losses for the monolayer and bilayer cable have been obtained, with all the details of the model disclosed in this paper. [ABSTRACT FROM AUTHOR]

Published

2022

5. The Magnetization of HTSC Tapes Stack in the Flux Pump Regime.

Author

Podlivaev, Alexey I., Pokrovskii, Sergei V., Veselova, Svetlana V., Anishchenko, Irina V., and Rudnev, Igor A.

Subjects

*MAGNETIZATION, *MAGNETIC moments, *DENSITY currents, *MAGNETIC fields, *MAGNETIC flux, *CRITICAL current density (Superconductivity), *ADHESIVE tape

Abstract

In the present paper, the possibility of magnetization of HTSC tape by means of pumping by a local magnetic field is considered. Within the framework of the critical state model, the calculation of the density of the induced currents and the magnetization of a square (12 × 12 mm) fragment of a second-generation HTS tape (YBCO) was made. The model considers real dependence of the critical current density on the magnetic field and has been successfully tested previously. In the sample, the currents were induced by the impact of a local magnetic field. The size of the localized area of the external magnetic field to be considered was much smaller than the size of the HTS sample. It is showed that the repeated cyclical impact of the local outer field leads to the accumulation of the total magnetic moment in the sample up to a magnitude of 94% of the theoretical magnetization limit for this sample. The results obtained make it possible to optimize the mode of magnetization of a square fragment of a tape (or a stack of tapes) when implementing a magnetic flux pump. The experimental studies showed results comprisable well with theoretical ones. [ABSTRACT FROM AUTHOR]

Published

2021

6. Design of Pulsed Magnet for Adjusting the Residual Stress Field in Large-Size Aluminum Alloy Rings.

Author

Tang, Yinghao, Li, Xiaoxiang, Zhang, Yi, Liu, Haixiang, Cao, Quanliang, and Li, Liang

Subjects

*ALUMINUM alloys, *RESIDUAL stresses, *MAGNETS, *ELECTROMAGNETIC pulses, *ELECTROMAGNETIC forces, *MANUFACTURING processes

Abstract

Large-size aluminum alloy rings are widely used as connector, transition ring and reinforcing structure in aerospace and other fields. However, the residual stress introduced during the manufacturing process lead to the structural instability and poor mechanical properties of the aluminum alloy rings. In this paper, pulsed electromagnetic force is used to deform the aluminum alloy rings into plastic state and eliminate the residual stress in the workpieces. The residual stress in a large-size aluminum alloy ring with an outer diameter of 720 mm, a wall thickness of 60 mm, and a height of 60 mm was studied in this paper. To meet the demand of high energy input for bulging the alloy ring, an actuator coil with high voltage insulation and tough inner support was optimized designed by finite element software COMSOL Multiphysics. It was found that adding a steel ring with a truncated gap inside the epoxy skeleton can improve the compression strength of the magnet and increase the plastic deformation of the aluminum alloy ring. Besides, simulation results showed that multiple discharges can reduce the discharge voltage, which can effectively increase the service life and safety of the magnet system. [ABSTRACT FROM AUTHOR]

Published

2022

7. Lightning and Switching Impulse Strength of Insulating Materials in Tape Arrangements Within Liquid Nitrogen.

Author

Kreuz, Tobias, Schmid, Andre, Schumacher, Ralph, and Humpert, Christof

Subjects

*INSULATING materials, *SUPERCONDUCTING fault current limiters, *LIQUID nitrogen, *STRENGTH of materials, *DIELECTRIC strength

Abstract

In addition to AC or DC voltages, superconducting electrical equipment must withstand transient overvoltages. Up to a voltage level of 245 kV, equipment has to be tested for its lightning impulse (LI) withstand voltage. Above 245 kV, the test for switching impulse (SI) withstand voltage must also be performed. These transient overvoltages are particularly demanding for compact bifilar coil windings used in resistive superconducting fault current limiters. Therefore the aim of this study is to investigate the LI and SI strength of insulating materials in tape arrangements in liquid nitrogen. Polyimide (PI), a porous insulating paper (Grade 4) and the mixed polymer PPLP (polypropylene laminated paper) in the thickness range of 125 to 130 µm are part of the investigation. The results for LI and SI show the highest values of the dielectric strength for PPLP with 203 kV/mm and 240 kV/mm. PI achieves the second highest values with 194 kV/mm as LI strength and 226 kV/mm as SI strength. With Grade 4, the lowest values are measured at 166 kV/mm and 148 kV/mm, which are, however, surprisingly high for a conventional insulating paper. Additionally, Grade 4 is the only material with a higher LI strength than SI strength. Compared to the AC strengths, the values of the impulse strengths are higher for all materials investigated, with the exception of PI, where the AC strength is in the same range as the SI strength. [ABSTRACT FROM AUTHOR]

Published

2022

8. Study of Liquid Nitrogen Insulation Characteristics for Superconducting Transformers.

Author

Hu, Min, Zhou, Qibin, Wang, Xi, Tang, Feipeng, Sheng, Jie, Bian, xiaoyan, and Jin, Zhijian

Subjects

*LIQUID nitrogen, *INSULATING oils, *FINITE element method, *LIQUID surfaces, *ELECTRIC fields

Abstract

With its great advantage in weight and volume, superconducting transformer is considered as potential candidate for the portable power station. To achieve a more compact design, the insulation properties of liquid nitrogen in real operation state is crucial. This paper firstly presents an AC withstand voltage test of liquid nitrogen under different kinds of electric field. Then the bubble influence on the macroscopic insulation performance of liquid nitrogen is analyzed based on finite element method. In addition, the effect of Sumoto effect at liquid surface is also studied by experiments. The results of this paper can be used in future design of compact superconducting transformers. [ABSTRACT FROM AUTHOR]

Published

2022

9. Analysis of Electrodynamic Transients in the ITER PF Joints.

Author

Breschi, Marco, Cavallucci, Lorenzo, Ribani, Pier Luigi, and Gauthier, Florent

Subjects

*TRANSIENT analysis, *PANCAKES, waffles, etc., *SUPERCONDUCTING wire, *WIRE, *SUPERCONDUCTING cables, *MAGNETS

Abstract

The paper presents a numerical study on electrodynamic behavior of the inter-pancake twin-box joints of the Poloidal Field (PF) coils of the ITER Magnet System. This work was carried out with the THELMA code, developed at the University of Bologna. The THELMA model was adapted to describe both the superconducting wires and the resistive saddle of the joint in a set of reference configurations representative of a set of experimental tests performed on a joint sample at the SULTAN facility in Villigen, Switzerland. The model was applied to analyze both the DC joint resistance measurements and the AC loss vs frequency curve, in order to obtain a full representation of the joint electromagnetic behavior. The paper reports a comparison between the numerical and experimental results and parametric studies on the impact of the main model parameters on the loss vs frequency curve. [ABSTRACT FROM AUTHOR]

Published

2022

10. Temperature Analysis of Switched Reluctance Motor Based on Equivalent Heat Circuit Method.

Author

Chen, Hao, Wang, Kai, Yan, Wenju, Orabia, Mohamed, and Parspour, Nejila

Subjects

*SWITCHED reluctance motors, *RELUCTANCE motors, *THERMAL resistance, *HEAT transfer, *TEMPERATURE, *INDUCTION motors, *STATORS

Abstract

This paper mainly takes a 6/4 switched reluctance motor (SRM) as an example to analyze the temperature of the motor. In order to establish the equivalent thermal circuit model (ETCM) conveniently, the mechanical structure of the motor is simplified to a certain extent, and the characteristic nodes are divided. Then the heat transfer process in the rotor region, the stator region and the whole motor during the operation of the motor is analyzed, and the ETCM of those regions are established respectively. This method of establishing ETCM is also applicable to superconducting motors. Based on the basic principles of heat transfer, the calculation method of thermal resistance in each ETCM is given in this paper. Then, the three-dimensional (3-D) finite element (FE) temperature field model of the motor is built and compared with the ETCM. Finally, the accuracy of the ETCM is verified by experiments. [ABSTRACT FROM AUTHOR]

Published

2021

11. Optimization of a Cryogen-Free Superconducting Prototype Generator With YBCO Field Windings.

Author

Zhang, Han, Yang, Ye, Jiang, Yudong, Bai, Liang, Yang, Xinsheng, and Zhao, Yong

Subjects

*HIGH temperature superconductors, *VACUUM chambers, *PROTOTYPES, *SUPERCONDUCTING coils, *MAGNETIC fields, *SUPERCONDUCTING magnets, *ARMATURES

Abstract

This is a follow-up study of the cryogen-free superconducting prototype generator with YBCO field windings. The previous paper had introduced the design of the structure, cryogenic system and electromagnetic characteristics of the prototype machine, whose operating temperature was 30 K, maximum field current was 100 A and rotating speed was from 10 to 30 rpm. In this paper, the optimization of the airgap magnetic field and the stability of superconducting magnet have been carried out. For the purpose of increasing utilization of the magnetic field of superconducting windings, its support structure and vacuum chamber of the cryostat had been upgraded in order to reduce the physical airgap between the armature teeth and the vacuum chamber room temperature wall from 10 mm to 2 mm. In addition, a new coil curing method, vacuum impregnation process with paraffin, had been applied while the YBCO coil fabrication, to improve its stability. The performance properties of the optimized system as well as the comparison between FEM simulation and experimental results are finally presented. [ABSTRACT FROM AUTHOR]

Published

2021

12. Cooperative Dispatch of Distributed Energy Storage in Distribution Network With PV Generation Systems.

Author

Li, Xiangjun, Wang, Lijun, Yan, Ning, and Ma, Rui

Subjects

*PHOTOVOLTAIC power systems, *ENERGY storage, *PHOTOVOLTAIC power generation, *RENEWABLE energy sources, *PROBLEM solving, *ELECTRICITY pricing

Abstract

Battery energy storage system (BESS) plays an important role in solving problems in which the intermittency has to be considered while operating distribution network (DN) penetrated with renewable energy. Aiming at this problem, this paper proposes a global centralized dispatch model that applies BESS technology to DN with renewable energy source (RES). The method proposed in this paper aims to minimize the power purchase cost considering network active loss cost as well as voltage deviation penalty cost. Later, second-order cone programming (SOCP) method as well as big M method are applied to make the problem tractable. Last, the method illustrated in this paper is applied and validated on a modified IEEE 33-bus benchmark system to verify the effectiveness of the proposed scheduling model. [ABSTRACT FROM AUTHOR]

Published

2021

13. Analysis and Design of a 100 kA HTS Current Lead for CFETR.

Author

He, Fuchao, Ding, Kaizhong, Liu, Chenglian, Liu, Huajun, and Song, Yuntao

Subjects

*GAS flow, *THERMAL conductivity, *DIMENSIONAL analysis, *CRITICAL temperature, *HEAT exchangers, *HIGH temperature superconductors

Abstract

High temperature superconductors have zero resistance under critical temperature and the HTS tapes have low thermal conductivity. The China Fusion Engineering Test Reactor(CFETR) project requires current leads with current carrying capacity up to 100 kA, making high temperature superconducting current leads the ideal choice. The main work of this paper is the theoretical analysis and optimization design of the 100 kA HTS current lead. Current leads are designed to minimize heat leakage to the cryogenic system and to reduce the mass flow of cooling gas. In this paper, some important design parameters are introduced firstly, and then one dimensional thermal analysis is carried out for the heat exchanger and high temperature superconductor parts. The LOFA time and overheating time of the current lead were calculated through simulation, and it was verified that the design meets the requirements of the project. Finally, the factors that have great influence on the performance of current leads are analyzed. In view of the four influencing factors, which are joint resistance, GHe inlet temperature, hPw and RRR, we respectively produced an optimized design. [ABSTRACT FROM AUTHOR]

Published

2021

14. PM Torque Motor With Armature Teeth Made by Oriented Silicon Steel Sheet.

Author

Dong, Ting, Fu, Renjie, Zhang, Bo, and Bai, Yansheng

Subjects

*SILICON steel, *ELECTRIC torque motors, *SHEET-steel, *ELECTRICAL steel, *MAGNETIC permeability, *PERMANENT magnets, *ELECTROMOTIVE force, *PERMANENT magnet motors

Abstract

For the advantages of oriented silicon steel sheet (OSSS) with better magnetic permeability in the rolling direction, this paper proposes a permanent magnet (PM) torque motor with armature teeth made by OSSS. This paper introduces the influence of unequal tooth width on the winding factor and the width calculation method of the armature teeth tip top, and analyzes the torque performance improvement by OSSS. In the end, based on testing the B-H waves of OSSS, the flux linkage, back electromotive force, rated torque and overload torque of three motors with different structure or material are compared by finite element software. The results show the proposed motor can increase the torque density and overload ability. [ABSTRACT FROM AUTHOR]

Published

2021

15. Development of a Novel Method to Efficiently Measure Critical Bending Diameter of 2G HTS Tapes.

Author

Zhu, Jiamin, Zhen, Shuiliang, and Jin, Zhijian

Subjects

*COPPER plating, *DIAMETER, *CRITICAL currents, *SUPERCONDUCTING cables, *SUPERCONDUCTING films, *ADHESIVE tape

Abstract

High critical current density is desired for cables adopted in fusion or accelerator applications. The bending diameter of REBCO tapes is very important for the preparation of such cables. The bending diameter of REBCO tape is related to many factors. It is necessary to identify the most important factors determining the bending diameter by experiments. In this article, a new measurement method for bending diameter is developed. Short samples are taken from individual tapes in a large batch and connected in series into one long piece for bending diameter measurement. This way, a large batch of tapes can be efficiently assessed in one go. The samples prepared by Shanghai Superconducting Technology Co., Ltd. (SST) have been tested. It is concluded that the critical bending diameter of the tapes, which we define that the critical current attenuation is less than 10%, is closely related to its thickness, stiffness, superconducting layer thickness, and copper plating thickness. The composition of the superconducting layer has little effect on it. By testing the tapes prepared by SST in large quantity, it is found that when the REBCO faces inward during bending, tapes plated with 5 and 10 μm copper on one side only have smaller critical bending diameter than tapes plated with copper on both sides. The current has no attenuation when the bending diameter is 2.6 mm. When REBCO faces outward, copper plating has little effect on the critical bending diameter, which varies between 6 and 14 mm. [ABSTRACT FROM AUTHOR]

Published

2022

16. Numerical Model Development for CFETR CSMC Quench Detection System.

Author

Wang, Teng, Hu, Yanlan, Wang, Zhongli, and Ni, Qicai

Subjects

*ELECTRIC potential measurement, *POWER resources, *MAGNETIC fields, *ELECTRIC inductance, *ALTERNATING currents, *SUPERCONDUCTING coils, *SOLENOIDS

Abstract

The Center Solenoid Model Coil (CSMC) is a pre-research project of CFETR, and its task is to design and manufacture the CS superconducting model coil to gain wider experience in solving the related technical problems existing in design and construction of CFETR CS coils. The expected achievement is to charge the CSMC up to the operation current of 47.65 kA and the maximum magnetic field to 12 T with a swift rump rate of 1.5 T/s without quench. Quench detection by voltage measurements is likely to be the fastest available technical solution to avoid coil's damage caused by quench, but the voltage detection is a real challenge due to large noise induced by the power supply in alternating current operation. The pick-up sensors, comprising the co-wound wire (CWW) and the co-wound tape (CWT), are used in the CSMC quench detection system for noise compensation and suppression. To accurately compensate all related induced voltage in the multi-pulse coil system, the foremost task is to estimate the static inductance matrix between the CSMC and its pick-up sensors. In this paper, a numerical model is developed for inductance calculation and analysis. Moreover, several numerical simulations with this design model to evaluate the maximum inductive noises and quench detection signals by CWW and CWT have been conducted for the case of the worst test scenarios. [ABSTRACT FROM AUTHOR]

Published

2022

17. Characteristics of the Superconducting Field Winding of an HTS Wind Turbine Generator During a Short Circuit Fault.

Author

Liu, Dong, Salmi, Tiina, Deng, Fujin, and Ye, Changqing

Subjects

*TURBINE generators, *WIND turbines, *HIGH temperature superconductors, *AC DC transformers, *MAXWELL equations, *INDUCTION generators, *SHORT circuits, *INTEGRATING circuits

Abstract

High temperature superconducting generators (HTSGs) have great potential of high power density for future large direct-drive wind turbines. As synchronous machines, HTSGs have rapid rise of field currents during a sudden short circuit fault which cause AC losses in the HTS tapes. This paper applies H-A formulation of Maxwell equations for finite element simulation of electromagnetic behavior of a 10 MW, 9.6 rpm HTSGs. The model is integrated to a short circuit model to calculate the characteristics of the HTS field winding, such as field currents and AC losses during a three-phase no-load short circuit fault at the armature winding terminal. Two HTSG designs are compared. The $n$ value characterizing the sharpness of the superconducting-resistive state transition of the HTS tape and the number of armature winding segments are analyzed as key variables. The result indicates high AC losses are produced but more armature winding segments can effectively reduce the AC loss and the field current. A lower $n$ value can also lower the AC loss level but only for the non-magnetic rotor design. The field current is not affected by the $n$ value for both HTSG designs. [ABSTRACT FROM AUTHOR]

Published

2022

18. Integral Modeling of AC Losses in HTS Tapes With Magnetic Substrates.

Author

Statra, Yazid, Menana, Hocine, and Douine, Bruno

Subjects

*MAGNETIC tapes, *MAGNETIC materials, *MAGNETIC fields, *FINITE element method, *INTEGRAL equations, *ADHESIVE tape, *SUPERCONDUCTING magnets

Abstract

This article presents an integral modeling approach for computing ac losses in high-temperature superconductors near magnetic materials. The current density and magnetic field distributions are calculated by solving Maxwell's equations in integral form in the active parts. Equivalent surface and interface current densities are considered in the magnetic material to take into account its magnetic field-dependent relative permeability. The proposed approach is applied to compute ac losses in a second-generation high-temperature superconducting tape with a magnetic substrate. The obtained results are compared with the finite element method using H formulation to check the validity and performances of the proposed integral approach. [ABSTRACT FROM AUTHOR]

Published

2022

19. Examination and Characterization of Physical and Mechanical Properties of the ITER Central Solenoid Module Coils.

Author

Sgobba, Stefano, Aviles Santillana, Ignacio, Lourenco, Sandra, Guinchard, Michael, De Frutos, Oscar, Jong, Cornelis, Libeyre, Paul, Schild, Thierry, Gaxiola, Enrique, Bennet, Jose, Mayri, Christophe, Smith, John, Everitt, David, and Freudenberg, Kevin

Subjects

*SOLENOIDS, *X-ray computed microtomography, *SUPERCONDUCTING magnets, *WIND pressure, *THERMOCYCLING

Abstract

The ITER Central Solenoid (CS) consists of a stack of six independent coil packs called modules. It features a total height of 18 m and a diameter of over 4 m. The modules are in an advanced stage of fabrication and testing by the US ITER Project Office (USIPO) and its subcontractor General Atomics (GA). A qualification module mockup at one to one scale but of reduced height was wound and Vacuum Pressure Impregnated (VPI) by GA to validate final manufacturing, using tooling and processes fully representative of a series module. The module was submitted to a thermal cycle down to the temperature of 4.5 K at which the coils will be cooled by supercritical helium. During plasma operation, the CS modules are subjected to a complex combination of static and dynamic forces. The understanding of the mechanical behaviour of the CS module coils is of paramount importance to analyse and predict the overall response of the CS stack. To this purpose, an extensive programme of investigation of the module mockup has been defined and applied. This allowed assessing, through examination and testing of a large number of VPI conductor array samples extracted from the mockup, the soundness of the coil through advanced non-destructive examination techniques including X-ray microtomography, dimensional metrology measurements and micro-optical observations. Moreover, additional testing of physical and mechanical properties carried out at room and cryogenic temperature allowed the behaviour of the conductor stacks to be assessed. The paper summarises the results of these investigations and their interpretation through mechanical analyses based on the individual properties of the coil constituents. [ABSTRACT FROM AUTHOR]

Published

2022

20. Magnet Design of the Electron Cooling System for HIAF.

Author

Zhao, Lixia, Yao, Qinggao, Lv, Mingbang, Zhang, Xiang, Tang, Meitang, Chen, Yuquan, Sha, Xiaoping, Lu, Haijiao, and Ma, Lizhen

Subjects

*ION beams, *COOLING systems, *ELECTRON beams, *MAGNETIC fields, *MAGNETS, *ELECTRONS

Abstract

The electron cooling technology is applied in the spectrometer ring (SRing) to improve the luminosity of ion beam for the High Intensity heavy-ion Accelerator Facility (HIAF). The electron cooler consists of a gun section, two 90-degree toroids, a cooling section and a collector section. There are four kinds of main coils used to provide longitudinal magnetic fields along the path of the electron beam. In this paper, we present the modeling and analyzing of the electron cooler magnets by three-dimension software. The optimizing of the magnetic field of cooling section is completed to achieve the required effective cooling length. The magnetic fields along the electron beam path and ion beam path are calculated and the beam trajectory of typical ion is also simulated to offer data for correcting the orbit. [ABSTRACT FROM AUTHOR]

Published

2022

21. Design and Field Performance of Octupole Magnet With Skew Quadrupole Component in HEPS.

Author

Yang, Mei, Fusan, Chen, Xu, Yuandi, Wu, Yafeng, Zhu, Yingshun, Zhang, Zhuo, and Yin, Baogui

Subjects

*MAGNETS, *SUPERCONDUCTING magnets, *QUADRUPOLES, *MAGNETIC fields, *STORAGE rings, *MAGNETIC field measurements

Abstract

The High Energy Photo Source (HEPS) is being built in China and the magnets are in batch production. The octupole magnets with skew quadrupole component used in the storage ring have been designed and manufactured. The octupole has an aperture of 30 mm, a field gradient of 735000 T/m3 and a length of 0.26 m. In this paper, detailed magnetic design of HEPS octupole magnets is presented. Different design schemes of the skew quadrupole coils are compared, and the temperature effect on magnetic center and the integral field in the first batch of octupole magnets are also given. In addition, the influence of the combined power-on mode on the magnetic field is studied. [ABSTRACT FROM AUTHOR]

Published

2022

22. Research Into Controlling the Material Flow for Electrohydraulic Forming Alloy Tubes by a Pulsed Magnet.

Author

Zhang, Yi, Li, Xiaoxiang, Tang, Yinghao, Liu, Haixiang, Ouyang, Shaowei, Zhang, Zixuan, Cao, Quanliang, and Li, Liang

Subjects

*ELECTROHYDRAULIC effect, *ALUMINUM tubes, *TUBES, *FINITE element method, *ELECTROMAGNETIC forces, *ALUMINUM alloys

Abstract

Electrohydraulic forming is a kind of high-velocity forming process that can improve the formability of materials compared with quasi-static forming. Due to the lack of adequate material supplementation of the forming area, this method always faces problems such as uneven thinning and bursting when bulging tubes to required radial depths. To solve the above shortcomings and promote the material flow for the electrohydraulic forming process, this paper introduces an additional push coil to generate an axial electromagnetic force at the end of the tube. First, a finite element model was established to design the parameters of the push coil and the developed forming system. Then, a series of experiments using aluminum alloy tubes (AA6061-O) were conducted to verify the effectiveness of the proposed system. The results show that the limitation of the tube bulging depth can be increased by approximately 21.5%, and the thickness reduction can be reduced by more than 44% compared with conventional electrohydraulic forming. In addition, the forming morphology for tubes can be adjusted by the use of different combinations of discharge voltages for the push coil and exploding wire. The developed method and obtained results are of great value for improving the forming ability of electrohydraulic forming. [ABSTRACT FROM AUTHOR]

Published

2022

23. Assembly and Pre-Loading Specifications for the Series Production of the Nb 3 Sn MQXFA Quadrupole Magnets for the HL-LHC.

Author

Ferracin, P., Ambrosio, G., Cheng, D. W., Troitino, J. Ferradas, Fajardo, L. Garcia, Bermudez, S. Izquierdo, Prestemon, S., Ray, K. L., Solis, M. J., Todesco, E., and Vallone, G.

Subjects

*MAGNETS, *SUPERCONDUCTING magnets, *SUPERCONDUCTORS, *QUADRUPOLES, *ELECTROMAGNETS, *TIN

Abstract

The High Luminosity LHC (HL-LHC) Project is planning to install 16 cold-masses made with Nb3Sn quadrupole magnets in the LHC Interaction Regions to significantly increase its luminosity. Half of these cold masses are fabricated at BNL, FNAL, and LBNL under the US Accelerator Research Program (AUP). Each cold mass includes two identical Nb3Sn quadrupole magnets, called MQXFA with a magnetic length of 4.2 m. Currently, the AUP project has completed the fabrication and test of the first 5 pre-series magnets, and is working on the following 16 magnets for the series production. The brittleness and strain sensitivity of the Nb3Sn superconducting material requires a careful definition of the allowable maximum stress in the windings during magnet assembly and pre-load, and a tight control of their variation within the whole coil length. Therefore, a series of assembly and pre-load specifications have been defined with the goals of minimizing the risk of conductor degradation and providing the mechanical support required to reach the nominal current during powering. In this paper we present the specifications defined for the MQXFA magnets and applied during the different assembly phases and during the pre-load process of the first 5 pre-series magnets. [ABSTRACT FROM AUTHOR]

Published

2022

24. Fine Tuning of the Inner Dipole Design of MCBXF Magnets.

Author

Garcia-Matos, Jesus A., Alcazar, Cristobal, Dominguez, Manuel, Lucas, Oscar Duran, Garcia-Tabares, Luis, Gomez, Luis Antonio Gonzalez, Gomez, Pablo, Jimenez, Jesus, Martinez, Teresa, Jardim, Carla Martins, Pardo, Jose A., Perez, Jose M., Sobrino, Pablo, Toral, Fernando, Perez, Juan C., and Todesco, Ezio

Subjects

*MAGNETS, *SUPERCONDUCTING magnets

Abstract

Two types of nested orbit correctors are necessary for LHC upgrade, the so-called MCBXFA and MCBXFB. They share the same cross section, but feature different lengths, 2.5 and 1.5 m, respectively. The power tests performed on two MCBXFB prototypes showed excellent performance when individually powered, but training to reach the nominal torque in combined operation was very long. Moreover, memory was lost after torque direction reversal. A detailed analysis of the power test results concluded that the origin of the problem was insufficient support for the torque at the inner dipole coil ends. A fine tuning of the inner dipole design is proposed to improve the performance of both types of magnets. This paper describes the analytical and numerical models developed to analyze the problem and their results. [ABSTRACT FROM AUTHOR]

Published

2022

25. Optimization of Dual-Flux-Modulator Magnetic Gear With HTS Bulks and Uneven Segment Based on GA.

Author

Jing, Libing, Wang, Tao, Pan, Yonglin, Tan, Can, and Qu, Ronghai

Subjects

*AIR gap flux, *HIGH temperature superconductors, *AIR gap (Engineering), *MAGNETIC flux leakage, *MAGNETIC torque, *PERMANENT magnets, *FINITE element method

Abstract

Spoke structure can increase the torque density of coaxial magnetic gear (CMG). However, the outer rotor can produce a large number of magnetic leakages. To improve the utility of PMs, a novel magnetic gear was proposed in this paper. The structure of the auxiliary flux modulator is a slotted iron yoke, and the slot angle is same as the stationary ring. Among, the permanent magnets (PMs) of inner rotor are adopted uneven block structure to improve air gap flux density. At the same time, the stationary ring adopts high-temperature superconducting (HTS) bulks, replacing the epoxy resin. In addition, Genetic algorithm (GA) is applied to calculate the optimal parameters of the proposed CMG. Finally, the air gap flux density and output torque of the magnetic gear a compared by the finite element method. The results show that the output torque of the proposed magnetic gear is effectively improved. [ABSTRACT FROM AUTHOR]

Published

2022

26. Experimental Study on the Impact of Double Bending at Room Temperature on the Performance of YBCO Coated Conductors.

Author

Breschi, M., Musso, A., Ribani, P. L., Amaduzzi, A., Chabert, T., Grosse, V., Pilastro, E., and Boso, D.

Subjects

*ADHESIVE tape, *HIGH temperature superconductors, *CRITICAL currents, *IMPACT loads

Abstract

The performance of High Temperature Superconducting (HTS) tapes is strongly affected by the mechanical loadings they experience during manufacturing, cooldown and operation. Therefore, the development of HTS-based applications requires thorough investigations on the impact of these loadings on the critical current. In this work, a measurement procedure is applied to determine the critical current of a (Re)BCO tape at 77 K, after double bending at room temperature around a cylindrical mandrel. In this procedure, the tape is cooled down to cryogenic temperature, and the critical current is first measured on the straight sample. After warming the tape up to room temperature, a double bending around a cylindrical mandrel is applied in two opposite directions and the critical current is measured at the following cooldown. This analysis is repeated for different mandrel diameters in order to identify to study the impact of the curvature radius on the performance degradation. The application of one single bending at room temperature is compared to the results of the double bending procedure. The influence on the performance degradation of applying a known force to the tape during the double bending at room temperature is also experimentally analyzed. [ABSTRACT FROM AUTHOR]

Published

2022

27. Structure Design and Multiprocess Stress Calculation of HTS Double Pancake of a 35-kV/3.5-MVA Single-Phase HTS-Controllable Reactor.

Author

Shen, Shifeng, Wang, Xiaona, Ma, Yuanzheng, and Ren, Li

Subjects

*HIGH temperature superconductivity, *PANCAKES, waffles, etc., *SUPERCONDUCTING magnets, *HIGH temperature superconductors

Abstract

Stress calculation is a key link in evaluating whether the structure of a superconducting magnet is safe. A 35-kV/3.5-MVA single-phase high temperature superconductivity-controllable reactor (HTS-CR) with the HTS winding wound by HTS double pancakes is being developed. The effect on the local stress and temperature rise of HTS double pancakes, which determines the design of the strengthening structure of the HTS double pancake, is studied in this paper. Furthermore, the multiprocess stress development for HTS double pancakes from manufacturing to power-on is also investigated, which discloses the model and the results of the stress calculation. This study can provide a reference for developing HTS-CR with large capacity in the future. [ABSTRACT FROM AUTHOR]

Published

2022

28. Flux Pumping of Cooper Pairs Through a Josephson Energy-Suppression Pump.

Author

Greco, Angelo, Fasolo, Luca, Marino, Vito, and Enrico, Emanuele

Subjects

*COOPER pair, *STRAY currents, *JOSEPHSON junctions, *MAGNETIC flux, *MAGNETIC control, *NANOWIRES

Abstract

In this paper, we propose a novel kind of Josephson Energy Suppression Pump (JESP) controlled by a fully magnetic flux drive. The device presented here is composed of two superconducting loops interrupted at one side by superconducting nanowires which are joined together by a superconducting island. The phase difference developed at the edges of the nanowires by means of the magnetic flux threading the loops can collapse their Cooper condensates, leading to complete suppression of the Josephson energies. This mechanism allows to greatly reduce the leakage current when performing Cooper pair pumping by a pure magnetic pumping cycle without involving any gate modulation. The pumping capability of the JESP is studied through a master equation approach in the non-adiabatic case. [ABSTRACT FROM AUTHOR]

Published

2022

29. Numerical Study on the On-Grid Performance of Superconducting Cable Cooperated With R-SFCL.

Author

Liang, Hanyu, Chen, Yanjun, Duan, Ruochen, Lu, Yu, and Sheng, Jie

Subjects

*SUPERCONDUCTING fault current limiters, *HIGH temperature superconductors, *SUBMARINE cables, *SUPERCONDUCTING cables, *FAULT currents, *YTTRIUM barium copper oxide

Abstract

The high temperature superconducting (HTS) cable has shown promising prospects in megacities for the advantages of high transmission power density and low loss. However, when HTS cable is working on grid, various kinds of faults may cause irreversible damage, resulting in the failure of reclosing. In this paper, the resistive superconducting fault current limiter (R-SFCL) is introduced into the power system to cooperate with the HTS cable, so as to reduce the potential damage caused by fault current. Firstly, the equivalent circuit models are established, and then transient response of HTS cables under fault condition is analyzed, the recovery time of HTS tapes are used to define the design of R-SFCL. Finally, the operating reliability of HTS cable has been evaluated and measures about adaptive reclosing times were proposed under different fault currents. [ABSTRACT FROM AUTHOR]

Published

2022

30. Thickness Dependence of Trapped Magnetic Fields in Machined Bulk MgB 2 Superconductors.

Author

Ainslie, M. D. and Yamamoto, A.

Subjects

*MAGNETIC fields, *SUPERCONDUCTORS, *MAGNETIC field measurements, *ROTATIONAL motion, *SUPERCONDUCTING magnets, *PERMANENT magnets

Abstract

MgB2 in bulk form shows great promise as an inexpensive, lightweight alternative to bulk (RE)-Ba-Cu-O materials to act as trapped field magnets (TFMs), which can replace permanent magnets in applications such as desktop high-field magnet systems and rotating machines. In this paper, we investigate the thickness dependence of the trapped magnetic field in bulk MgB2 superconductors. Two bulk MgB2 samples, 20 mm in diameter and 10 mm in thickness, were fabricated using the powder-in-closed-tube (PICT) technique. The trapped field was then measured after field-cooled magnetisation for thicknesses of approximately 20 mm (both bulks stacked), 10 mm (single bulk), and then 7.5, 5, 4, 3, 2, 1.5 and 1 mm, for which the sample was machined down to the designated thickness using an automated-wet-polishing technique. A 2D axisymmetric finite-element model based on the H-formulation is used to simulate the experimental results and explain the observed thickness dependence of the trapped field. The numerical results assume a Jc(B) dependence based on the measured characteristics of small specimens taken from the bulk before and after machining. The Jc(B) measurements suggested a degradation of Jc occurred as the bulk was machined thinner and thinner: a decrease in Jc(0 T) of ∼35% was observed between the pre- and post-machining specimens. Taking this into account in the models, by assuming a linear reduction in Jc with each machining process, reproduced the experimental results with very good agreement. Consistent trapped field measurements on the top and bottom surfaces suggest this degradation occurred globally, rather than local to the machined surface. [ABSTRACT FROM AUTHOR]

Published

2022

31. Dynamic Resistance of Series-Connected HTS Stacks Considering Electromagnetic and Thermal Coupling.

Author

Li, Chao, Xing, Yuying, Zhao, Beitao, Zhang, Hongye, Li, Ning, Xin, Ying, and Li, Bin

Subjects

*ELECTROMAGNETIC coupling, *HIGH temperature superconductors, *MAGNETIC fields, *SUPERCONDUCTING magnets, *COMPUTATIONAL electromagnetics, *ELECTRIC insulators & insulation

Abstract

When a high temperature superconductor (HTS) coated conductor carries a DC transport current within the background of an oscillating magnetic field, the effect of dynamic resistance takes place. Under the circumstance when the dynamic resistance effect is significant, heat dissipation will be generated to change the temperature of HTS tapes. The amplitude of the instantaneous dynamic resistance increases with time due to the rising temperature. The phenomenon is more obvious when it comes to the HTS stacks where superconducting tapes are assembled so close. This paper proposes a numerical model with electromagnetic and thermal coupling to study the dynamic resistance of the series-connected HTS stack. Experimental results have shown that the proposed numerical model can describe dynamic resistance more accurately than conventional models. Besides, investigations are carried out on how the insulation thickness in the stack and the frequency of AC magnetic fields impact the dynamic resistance of HTS stacks under the influence of Joule heat. This can provide a useful reference for the design of superconducting devices in which dynamic resistance occurs. [ABSTRACT FROM AUTHOR]

Published

2022

32. Numerical Simulation of ITER PF1 Coil Heating at VPI of Electrical Insulation.

Author

Bursikov, Andrey, Grigoriev, Sergey, Konin, Aleksey, Mednikov, Andrey, Rodin, Igor, and Tanchuk, Victor

Subjects

*ELECTRIC insulators & insulation, *EPOXY compounds, *COMPUTER simulation, *DIELECTRIC strength, *TEMPERATURE distribution, *SUPERCONDUCTING magnets

Abstract

The ITER magnet system will operate in extremely severe conditions, which impose high requirements for mechanical and dielectric strength of the electrical insulation of the superconductive coils. Only monolithic structure obtained during the VPI procedure is capable to provide the required mechanical and dielectric strength for electrical insulation. To provide the qualitative insulation, a temperature non-uniformity of the electrical insulation should be kept within the range of [−5, +5 °C] and [−0, +20 °C] during filling with epoxy compound and its curing, respectively. The PF1 coil is about 150 t in weight and consists of materials with different thermal conductivity. Besides, a complicated geometry of the coil adds complexity to VPI. Since the VPI is usually a long-term and irreversible process (within pot life of compound), the whole process should be controllable. The paper describes the developed calculation model of the ITER PF1 coil and presents the results of numerical simulation of this model at VPI of electrical insulation. The completed VPI of the ITER PF1 coil has verified the proposed method for coil heating and proved an acceptable agreement between the calculated and measured temperature distributions throughout the VPI procedure. [ABSTRACT FROM AUTHOR]

Published

2022

33. Axial-Field Synchronous Machine With HTS Armature Windings: Realization and Preliminary Tests.

Author

Statra, Yazid, Menana, Hocine, Douine, Bruno, and Lubin, Thierry

Subjects

*HIGH temperature superconductors, *ARMATURES, *STATORS, *PERMANENT magnets, *ELECTROMAGNETS, *SUPERCONDUCTING magnets, *WINDING machines, *MACHINERY

Abstract

The realization and preliminary tests of a high temperature superconducting axial-field synchronous machine (HTS-AFSM) prototype are presented in this paper. The HTS machine consists of a 3-phase stator with HTS armature winding and a permanent magnet (PM) rotor. The HTS armature winding contains three pancake coils made of BSCCO tape forming a single layer nonoverlapping concentrated stator windings. The rotor is composed of four NdFeB permanent magnets. Several tests have been carried out such as voltage vs. currents curves of the HTS coils, static torque, back-EMF and load tests in generator mode. A 3D semi-analytical model, based on integral equations, has been used to check out the measured electromagnetic quantities. It has been shown that the measured and the calculated quantities are in satisfactory agreement. [ABSTRACT FROM AUTHOR]

Published

2022

34. Application of the Flux Transfer Theory Regarding SFCL in the Case of HVDC.

Author

Kosa, Janos Arpad, Qin, Xiaojing, and Battistig, G.

Subjects

*FAULT current limiters, *SHORT circuits, *SUPERCONDUCTING films, *SUPERCONDUCTING coils, *POWER semiconductors

Abstract

A novel SFCL model for HVDC was created and the real short circuit current was measured. In the original grid, the prospective short circuit current was expected 570 A DC, in the novel solution, the reduced short circuit current was measured between 40–10 A DC. The applied superconducting closed tape loop was prepared by femtosecond laser at room temperature without any damage of the superconducting tape. This paper presents the measured currents of this test device during the fault and recovery time. The cutting parameters of the superconducting tape are also presented. [ABSTRACT FROM AUTHOR]

Published

2022

35. The Influence of Metal Plates on Quench Protection of High Temperature Superconducting Pancake Coils.

Author

Lu, Zhen, Wang, Yawei, Yang, Qingqing, Xue, Wenbo, Fu, Yutong, Huang, Binyu, Hong, Zhiyong, and Jin, Zhijian

Subjects

*HIGH temperature superconductors, *SUPERCONDUCTING coils, *METAL quenching, *PANCAKES, waffles, etc., *ELECTRIC conductivity, *ELECTROMAGNETIC coupling

Abstract

Quench has always been an urgent problem for high temperature superconductor (HTS) magnets. Fast discharge of the coil current is an effective method to protect the HTS magnet from quenching. In HTS magnets, metal plates are originally used to provide conduction cooling and mechanical support for the coil. During fast discharging operations, the metal plates can rapidly absorb part of the magnetic energy stored in the HTS coils through electromagnetic coupling. Previous studies are based on copper plates. This paper studies the influence of several promising metal materials on the discharging process of the HTS coils coupled with metal plates by experiments and simulations. The results show that in the explored resistance range, the higher the electrical conductivity of the metal plates, the better the acceleration of the current attenuation of coil at the early stage of discharging process. The effects of different metal plates on accelerating current attenuation of the coil are ranked as follows: SS 304L < Al 6061-T6 < Al (RRR = 30) < Cu (RRR = 30) < Au < Cu (RRR = 300) < Ag. However, Cu (RRR = 300) plates can absorb more energy from the HTS coil than the Ag plates during the discharging process. Copper with higher purity (Cu (RRR = 300)) and silver are promising alternatives for metal plates of HTS magnets. Generally, a fast current drop is always the most effective method for avoiding tape turn-out during a local quench; therefore, silver with the highest electrical conductivity is the best choice in view of quench protection. [ABSTRACT FROM AUTHOR]

Published

2022

36. Pulse Interfaces and Current Management Techniques for Serially Biased RSFQ Circuits.

Author

Shukla, Ashish, Kirichenko, Dmitri E., Filippov, Timur V., Sahu, Anubhav, Eren Celik, M., Seok, Mingoo, and Gupta, Deepnarayan

Subjects

*PARALLEL electric circuits, *DIGITAL electronics, *GRAPES

Abstract

As digital superconductor circuits based on Rapid Single Flux Quantum (RSFQ) logic scale up in complexity, so does the total current required to provide dc bias. Serial biasing (SB) is a promising solution that can be used to reduce the current by placing identical digital blocks on islands with isolated grounds and bias them sequentially. There are typically two implementations that are essential for the SB approach: the design of a driver-receiver pair (DRP) for inter-island pulse transport and the current management technique to handle the bias current flowing into and out of an island. While a DRP with good fidelity is essential for any serially biased circuit, the current management becomes critical for designs with relatively large bias current. In this paper, we address the latter. First, we propose a grapevine biasing scheme for serial bias current management. Second, we implement the technique using two exemplar circuits: the parallel counter and the digital decimation filter. We report the low and high speed test results up to 50 GHz for both circuits fabricated at MIT-LL in the SFQ5ee 10 kA/2 Ω fab node. [ABSTRACT FROM AUTHOR]

Published

2022

37. Numerical Study on the On-Grid Performance of Superconducting Cable Cooperated With R-SFCL.

Author

Liang, Hanyu, Chen, Yanjun, Duan, Ruochen, Lu, Yu, and Sheng, Jie

Subjects

*SUPERCONDUCTING fault current limiters, *HIGH temperature superconductors, *SUBMARINE cables, *SUPERCONDUCTING cables, *FAULT currents, *YTTRIUM barium copper oxide

Abstract

The high temperature superconducting (HTS) cable has shown promising prospects in megacities for the advantages of high transmission power density and low loss. However, when HTS cable is working on grid, various kinds of faults may cause irreversible damage, resulting in the failure of reclosing. In this paper, the resistive superconducting fault current limiter (R-SFCL) is introduced into the power system to cooperate with the HTS cable, so as to reduce the potential damage caused by fault current. Firstly, the equivalent circuit models are established, and then transient response of HTS cables under fault condition is analyzed, the recovery time of HTS tapes are used to define the design of R-SFCL. Finally, the operating reliability of HTS cable has been evaluated and measures about adaptive reclosing times were proposed under different fault currents. [ABSTRACT FROM AUTHOR]

Published

2022

38. The Influence of the Copper Stabilizer On the Current Carrying Capacity of REBCO Tapes and Stacks With Various Joints at High Ramp Rates.

Author

Kovalev, Ivan A., Kruglov, Sergey S., Polyakov, Alexey V., and Shutova, Darya I.

Subjects

*SUPERCONDUCTING cables, *ADHESIVE tape, *ARTIFICIAL joints, *HIGH temperature superconductors, *COPPER, *LIQUID helium, *MAGNETIC fields

Abstract

In this work, we experimentally investigate the current carrying capacity of single REBCO tapes and stacks made 5 12 mm REBCO tapes with a 25 μm copper stabilizer in liquid helium in comparison with those made of bare tapes with no stabilizer at current ramp rates up to 55 kA/s. The motivation for the research was checking the usability of REBCO stacks as basic sub-elements for high current superconducting cables operating in fast cycling modes at 4.2 K. An original experimental technique was employed to induce the extremely high ramp rates. During the tests, one or 5-folded stacks curled into rings 95 mm dia with different types of joints were charged in the external magnetic field generated by an outer solenoid at ramp rates up to 1.6 T/s. The curled REBCO stacks were either soft-soldered over their entire length or contained local joints only. The maximum screening current induced in the samples during the outer solenoid charging Imax was registered. Our experiments showed that the current carrying capacity of the REBCO tapes and stacks was strongly affected by the absence or presence of the copper stabilizer as well as the type of the joint. The reasons for the Imax limitation for the copper stabilized and bare samples are also briefly discussed. [ABSTRACT FROM AUTHOR]

Published

2022

39. Limiting Characteristics of Capacitor Discharge Current of MMC-Based System Using the SFCL on Short Circuit.

Author

Kim, Geon-Woong and Choi, Hyo-Sang

Subjects

*SHORT circuits, *CAPACITORS, *FAULT current limiters, *SEMICONDUCTOR devices, *FAULT currents, *POWER transmission, *HARMONIC distortion (Physics)

Abstract

Currently, HVDC is in the spotlight for long-distance transmission and power connection between countries. Among them, MMC-HVDC is a new conversion technology that can solve the problems of switching loss and harmonics. MMC consists of many submodules connected in series. And the one submodule is composed of IGBTs, Diode, and Capacitor. At the transient state, the charged capacitor is discharged and added to the fault current. It will generate tens of times the surge current during the delays all IGBTs turn-off. This causes semiconductor device destruction. To solve this problem, we applied SFCL with fast response characteristics to the MMC. The response speed of the resistive SFCL is faster than that of the MMC system protection device, which can effectively limit the capacitor discharge current before the protection device operates. In this paper, AC grid, MMC-HVDC, DC cable and SFCL were modeled using PSCAD/EMTDC. After that, we confirmed the capacitor discharge current, current limiting rate, and interruption characteristics through DC line short circuit failure simulation. As a result, SFCL effectively limits the capacitor discharge current and continuously lowers the level of the fault current. [ABSTRACT FROM AUTHOR]

Published

2022

40. The Feasibility Design Study and Cold Test of the First Model of HTS Cable With the Longitudinal Magnetic Field Effect.

Author

Fetisov, S. S., Zubko, V. V., Zanegin, S. Yu., Vysotsky, V. S., Nosov, A. A., Otabe, E. S., Kinoshita, Y., and Akasaka, T.

Subjects

*MAGNETIC field effects, *CABLES, *CRITICAL currents, *MAGNETIC fields, *EXPERIMENTAL design, *FLUX pinning, *CRITICAL current density (Superconductivity), *FEASIBILITY studies

Abstract

Since the 1970’s the effect of the increase of the critical current of superconductors in the longitudinal external magnetic field has been known. The critical current density of a Nb-Ti wire at low longitudinal magnetic fields demonstrated several times the larger value compared with that in a transverse magnetic field. The same phenomenon has been observed for 2G HTS tapes. It is natural to try to use this phenomenon to increase the critical current in DC HTS power cables. In this paper, we present the analysis of feasibility to use the longitudinal magnetic field effect to increase critical currents in practical HTS power cables. The experimental model of the HTS DC cable has been developed, produced, and tested in liquid nitrogen. The increase of the critical current observed when the longitudinal magnetic field generated. This increase coincides with the calculations. [ABSTRACT FROM AUTHOR]

Published

2022

41. Fabrication and Test of HTS Magnet for Induction Heating Device in Aluminum Extrusion Processing.

Author

Ito, Tetsuya, Fukui, Satoshi, Kawashima, Hiroshi, Ogata, Yasuhiro, Furuse, Mitsuho, Watanabe, Tomonori, Nagaya, Shigeo, and Ogawa, Jun

Subjects

*SUPERCONDUCTING magnets, *EXTRUSION process, *HIGH temperature superconductors, *MAGNETS, *ELECTROMAGNETIC forces, *ALUMINUM

Abstract

This paper reported the fabrication and the test results of the high temperature superconducting (HTS) magnet developed for the aluminum billet heater for aluminum extrusion processing. In this magnet, the HTS coils were combined with iron cores, because the required magnetic field in the working region was about 1T. Two HTS coils wound directly on the convex shape iron cores were fabricated. The HTS coils were made by the no-insulation winding of REBCO tape with the YOROI-coil technique. Each of them was separately installed in an individual cryostat. Two HTS coils with iron cores were disposed oppositely to each other and were magnetically connected by a C-shape yoke placed in room temperature. The HTS coil was cooled down to about 15 K by the GM cryocooler in the initial cooling. The magnetic field of 1.06 T at the center of the heating region was stably generated with the rated current of 200 A. It was also demonstrated that the HTS magnet could be charged up to 300 A without quench. According to the observation of the electromagnetic force direction from the outside of the cryostat, it was confirmed the validity of the force balance design of the magnet. [ABSTRACT FROM AUTHOR]

Published

2022

42. Microplastic Collection With Ultra-High Magnetic Field Magnet by Magnetic Separation.

Author

Mato, Takanobu and Noguchi, So

Subjects

*MAGNETIC fields, *MAGNETIC separation, *SUPERCONDUCTING magnets, *HIGH temperature superconductors, *MARINE pollution

Abstract

In recent years, the increase of microplastics (MPs) in ocean have been recognized as one of ocean pollution listed in Sustainable Development Goals (SDGs). Since MPs absorb harmful chemicals while floating in ocean, small fish which eats the absorbed MPs may fall into bad digestion and poor health condition. To solve the ocean pollution problem, a good MP collection method must be proposed with a high processing speed and a high MP collection ability. While, recently, the performances of 2nd generation high-temperature superconducting (HTS) magnets which can generate a field higher than 15 T have been improved. It is expected that MP collection performances are enhanced with such high field superconducting magnets. In this paper, we propose a conceptual design for MP collector from seawater using superconducting magnets. To evaluate the performances of the device, we developed a fluid simulation coupled with magnetic field simulation. The simulation results indicate that MPs can effectively be collected with a high magnetic field with a high processing speed. [ABSTRACT FROM AUTHOR]

Published

2022

43. Experimental Study on the Impact of Double Bending at Room Temperature on the Performance of YBCO Coated Conductors.

Author

Breschi, M., Musso, A., Ribani, P. L., Amaduzzi, A., Chabert, T., Grosse, V., Pilastro, E., and Boso, D.

Subjects

*ADHESIVE tape, *HIGH temperature superconductors, *CRITICAL currents, *IMPACT loads

Abstract

The performance of High Temperature Superconducting (HTS) tapes is strongly affected by the mechanical loadings they experience during manufacturing, cooldown and operation. Therefore, the development of HTS-based applications requires thorough investigations on the impact of these loadings on the critical current. In this work, a measurement procedure is applied to determine the critical current of a (Re)BCO tape at 77 K, after double bending at room temperature around a cylindrical mandrel. In this procedure, the tape is cooled down to cryogenic temperature, and the critical current is first measured on the straight sample. After warming the tape up to room temperature, a double bending around a cylindrical mandrel is applied in two opposite directions and the critical current is measured at the following cooldown. This analysis is repeated for different mandrel diameters in order to identify to study the impact of the curvature radius on the performance degradation. The application of one single bending at room temperature is compared to the results of the double bending procedure. The influence on the performance degradation of applying a known force to the tape during the double bending at room temperature is also experimentally analyzed. [ABSTRACT FROM AUTHOR]

Published

2022

44. Electric Field Optimization of 1MV DC-GIL Spacer With Surface Conductivity Gradient for ITER NBI.

Author

Li, Xiaolin, Wang, Y. F., Xiao, W., Xu, Y. S., Zhu, W. B., Chen, Yun, and Li, Jin

Subjects

*SURFACE conductivity, *ELECTRIC fields, *ELECTRIC distortion, *NEUTRAL beams, *CONCAVE surfaces

Abstract

The flashover along epoxy spacer installed in 1 MV DC GIL caused by the excessive concentration of electric field threatens the safe operation of the ITER NBI (neutral beam injector). A spacer with surface conductivity gradient has been proposed to optimize the electric field distribution. In this paper, a simplified model of transmission pipeline with spacer is established. It is found that the electric field is mainly concentrated on the high voltage triple junction and the turning position of spacer. The surface conductivity gradient distribution on the spacer is designed by an iterative method. Results indicate that surface conductivity gradient can weaken the electric field distortion on both sides of spacer, especially the electric field strength of turning position of the concave surface is decreased obviously compared with that of the conventional spacer. [ABSTRACT FROM AUTHOR]

Published

2021

45. Research on Optimal Scheduling Method of Hybrid Energy Storage System Considering Health State of Echelon-Use Lithium-Ion Battery.

Author

Li, Xiangjun, Ma, Rui, Yan, Ning, Wang, Shangxing, and Hui, Dong

Subjects

*ENERGY storage, *ELECTRIC power distribution grids, *WIRELESS sensor networks, *SCHEDULING, *ELECTRICITY pricing, *LITHIUM-ion batteries

Abstract

In order to effectively improve the role of battery energy storage system in power system, this paper studies the optimal scheduling strategy of BESS in power grid. Firstly, taking the minimum power exchange cost between power grid and the penalty cost of node voltage deviation as the objective function, an optimal scheduling model of BESS in distribution grid based on mixed integer programming is proposed. Secondly, when BESS tracks the scheduling instruction, the life attenuation of each BESS is inconsistent due to the difference of operation conditions. A scheduling method considering the state of health (SOH) of BESS is proposed. Finally, the SOC and total charge and discharge capacity of each BESS are analyzed, and the change characteristics of SOC under different SOH conditions (0.8, 0.85, 0.9, 0.95, 1.0) are verified effectively, which indirectly verifies that this scheduling method can effectively reduce the scheduling loss. [ABSTRACT FROM AUTHOR]

Published

2021

46. Fault Protection of Urban Distribution Network Using a Superconducting Cable Joint.

Author

Zou, Zhi-Ce and Yao, Jun

Subjects

*ELECTRIC fault location, *FAULT currents, *ELECTRIC power failures, *SUPERCONDUCTING cables, *HIGH temperature superconductors, *SUPERCONDUCTING magnets, *ELECTRIC arc

Abstract

To enhance the operating security and stability of the cross-linked polyethylene power cable based urban distribution network due to conventional cable joint (CCJ) faults, this paper presents a novel superconducting fault current limitation scheme by using a superconducting cable joint (SCJ). The basic principle, circuit modeling, conceptual design and distribution network integrated with the SCJ are presented in detail. The comparative study without and with the proposed SCJ scheme and comprehensive evaluation are carried out. The simulation results obtained under symmetrical and asymmetrical CCJ faults show that the harmful large fault grid currents can be limited effectively and the fault grid voltage can be well improved. Thus the high temperature electric arc in the fault location caused by CCJ faults can be safely controlled. And large area power failure in actual power system can be avoided. [ABSTRACT FROM AUTHOR]

Published

2021

47. A Study of Enclosed Magnetic Shielding Room By Simulation.

Author

Xu, Zihan, Zhang, Zhidan, Wu, Bao, Wang, Hai, Kong, Xiangyan, and Wang, Meiling

Subjects

*MAGNETIC measurements, *MAGNETIC field measurements, *MAGNETIC shielding, *MAGNETIC noise, *SUPERCONDUCTING magnets

Abstract

The magnetic shielding room (MSR), which is mainly composed of permalloy and aluminum layer, is widely used in the measurement of near-zero magnetic environment. This paper mainly uses ANSYS Maxwell software to simulate MSR and improve its design method. The shielding effectiveness (SE) is introduced to evaluate its performance. The experimental data show that the shielding parameter SE has a best value under certain conditions. SE is inversely proportional to the size of the shielding space, and is proportional to the thickness of each layer, and there is an optimal value for the gap between the two layers. This equivalent circuit to the MSR can be explained well. [ABSTRACT FROM AUTHOR]

Published

2021

48. Investigation and Analysis of Voltage By Wavelet Denoising Algorithm for HTS NI Coil Excited by Rotating Flux Pump.

Author

Chen, Jie, Fang, Jin, Zhang, Yan, Wu, Yue, and Wang, Haiyang

Subjects

*HIGH temperature superconductors, *WAVELETS (Mathematics), *CURRENT fluctuations, *ELECTROCHEMICAL sensors, *MAGNETIC energy storage, *ALGORITHMS, *SUPERCONDUCTING magnets, *ELECTROCHEMILUMINESCENCE

Abstract

High temperature superconducting (HTS) no-insulation (NI) magnet excited by rotating flux pump has the characteristics of high current density, high field stability and small volume, which is in accordance with the development trend of MRI/NMR equipment for main magnet. In poor electromagnetic environment, however, quench detection of direct electrometric method based on threshold judgment is easily interfered by noise and severely disrupted quench signal may cause wrong quench determination and malfunction of quench protection, thereby resulting in unnecessary loss. To suppress the influence of the noises caused by current fluctuation and the rotation of motor on the correction of quench determination or accurate reading of data. Therefore, this paper compares and analyzes the experimental and filtering data detected by equipment based on wavelet de-noising algorithm, and verifies the necessity of using wavelet filtering data. [ABSTRACT FROM AUTHOR]

Published

2021

49. Conceptual Design of 3-T All HTS MRI Using No-Insulation Winding Technology: Electromagnetic Stress Reinforced Structure.

Author

Wang, Tao, Quan, Hao, Chen, Long, Ding, Kaizhong, Du, Shuangsong, and Zou, Chunlong

Subjects

*MAGNETIC resonance imaging, *MAGNETS, *HIGH temperature superconductors, *SUPERCONDUCTING magnets, *CONCEPTUAL design, *ELECTROMAGNETIC forces, *FINITE element method

Abstract

Once the miniaturization of high-performance magnetic resonance imaging (MRI) scanner was accomplished, extremely stringent indexes were needed for the magnetic field, the operational stability and mechanical strength. We adopted “No-insulation (NI) winding technology” to build high-temperature superconducting (HTS) magnets for 3-T grade MRI, in order to achieve these stringent indexes. To realize a compact size of 3-T MRI, the electromagnetic stress of HTS magnet becomes a technical challenge. In this paper, we investigated the construction of an electromagnetic stress reinforced structure for HTS magnets of 3-T MRI. First, the electromagnetic force was estimated, and the distributions of stress and strain induced by electromagnetic force in the winding part of the HTS magnet were reproduced using a finite element analysis. Meanwhile, the influences of the interlayers between sub-coils, shells and blind flanges on the stress property of HTS magnet were evaluated. Based on these results, the material and its consumed volume established the reinforced structure employed of the HTS magnet were also clarified. Finally, the utility of reinforced structure was verified for NI HTS magnets deployed in 3-T MRI. [ABSTRACT FROM AUTHOR]

Published

2021

50. Enhancing the DC Voltage Quality in EV Charging Station Employing SMES and SFCL Devices.

Author

Liu, Zhi Kai, Liu, Wei Dong, Zhang, Yang, Qian, Li Qun, Zheng, Wen Yue, Yu, Zhe Ren, Li, Hai Hong, Wu, Gang, Liu, Hua, Chen, Yu, and Xie, Qi

Subjects

*SUPERCONDUCTING fault current limiters, *ELECTRIC vehicle charging stations, *MAGNETIC energy storage, *VOLTAGE, *ELECTRIC automobiles, *SHORT circuits

Abstract

The fast-response energy compensating feature from a superconducting magnetic energy storage (SMES) device is favored for suppressing instantaneous voltage fluctuations, while the self-triggering current limiting feature from a superconducting fault current limiter (SFCL) suits to suits to achieve automatic load protections in the electric vehicle (EV) charging stations. This paper investigates a new DC voltage quality enhancing scheme by using a combined superconducting power technology employing SMES and SFCL devices. Preliminary simulations demonstrate the feasibility of this SMES-SFCL-based voltage quality improver to avoid the voltage fluctuations during the EV load transients and suppress the fault current effectively during the short circuits simultaneously. [ABSTRACT FROM AUTHOR]

Published

2021