Your search keyword '"Timing Qu"' showing total 85 results

1. Numerical Analysis of Screening-Current Induced Strain in a 16 T REBCO Insert Within a 20 T Background Field

Author

Liangjun Shao, Peng Song, Yufan Yan, Xintao Zhang, Mianjun Xiao, Fang Liu, Huajun Liu, and Timing Qu

Subjects

High-field magnet, REBCO conductor, screening-current effect, hoop strain, numerical analysis, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

REBa2Cu3O7-x (REBCO) coated conductor has emerged as a promising material for the development of ultra-high-field (UHF) magnets. However, the presence of screening-current induced strain within this tape-shaped conductor impacts the operational stability of REBCO coils. We focused on the design of an all-superconducting 36 T / 40 mm UHF magnet, which included a 16 T insert magnet consisting of two nested REBCO coils. In this study, the screening-current induced strain in the 16 T magnet was numerically studied using the coupled electromagnetic-mechanical model, which considered the tilting angle of REBCO tapes and the strain dependency of the critical current. We calculated the screening-current induced strain of each pancake individually and compared these results with those calculated by the sequential model. According to the coupled model, the maximum hoop strain was 0.52%, relatively lower than that calculated by sequential model. The most dangerous pancake was estimated to be the outermost pancake of each coils. Additionally, we varied the critical current value of the REBCO tapes and studied the relationship between the critical current value and screening-current induced strain. This work provides a feasible way to calculate the screening-current effect in large-scale HTS magnets.

Published

2023

2. Integrated study on the comprehensive magnetic-field configuration performance in the 150 kW superconducting magnetoplasmadynamic thruster

Author

Jinxing Zheng, Haiyang Liu, Yuntao Song, Cheng Zhou, Yong Li, Ming Li, Haibin Tang, Ge Wang, Yuntian Cong, Baojun Wang, Yibai Wang, Peng Wu, Timing Qu, Xiaoliang Zhu, Lei Zhu, Fei Liu, Yuan Cheng, and Boqiang Zhao

Subjects

Medicine, Science

Abstract

Abstract Higher magnetic fields are always favoured in the magnetoplasmadynamic thruster (MPDT) due to its superior control of the plasma profile and acceleration process. This paper introduces the world's first integrated study on the 150 kW level AF-MPDT equipped with a superconductive coil. A completely new way of using superconducting magnet technology to confine plasma with high energy and extremely high temperatures is proposed. Using the PIC method of microscopic particle simulation, the plasma magnetic nozzle effect and performance of the MPDT under different magnetic-field conditions were studied. The integrated experiment used demonstrated that, in conjunction with the superconducting coil, greater homogeneity and a stronger magnetic field not only caused more even cathode ablation and improved its lifespan but also improved the performance of the MPDT (maximum thrust was 4 N at 150 kW, 0.56 T). Maximum thrust efficiency reached 76.6% and the specific impulse reached 5714 s.

Published

2021

3. Numerical Modeling of AC Loss in HTS Coated Conductors and Roebel Cable Using T-A Formulation and Comparison With H Formulation

Author

Yufan Yan, Timing Qu, and Francesco Grilli

Subjects

AC Loss, high temperature superconductors, HTS modeling, T-A formulation, H formulation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

With recent advances in second-generation high temperature superconductors (2G HTS) and cable technologies, various numerical models based on finite-element method (FEM) have been proposed to help interpret measured AC loss and assist cable design. The T-A formulation, implemented in COMSOL, shows great potential for reducing the overall computation costs. In this paper, the performance of the T-A formulation for calculating the AC loss of coated superconductors and cables were assessed and compared against the widely accepted H formulation, with benchmark model of a single REBCO tape in 2D/3D and a 14-strand Roebel cable. Evaluation and comparison on key metrics including the computation time, the number of degrees of freedom and the numerical accuracy were presented, which could provide a reference for researchers in applying the T-A formulation for AC loss calculation.

Published

2021

4. Author Correction: Integrated study on the comprehensive magnetic-field configuration performance in the 150 kW superconducting magnetoplasmadynamic thruster

Author

Jinxing Zheng, Haiyang Liu, Yuntao Song, Cheng Zhou, Yong Li, Ming Li, Haibin Tang, Ge Wang, Yuntian Cong, Baojun Wang, Yibai Wang, Peng Wu, Timing Qu, Xiaoliang Zhu, Lei Zhu, Fei Liu, Yuan Cheng, and Boqiang Zhao

Subjects

Medicine, Science

Published

2021

5. Effect of Pitch Parameters on Aerodynamic Forces of a Straight-Bladed Vertical Axis Wind Turbine with Inclined Pitch Axes

Author

Jia Guo, Timing Qu, and Liping Lei

Subjects

vertical axis wind turbine, actuator line model, aerodynamic forces, pitch regulation, inclined pitch axes, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Pitch regulation plays a significant role in improving power performance and achieving output control in wind turbines. The present study focuses on a novel, pitch-regulated vertical axis wind turbine (VAWT) with inclined pitch axes. The effect of two pitch parameters (the fold angle and the incline angle) on the instantaneous aerodynamic forces and overall performance of a straight-bladed VAWT under a tip-speed ratio of 4 is investigated using an actuator line model, achieved in ANSYS Fluent software and validated by previous experimental results. The results demonstrate that the fold angle has an apparent influence on the angles of attack and forces of the blades, as well as the power output of the wind turbine. It is helpful to further study the dynamic pitch regulation and adaptable passive pitch regulation of VAWTs. Incline angles away from 90° lead to the asymmetric distribution of aerodynamic forces along the blade span, which results in an expected reduction of loads on the main shaft and the tower of VAWTs.

Published

2021

6. Comparison of Different Driving Modes for the Wind Turbine Wake in Wind Tunnels

Author

Bingzheng Dou, Zhanpei Yang, Michele Guala, Timing Qu, Liping Lei, and Pan Zeng

Subjects

wind turbine, wake effect, wind tunnel experiment, turbulence intensity, driving mode, Technology

Abstract

The wake of upstream wind turbine is known to affect the operation of downstream turbines and the overall efficiency of the wind farm. Wind tunnel experiments provide relevant information for understanding and modeling the wake and its dependency on the turbine operating conditions. There are always two main driving modes to operate turbines in a wake experiment: (1) the turbine rotor is driven and controlled by a motor, defined active driving mode; (2) the rotor is driven by the incoming wind and subject to a drag torque, defined passive driving mode. The effect of the varying driving mode on the turbine wake is explored in this study. The mean wake velocities, turbulence intensities, skewness and kurtosis of the velocity time-series estimated from hot-wire anemometry data, were obtained at various downstream locations, in a uniform incoming flow wind tunnel and in an atmospheric boundary layer wind tunnel. The results show that there is not a significant difference in the mean wake velocity between these two driving modes. An acceptable agreement is observed in the comparison of wake turbulence intensity and higher-order statistics in the two wind tunnels.

Published

2020

7. Degradation Characteristics of a 20 T REBCO Insert Magnet After a 4.2 K Standalone Test

Author

Liangjun Shao, Xintao Zhang, Zhirong Yang, Yubin Yue, Yufan Yan, Peng Song, Yi Li, Huajun Liu, Fang Liu, and Timing Qu

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2023

8. Operation of Prototype Race-Track Closed-Loop HTS Coil With Metal-as-Insulation in Solid Nitrogen

Author

Chengyun Pan, Xin Yu, Timing Qu, Peng Song, Li Lu, Zhuoyan Zhong, Yue Wu, Chunjiang Guo, and Wei Wu

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2023

9. Progress in the Construction of a 20 T REBCO Insert Coil for High-Field All-Superconducting Magnets

Author

Liu Fang, Huajun Liu, Zhiyong Hong, Timing Qu, Xintao Zhang, Shi Yi, Liangjun Shao, and Liang Guo

Subjects

Superconductivity, Materials science, High-temperature superconductivity, Mechanical engineering, Superconducting magnet, Bending, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, law, Electromagnetic coil, Magnet, Electrical and Electronic Engineering, Current density, Electrical conductor

Abstract

On the basis of 24 T magnet, the Institute of Plasma Physics, Chinese Academy of Sciences are developing 35 T all superconducting magnet. The magnet was designed as a combination of 20 T REBCO insert coil and a 15 T 150 mm low temperature superconductor background magnet. The 20 T insert coil consists of two coils nested together. NI winding technology is applied to coil 1 to increase its current density. The 50 μm thick Hastelloy tapes will be used to co-wind with REBCO tapes of the coil 2 to further improve its over-all mechanical strength. Electromagnetic analysis shows that the maximum ratio of operating current to the critical current of coil 1 and coil 2 is 0.63 and 0.37 respectively. A more accurate model for calculating strain considering screening current is under study. The inner joint is applied to the coil 1 to avoid in-plane bending of REBCO tape, and the detailed preparation method is given in the paper. The winding and preliminary testing of all double pancakes of coil 1 have been completed, and the winding of coil 2 is in progress. This magnet is planned to be assembled and tested in 2021.

Published

2021

10. Critical current degradation and delamination crack observation of epoxy-coated REBCO superconducting tapes after thermal cycles in liquid nitrogen

Author

Feng Feng, Peng Song, Zhirong Yang, Mingzhi Guan, and Timing Qu

Subjects

Materials science, Scanning electron microscope, Process Chemistry and Technology, Delamination, Epoxy, engineering.material, Focused ion beam, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Stress (mechanics), Surface coating, Coating, visual_art, Materials Chemistry, Ceramics and Composites, engineering, visual_art.visual_art_medium, Composite material, Layer (electronics)

Abstract

The delamination and critical current (Ic) degradation caused by thermal stress after epoxy impregnation are threats for the application of REBa2Cu3O7-x(REBCO, RE = Rare earth) superconducting magnets. In this work, two types of REBCO tapes were coated by Stycast 2850FT with controlled coating geometries. Critical currents of coated samples after thermal cycles in liquid nitrogen were measured. Ic degradation was found in coated samples with a free no-coating edge, when the surface coating layer was thicker than 1000 μm. It was also found that additional edge coating can help to suppress the Ic degradation. Samples with degraded Ic after thermal cycles showed an obvious delamination phenomenon. The morphology and location of delamination cracks were carefully observed by using focused Ion beam, scanning electron microscope, and transmission electron microscope. Delamination cracks propagated within the REBCO layer and stopped at reaching the Silver/REBCO interface. Simulations by finite element method suggest that delamination cracks are generated by the stress accumulation within the REBCO layer, which could be reduced by a full epoxy coating on both tape surface and edges.

Published

2021

11. Development and Testing of a 300-kvar HTS Synchronous Condenser Prototype

Author

Yufan Yan, Zhirong Yang, Timing Qu, Luming Zhang, Qihong Wu, Zhengjun Shi, Peng Song, and Liangjun Shao

Subjects

Materials science, Stator, Rotor (electric), Nuclear engineering, Cryogenics, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, Coolant, law, Electromagnetic coil, Magnet, 0103 physical sciences, Synchronous condenser, Electrical and Electronic Engineering, 010306 general physics, Excitation

Abstract

China Southern Power Grid Corporation started a project to develop a 10-Mvar high-temperature superconducting (HTS) dynamic synchronous condenser (DSC). As the first stage of the project, a 300-kvar HTS DSC prototype was developed to verify some key technologies, such as HTS rotor magnets, helium gas circulating cooling and rotating signal acquisition. In this prototype, conduction-cooled REBCO coils were installed in the rotor and air-core copper windings were used in the stator. Cold helium gas at around 20 K was used as the coolant circulating between the rotor and the external cryogenic unit through a cryogenic rotary coupling. The REBCO coils were conduction cooled by distributed helium-gas tubes embedded in the cover plates of the coils. The rotor magnet was successfully charged up to 200 A under both static and rotating conditions. For the requirement of an HTS DSC, rapid excitation tests from 170 A to 200 A were carried out at both 500 rpm and 1500 rpm.

Published

2021

12. Wrinkling surface of mono-layered thin film derived by using trifluoroacetate solution

Author

Pingfa Feng, Linli Wang, Zhirong Yang, Feng Feng, and Timing Qu

Subjects

Fabrication, Materials science, Scanning electron microscope, 02 engineering and technology, General Chemistry, Substrate (electronics), 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Biomaterials, Amplitude, Specific surface area, Materials Chemistry, Ceramics and Composites, medicine, Thin film, medicine.symptom, Composite material, 0210 nano-technology, Wrinkle, Pyrolysis

Abstract

Wrinkling morphology could be utilized in various sensors because of its large specific surface area depending on the amplitude (A) of the wrinkles. The amplitude was proportional to film thickness (h) in the traditional wrinkles fabrication processes, and it is inefficient to increase the wrinkle amplitude by adjusting the film thickness. Hence, it is very necessary to propose a method that can significantly increase the wrinkle amplitude by changing the film thickness. In this study, the wrinkling morphology of mono-layered thin films prepared via chemical solution deposition on rigid substrates was investigated. By using the solution with various cation concentration, thin film samples were fabricated with h ranging from 474 to 1405 nm. A rapid pyrolysis with ramping rate of 5 °C $${\min }^{-1}$$ was applied to obtain the wrinkling morphologies, which were characterized by white-light interferometer and scanning electron microscope. Amplitude values were calculated out of the height images by using two-dimensional fast Fourier transform. The approximate relationship of amplitude with film thickness A ∝ h3 was found. Compared to the traditional multi-layered architecture, wrinkling film was fabricated by depositing a mono-layered thin film on a rigid substrate in this work, which is simple and low-costing. Amplitude A could be more sensitive to h, which might be beneficial for response sensitivity in various fields. The wrinkling mechanism of chemical solution deposited thin films during rapid pyrolysis was discussed based on the assumption of gas accumulation in the precursor film, and a model based on the accumulation of byproduct gas during pyrolysis was proposed to interpret the relationships.

Published

2021

13. A novel aluminum-carbon nanotubes nanocomposite with doubled strength and preserved electrical conductivity

Author

Mengran Zhou, Shuai Zhang, Gong Zhang, Gaoqiang Chen, Yufan Yan, Yuanwang Zhang, Q. Liu, Jinquan Wei, Hua Zhang, Timing Qu, Huan Gao, Qingyu Shi, Zhaoxia Zhou, and Dawei Yao

Subjects

Friction stir processing, Nanocomposite, Materials science, 02 engineering and technology, Carbon nanotube, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, law.invention, symbols.namesake, law, Electrical resistivity and conductivity, Ultimate tensile strength, symbols, General Materials Science, Grain boundary, Electrical and Electronic Engineering, Composite material, 0210 nano-technology, Raman spectroscopy, Electrical conductor

Abstract

Enhancing the mechanical strength of highly conductive pure metals usually causes significant reduction in their electrical conductivity. For example, introducing phase/matrix interfaces or more grain boundaries, are common and effective methods to strengthen metals. But it simultaneously increases the electron scattering at the interface, thus reducing the electrical conductivity. In this study, we demonstrate that pure aluminum (Al)/carbon nanotubes (CNTs) nanocomposites prepared by friction stir processing have successfully broken through these limitations. The yield strength and tensile strength of Al/CNTs nanocomposites have improved by 104.7% and 51.8% compared to pure Al, while the electrical conductivity remained comparable to that of pure Al. To explore the potential mechanisms, the interface between CNTs and Al was examined and characterized by transmission electron microscopy (TEM) and Raman spectroscopy. Little interfacial reaction compounds were present and no visible physical gaps were observed at CNTs and Al interfaces. We defined it as a clean and tightly bonded interface. Although the quantity of phase interface has increased, the electrical conductivity of the nanocomposite remains approximately unchanged. We attribute the preserved electrical conductivity to the clean and tightly bonded CNTs/Al interface in the nanocomposite.

Published

2021

14. Thermal-Hydraulic Analysis on Quench Behavior of Indium-Tin Soldered REBCO Composite Conductor

Author

Zhengshuo Zhang, Weijia Yuan, Zheng Shuyue, Timing Qu, Song Yuntao, Jinxing Zheng, and Min Zhang

Subjects

Thermal contact conductance, Superconductivity, High-temperature superconductivity, Materials science, Composite number, Superconducting magnet, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Conductor, law.invention, law, 0103 physical sciences, Heat transfer, Electrical and Electronic Engineering, Composite material, 010306 general physics, Electrical conductor

Abstract

The second-generation high-temperature superconductor REBCO is one of the most valuable candidates that meet the requirements of future magnetic confinement fusion device. Quench behavior of an improved high-current REBCO composite conductor is simulated by a 1-D finite element method. Indium-tin alloy foil placed in the gap between stabilizer, jacket, and superconducting tape stacks can significantly reduce thermal contact resistance, which leads to an increase on the minimum quench energy of composite conductor. Short perturbations have a better response to this improvement than long perturbations, due to the low normal zone propagation velocity (NZPV) of REBCO conductor. For short perturbation (perturbation length ( $l_{p}$ = 0.1 m), the peak temperature in cable and helium drops 12.76 and 17.99%, respectively, after soldered. Due to the change of heat transfer in a composite conductor caused by helium wave propagation, the development and maximum length of normal zone significantly decrease from 13.06 to 4.78 m under long perturbation ( $l_{p}$ = 10 m) circumstance. High current REBCO composite conductor with proper indium-tin alloy soldered can enhance the stability and safety of composite conductors under severe working conditions, but it also slows down the NZPV and hinders the quench detection of high-temperature superconducting magnet.

Published

2021

15. Numerical Modeling of AC Loss in HTS Coated Conductors and Roebel Cable Using T-A Formulation and Comparison With H Formulation

Author

Francesco Grilli, Timing Qu, and Yufan Yan

Subjects

High-temperature superconductivity, Materials science, General Computer Science, Computation, Mechanical engineering, Solid modeling, Degrees of freedom (mechanics), 01 natural sciences, law.invention, HTS modeling, high temperature superconductors, law, 0103 physical sciences, H formulation, General Materials Science, ddc:530, AC Loss, 010306 general physics, Electrical conductor, 010302 applied physics, Physics, General Engineering, Numerical models, Finite element method, Benchmark (computing), lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, T-A formulation

Abstract

With recent advances in second-generation high temperature superconductors (2G HTS) and cable technologies, various numerical models based on finite-element method (FEM) have been proposed to help interpret measured AC loss and assist cable design. The T-A formulation, implemented in COMSOL, shows great potential for reducing the overall computation costs. In this paper, the performance of the T-A formulation for calculating the AC loss of coated superconductors and cables were assessed and compared against the widely accepted H formulation, with benchmark model of a single REBCO tape in 2D/3D and a 14-strand Roebel cable. Evaluation and comparison on key metrics including the computation time, the number of degrees of freedom and the numerical accuracy were presented, which could provide a reference for researchers in applying the T-A formulation for AC loss calculation.

Published

2021

16. Numerical Investigation of the Coupling Effect in CORC Cable With Striated Strands

Author

Timing Qu, Wenrong Li, Yufan Yan, Jie Sheng, and Peng Song

Subjects

Coupling, CORC, Materials science, Coupling loss, Condensed matter physics, Time constant, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Conductor, Magnetization, 0103 physical sciences, Electrical and Electronic Engineering, 010306 general physics, Striation, computer, Electrical conductor, computer.programming_language

Abstract

Striation has been proved to be effective in reducing the magnetization losses of Conductor on Round Core (CORC) cables assembled with REBCO coated conductors. In this study, we present numerical models of CORC cable with striated strands considering the inter-filamentary coupling by using 3D $T$ - $A$ formulation. Calculated magnetization losses were compared against experimental data to confirm the validity of our models, including 3 × 2 CORC cables with straited and non-striated strands. Frequency dependence of magnetization losses and the electromagnetic coupling effect were demonstrated and analyzed. The coupling loss fits well with analytical function. And the coupling time constant characteristics was found almost in proportion to the square of pitch length.

Published

2020

17. General Design of a 300-Kvar HTS Synchronous Condenser Prototype

Author

Beimin Wu, Qihong Wu, Ye Yang, Timing Qu, Peng Song, Meng Song, Luming Zhang, and Zhengjun Shi

Subjects

Superconductivity, Materials science, Stator, Rotor (electric), Direct current, Mechanical engineering, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, Damper, law, Electromagnetic coil, 0103 physical sciences, Synchronous condenser, Electrical and Electronic Engineering, 010306 general physics, Current density

Abstract

China Southern Power Grid Corporation has started a project to study the feasibility of large-scale high-temperature superconducting (HTS) dynamic synchronous condensers (DSC) in Ultra High Voltage Direct Current (UHVDC) transmission grid. To investigate some key technologies, a small-scale prototype of HTS DSC of 300 kvar/2 poles/3000 RPM is under development. The electromagnetic design, especially the critical current of REBCO rotor coils was discussed. Besides, the configuration and properties of the air-core stator, the damper and the rotor were also described. Water-cooled windings in the air-core stator have a rated current density of 9.55 A/mm 2 . Helium cooling pipes were embedded within REBCO rotor coils, and HTS windings will be cooled down to

Published

2020

18. Design and Testing of a Gas-Helium Conduction Cooled REBCO Magnet for a 300 kvar HTS Synchronous Condenser Prototype

Author

Meng Song, Zhengjun Shi, Timing Qu, Peng Song, Yufan Yan, and Qihong Wu

Subjects

Materials science, Chemical substance, Nuclear engineering, chemistry.chemical_element, Superconducting magnet, Condensed Matter Physics, Thermal conduction, 01 natural sciences, Electronic, Optical and Magnetic Materials, chemistry, Magnet, 0103 physical sciences, Synchronous condenser, Vacuum chamber, Electrical and Electronic Engineering, Current (fluid), 010306 general physics, Helium

Abstract

A 300 kvar high temperature superconducting synchronous condenser is under construction. In this work, a test superconducting magnet consisting of two double-pancake coils was designed, fabricated and tested. The coils had an effective length of 300 mm. They were wound by 5 mm wide REBCO tapes and vacuum impregnated by paraffin. The test magnet was cooled by a distributed-tubes-inside-pancakes conduction cooling structure. In this structure, 20 K helium gas was forced to flow in the tubes which were embedded in stainless-steel cover plates of coils. The magnet was installed in a vacuum chamber for cooling and transport tests. The results showed that the magnet was effectively cooled to about 22 K and operated stably at 281 A. The magnet steady-state temperatures at different operation current were recorded, approximately 2 K higher than the helium gas. Moreover, the thermal stability of the magnet was evaluated by adjusting inlet gas temperature from around 20 K to 25 K, and no magnet quench was observed. It was concluded that the cooling structure of the test magnet could fulfill the requirements of the 300 kvar HTS synchronous condenser.

Published

2020

19. Improvement of bi-layered YBCO superconducting films by using Ag and Au interlayers

Author

Ma Zengxian, Linli Wang, Pingfa Feng, Timing Qu, Feng Feng, Shengnan Zou, and Zhirong Yang

Subjects

010302 applied physics, Superconductivity, Chemical solution deposition, Materials science, Fabrication, Scanning electron microscope, Process Chemistry and Technology, 02 engineering and technology, Sputter deposition, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, symbols.namesake, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, symbols, Composite material, 0210 nano-technology, Raman spectroscopy, Bi layered

Abstract

Chemical solution deposition is a promising technology to fabricate YBCO superconducting thin films due to its low-cost advantage. However, the decreasing of critical current density ( J c ) usually occurred in the fabrication of multi-layered YBCO films. In this study, Ag and Au heterogeneous interlayers were fabricated by using sputtering deposition in order to improve the bi-layered YBCO films, and the influence of crystallization temperature from 740 ∘C to 800 ∘C was investigated. It was found that J c could be enhanced by both interlayers relative to the counterparts without interlayers, and the effect of Ag interlayer was superior to that of Au interlayer. When the crystallization temperature was 800 ∘C, the optimal sample with Ag interlayer had a J c 3.65 MA/cm2, which was about twice of the J c of its counterpart. The surface morphologies and cross-sections were observed by using scanning electron microscope, and the content variations of c-axis oriented grains were measured by using Raman spectroscopy, which could help to investigate the influences of interlayers on the microstructure of YBCO films. The possible reasons for the improvement effects of Ag and Au interlayers were discussed based on the experimental results.

Published

2020

20. Modeling and Performances of the Orthogonal Fluxgate Sensor Operated in Fundamental Mode

Author

Hao Jiang, Zhang Jilong, Pan Zeng, Xu Zhenfeng, Guangmin Li, Chen Kai, Xu Yufeng, and Timing Qu

Subjects

010302 applied physics, Physics, Magnetometer, Acoustics, Solenoid, 01 natural sciences, Signal, Fluxgate compass, Electronic, Optical and Magnetic Materials, law.invention, Core (optical fiber), law, 0103 physical sciences, Pickup, Electrical and Electronic Engineering, Excitation, DC bias

Abstract

Fluxgate magnetometer is an important device for weak magnetic-field measurements. By adding a large dc bias excitation current, the performances of fluxgate can be highly improved. In this article, based on the assumption of the single-domain state within the probe core wire, the quasi-static Stoner–Wohlfarth model (SW model) was used to construct a mathematic model for the output signal of the orthogonal fluxgate probe operated in fundamental mode (FM-OFG). The dynamic hysteresis loop characteristics were also considered here, and the expected first-harmonic output signal corresponding to the theoretical analysis was obtained from our model. A prototype FM-OFG probe was fabricated by using a 20 mm-long Co–Fe–Nb–Si–B amorphous microwire as core wire and a 1500-turn solenoid as pickup coils. Output performances were analyzed at different external fields, ac excitation currents, and dc bias currents. A good agreement between the modeling results and the experimental ones was found. The noise level was reduced down to 9.01 pT/rt (Hz).@.1 Hz. The simulation method and experiment results provide theoretical guidance for the subsequent design and improvement of the FM-OFG.

Published

2020

21. Experimental and Numerical Study on the Magnetization Process of Roebel Cable Segments

Author

Yidong Zhu, Huiming Zhang, Timing Qu, Min Zhang, Yufan Yan, Jiahui Zhu, Feng Feng, Peng Song, Ruitong Liu, Shengyi Jiang, and Yi Li

Subjects

Materials science, Field (physics), Superconducting magnetic energy storage, Mechanics, Superconducting magnet, Condensed Matter Physics, 01 natural sciences, Finite element method, Electronic, Optical and Magnetic Materials, Magnetic field, Magnetization, Magnet, 0103 physical sciences, Electrical and Electronic Engineering, 010306 general physics, Electrical conductor

Abstract

REBCO-based high temperature superconductor (HTS) cable conductors, due to its large transport current, are crucial for the requirement of large-scale applications, such as accelerator magnets, fusion magnets, and superconducting magnetic energy storage system (SMES) systems. One key characteristic of these conductors is their electromagnetic response under alternating external magnetic field. Test samples of a 10-strand REBCO-based Roebel cable were studied both, experimentally and numerically. Samples were magnetized without transport current at 77 K by ramping up and down the external magnetic field. The remnant fields (screening current field) after the removal of external fields were mapped using a scanning Hall probe with fixed distance (1–5.5 mm) above the sample surface. Corresponding three-dimensional finite element method (FEM) models were developed using T – A formulation with thin strip approximation. The experiment results and simulation solutions showed good agreements, which confirmed the validity of the numerical model, as well as provided us with a better understanding of the magnetization process and remnant field characteristics of Roebel cable.

Published

2019

22. Inductance of Low-Frequency Small-Scale High-Temperature Superconducting Coils

Author

Timing Qu, Lingfeng Lai, Siwei Chen, Shengnan Zou, Chen Gu, Yi Li, Yubin Yue, Nannan Hu, and Meng Song

Subjects

Superconductivity, Inductance, Materials science, Condensed matter physics, Electromagnetic coil, Biasing, Transient (oscillation), Electrical and Electronic Engineering, Low frequency, Current (fluid), Condensed Matter Physics, Energy storage, Electronic, Optical and Magnetic Materials

Abstract

Inductance is a very commonly used electrical parameter in transient progress analysis, as well as in energy storage evaluations. It was normally considered as constant when the geometrical configuration of a coil is determined. However, experiments on Bi-2223 (Bi 2 Sr 2 Ca 2 Cu 3 O 10+x ) and YBCO (YBa 2 Cu 4 O 7-x ) coils, both show 10% rise inductance while increasing the applied current. The inductance grows approximately a linear relationship from its minimum to maximum. We used both theoretical and experimental analysis to deeply understand the mechanism of the variation in terms of current distribution in high-temperature superconducting (HTS) coils. Taking this inductance change into account would benefit the accuracy in energy storage applications and in transient analysis occasions. Besides, inductance controllable devices could be achieved by manipulating the bias current applied on HTS coils.

Published

2019

23. Open Magnetic Shielding by Superconducting Technology

Author

Chen Gu, Timing Qu, Siwei Chen, Lingfeng Lai, and Yubin Yue

Subjects

Physics, Superconductivity, Helmholtz coil, Computer simulation, Superconducting magnet, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, Magnetic field, Computational physics, symbols.namesake, law, Helmholtz free energy, 0103 physical sciences, Electromagnetic shielding, symbols, Electrical and Electronic Engineering, 010306 general physics, Alternating current

Abstract

Until recently, a new type of open magnetic shielding system was realized by the combination of a series of closed high temperature superconductor coils. We experimentally confirmed that the shielding factor (SF) of the new shielding system can reach more than 40 dB in the frequency spectrum of 0.1–16 000 Hz. Because of its superior ability to resist alternating magnetic field, we named, the system Tesla-shielding (TS), to commemorate the father of alternating current, Nikola Tesla. In this paper, we will report the design and realization of a Helmholtz coil-based TS. The Helmholtz TS has many advantages over the previous planar TS. Especially, the Helmholtz TS has an engineering way of regulating the device for a better SF. We will introduce the design of the Helmholtz TS with the help of numerical simulation. The main electromagnetic properties of the TS, such as SF in the frequency spectrum and its shielding ability in the long duration measurement, are given in this paper.

Published

2019

24. Effective Measuring Position of Hall Probe and <tex-math notation='LaTeX'>$j_\mathrm{c}$</tex-math> Characterization of Rectangular HTS Thin Films

Author

Mu Hui, Yubin Yue, Linli Wang, Shengnan Zou, Timing Qu, Feng Feng, Yufan Yan, and Peng Song

Subjects

Materials science, Analytical chemistry, chemistry.chemical_element, STRIPS, Condensed Matter Physics, Copper, Electronic, Optical and Magnetic Materials, Conductor, Characterization (materials science), Magnetic field, law.invention, Planar, chemistry, Position (vector), law, Electrical and Electronic Engineering, Thin film

Abstract

Scanning Hall probe (SHP) system is a powerful instrument to investigate the planar distribution of areal critical current density (j c ) and defects of high temperature superconducting (HTS) thin film samples. The distance between the effective measuring position and probe bottom (h 1 ) is usually unknown for the commercialized Hall probes. However, h 1 value has a significant influence on the measurement results, according to the calculation of the magnetic flux density (B 0 ) above the planar center of a rectangular HTS thin film sample. In this paper, a method was proposed to obtain h 1 by using a series of copper strips and analyzing the relationship of B 0 against the parameters, such as sample width and current. Then, SHP system was employed to characterize the j c distribution of an HTS thin film fabricated via chemical solution deposition. The relationship of B 0 and h 1 could also be utilized to obtain the average j c value (j c B0 ). A series of commercialized coated conductor samples were measured with both SHP and the traditional four-probe method. The feasibility of preliminary evaluation for rectangular HTS thin film samples by using j c B0 was discussed based on its correlation with the results of four-probe method.

Published

2019

25. Characterization of I c Degradation in Bent YBCO Tapes

Author

Chen Gu, Lingfeng Lai, Meng Song, Timing Qu, Shengnan Zou, Yubin Yue, Nan N. Hu, and Siwei Chen

Subjects

Materials science, Bent molecular geometry, High temperature superconducting, Bending, Yttrium barium copper oxide, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Characterization (materials science), Core (optical fiber), chemistry.chemical_compound, chemistry, 0103 physical sciences, Degradation (geology), Critical current, Electrical and Electronic Engineering, Composite material, 010306 general physics

Abstract

In this paper, the I c degradation of bent YBCO tapes has been experimentally studied. The I c characteristics in length direction was measured through a non-contact, continuous I c measurement equipment (Mcorder), which is suitable for all kinds of high temperature superconducting (HTS) tapes. The detailed J c mapping of bent tapes was investigated by a Hall microscopy equipment (Mcorder 2-D), which scans the fields distribution on the surface of the films or bulks. A 4.1-m-long YBCO tape was wound on a 4.5-mm-diameter core with YBCO face outside or inside. The critical current of the YBCO tape before and after winding was measured lengthwise. And the 2-D J c map of the samples of degraded sections was measured. The result shows that the smallest safe bending diameter is larger than 14 mm and smaller than 4.5 mm, for YBCO face outside and inside, respectively, which indicates that the YBCO face is recommended to be inside in bending cases. The relation between critical current of YBCO face outside bent tapes and diameters was fitted to a sigmoid-like function, to help further development where YBCO face outside bending is unavoidable.

Published

2019

26. Integrated study on the comprehensive magnetic-field configuration performance in the 150 kW superconducting magnetoplasmadynamic thruster

Author

Zhu Xiaoliang, Wu Peng, Liu Haiyang, Ge Wang, Zhou Cheng, Zhao Boqiang, Zhu Lei, Yibai Wang, Liu Fei, Baojun Wang, Haibin Tang, Timing Qu, Yuntao Song, Cong Yuntian, Cheng Yuan, Zheng Jinxing, Li Yong, and Li Ming

Subjects

Multidisciplinary, Materials science, Science, Nuclear engineering, Physics, Nozzle, Thrust, Plasma, Superconducting magnet, Article, Magnetic field, Space physics, Engineering, Electromagnetic coil, Medicine, Specific impulse, Author Correction, Magnetoplasmadynamic thruster

Abstract

Higher magnetic fields are always favoured in the magnetoplasmadynamic thruster (MPDT) due to its superior control of the plasma profile and acceleration process. This paper introduces the world's first integrated study on the 150 kW level AF-MPDT equipped with a superconductive coil. A completely new way of using superconducting magnet technology to confine plasma with high energy and extremely high temperatures is proposed. Using the PIC method of microscopic particle simulation, the plasma magnetic nozzle effect and performance of the MPDT under different magnetic-field conditions were studied. The integrated experiment used demonstrated that, in conjunction with the superconducting coil, greater homogeneity and a stronger magnetic field not only caused more even cathode ablation and improved its lifespan but also improved the performance of the MPDT (maximum thrust was 4 N at 150 kW, 0.56 T). Maximum thrust efficiency reached 76.6% and the specific impulse reached 5714 s.

Published

2021

27. Investigations on Quench Recovery Characteristics of High-Temperature Superconducting Coated Conductors for Superconducting Fault Current Limiters

Author

Timing Qu, Zhu Jiahui, Peng Song, Wei Chen, Hao Jiang, and Shengnan Zou

Subjects

Work (thermodynamics), Materials science, quench recovery characteristic, Computer Networks and Communications, 020209 energy, Nuclear engineering, Superconducting fault current limiters, lcsh:TK7800-8360, HTS tape, 02 engineering and technology, Fault (power engineering), 01 natural sciences, Condensed Matter::Superconductivity, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Limiter, Electrical and Electronic Engineering, 010306 general physics, Electrical conductor, lcsh:Electronics, impact energy, Grid, Smart grid, fault current limiters, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Impact energy

Abstract

Superconducting fault current limiters (SFCLs) are attracting increasing attention due to their potential for use in modern smart grids or micro grids. Thanks to the unique non-linear properties of high-temperature-superconducting (HTS) tapes, an SFCL is invisible to the grid with faster response compared to traditional fault current limiters. The quench recovery characteristic of an HTS tape is fundamental for the design of an SFCL. In this work, the quench recovery time of an HTS tape was measured for fault currents of different magnitudes and durations. A global heat transfer model was developed to describe the quench recovery characteristic and compared with experiments to validate its effectiveness. Based on the model, the influence of tape properties on the quench recovery time was discussed, and a safe margin for the impact energy was proposed.

Published

2021

28. Effect of Pitch Parameters on Aerodynamic Forces of a Straight-Bladed Vertical Axis Wind Turbine with Inclined Pitch Axes

Author

Liping Lei, Timing Qu, and Jia Guo

Subjects

Vertical axis wind turbine, 020209 energy, actuator line model, 02 engineering and technology, 010501 environmental sciences, Span (engineering), 01 natural sciences, Turbine, lcsh:Technology, lcsh:Chemistry, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Instrumentation, lcsh:QH301-705.5, 0105 earth and related environmental sciences, Fluid Flow and Transfer Processes, Physics, Wind power, pitch regulation, vertical axis wind turbine, business.industry, lcsh:T, Process Chemistry and Technology, General Engineering, Structural engineering, aerodynamic forces, lcsh:QC1-999, Computer Science Applications, Aerodynamic force, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, inclined pitch axes, Actuator, business, Reduction (mathematics), lcsh:Engineering (General). Civil engineering (General), Tower, lcsh:Physics

Abstract

Pitch regulation plays a significant role in improving power performance and achieving output control in wind turbines. The present study focuses on a novel, pitch-regulated vertical axis wind turbine (VAWT) with inclined pitch axes. The effect of two pitch parameters (the fold angle and the incline angle) on the instantaneous aerodynamic forces and overall performance of a straight-bladed VAWT under a tip-speed ratio of 4 is investigated using an actuator line model, achieved in ANSYS Fluent software and validated by previous experimental results. The results demonstrate that the fold angle has an apparent influence on the angles of attack and forces of the blades, as well as the power output of the wind turbine. It is helpful to further study the dynamic pitch regulation and adaptable passive pitch regulation of VAWTs. Incline angles away from 90&deg, lead to the asymmetric distribution of aerodynamic forces along the blade span, which results in an expected reduction of loads on the main shaft and the tower of VAWTs.

Published

2021

29. Effect of edge cracks on critical current degradation in REBCO tapes under tensile stress

Author

Zhirong Yang, Yi Li, Peng Song, Mingzhi Guan, Feng Feng, and Timing Qu

Published

2022

30. Design of HTS coil for magnetic driving spacecraft

Author

Chen Gu, Shengnan Zou, Timing Qu, Jiayin Ling, and Zhenghe Han

Subjects

Bismuth -- Magnetic properties, Bismuth -- Electric properties, High temperature superconductors -- Usage, Magnetic shielding -- Analysis, Superconducting magnets -- Design and construction, Business, Electronics, Electronics and electrical industries

Published

2010

31. The design and winding method of a conduction-cooled 1.5 T Bi-2223 high temperature superconducting magnet

Author

Jiayin Ling, Chen Gu, Timing Qu, and Zhenghe Han

Subjects

Bismuth -- Magnetic properties, Bismuth -- Electric properties, Bismuth -- Thermal properties, High temperature superconductors -- Usage, Superconducting magnets -- Design and construction, Superconducting magnets -- Heating, cooling and ventilation, Business, Electronics, Electronics and electrical industries

Published

2010

32. Robustness of Surface Roughness against Low Number of Picture Elements and Its Benefit for Scaling Analysis

Author

Timing Qu, Feng Feng, Pingfa Feng, Xinghui Li, Huiting Zha, Wenmeng Zhou, Xiang Qian, and Huang Junlong

Subjects

010302 applied physics, fractal dimension, Materials science, Mathematical analysis, 02 engineering and technology, Surfaces and Interfaces, Surface finish, Image segmentation, robustness, 021001 nanoscience & nanotechnology, 01 natural sciences, Fractal dimension, Surfaces, Coatings and Films, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Robustness (computer science), lcsh:TA1-2040, 0103 physical sciences, surface roughness, Materials Chemistry, Surface roughness, low pixels, 0210 nano-technology, lcsh:Engineering (General). Civil engineering (General), Scaling, image segmentation

Abstract

Surface roughness is widely used in the research of topography, and the scaling characteristics of roughness have been noticed in many fields. To rapidly obtain the relationship between root-mean-squared roughness (Rq) and measurement scale (L) could be helpful to achieve more understandings of the surface property, particularly the Rq-L curve could be fitted to calculate the fractal dimension (D). In this study, the robustness of Rq against low number of picture elements was investigated. Artificial surfaces and the surfaces of two actual samples (a silver thin film and a milled workpiece) were selected. When the number of picture elements was lowered, Rq was found to be stable within a large portion of the concerned scope. Such a robustness property could validate the feasibility of Rq-L curve obtained by segmenting a single morphological picture with roughness scaling extraction (RSE) method, which was proposed in our previous study. Since the traditional roughness (TR) method to obtain Rq-L curves was based on multiple pictures, which used a fixed number of picture elements at various L, RSE method could be significantly more rapid than TR method. Moreover, a direct comparison was carried out between RSE method and TR method in calculating the Rq-L curve and D, and the credibility and accuracy of RSE method with flatten order 1 and 2 was verified.

Published

2020

33. Comparison of Different Driving Modes for the Wind Turbine Wake in Wind Tunnels

Author

Pan Zeng, Bingzheng Dou, Liping Lei, Michele Guala, Yang Zhanpei, and Timing Qu

Subjects

Control and Optimization, Planetary boundary layer, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, Wake, 01 natural sciences, Turbine, wind tunnel experiment, lcsh:Technology, 010305 fluids & plasmas, law.invention, wind turbine, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, turbulence intensity, Wake turbulence, wake effect, Engineering (miscellaneous), driving mode, Wind tunnel, Renewable Energy, Sustainability and the Environment, Rotor (electric), Turbulence, lcsh:T, Turbulence kinetic energy, Environmental science, Energy (miscellaneous), Marine engineering

Abstract

The wake of upstream wind turbine is known to affect the operation of downstream turbines and the overall efficiency of the wind farm. Wind tunnel experiments provide relevant information for understanding and modeling the wake and its dependency on the turbine operating conditions. There are always two main driving modes to operate turbines in a wake experiment: (1) the turbine rotor is driven and controlled by a motor, defined active driving mode; (2) the rotor is driven by the incoming wind and subject to a drag torque, defined passive driving mode. The effect of the varying driving mode on the turbine wake is explored in this study. The mean wake velocities, turbulence intensities, skewness and kurtosis of the velocity time-series estimated from hot-wire anemometry data, were obtained at various downstream locations, in a uniform incoming flow wind tunnel and in an atmospheric boundary layer wind tunnel. The results show that there is not a significant difference in the mean wake velocity between these two driving modes. An acceptable agreement is observed in the comparison of wake turbulence intensity and higher-order statistics in the two wind tunnels.

Published

2020

34. Simultaneously enhancing mechanical properties and electrical conductivity of aluminum by using graphene as the reinforcement

Author

Shuai Zhang, Gong Zhang, Yuanwang Zhang, Junjun Shen, Yufan Yan, Timing Qu, Gaoqiang Chen, Gang Fang, Zhaoxia Zhou, Dawei Yao, Shengwen Bai, and Qingyu Shi

Subjects

Nanocomposite, Friction stir processing, Materials science, Graphene, Mechanical Engineering, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry, Mechanics of Materials, Aluminium, law, Electrical resistivity and conductivity, General Materials Science, Extrusion, Composite material, 0210 nano-technology, Reinforcement, Electrical conductor, ddc:620.11

Abstract

In this study, we demonstrated simultaneously enhanced mechanical properties and electrical conductivity of pure aluminum (Al) by incorporating graphene as the reinforcement. The graphene/Al nanocomposite was fabricated by friction stir processing (FSP) combined with hot extrusion. It was found that graphene was homogeneously dispersed into Al matrix and directly bonded graphene/Al interfaces were formed, which were the structure basis for the simultaneously improved electrical and mechanical properties. This study provides new strategy for fabricating high-strength and highly conductive graphene/Al nanocomposites.

Published

2020

35. Wind tunnel study on the wake characteristics of a wind turbine model subjected to surge and sway motions

Author

Haoran Meng, Hao Su, Timing Qu, and Liping Lei

Subjects

Renewable Energy, Sustainability and the Environment

Abstract

An experimental study was performed in a uniform incoming flow wind tunnel to investigate the effect of surge and sway motions on the wake characteristics of a wind turbine model. The platform surge and sway motions can be simulated at prescribed amplitudes and frequencies through a translation stage mounted on the base of the turbine model. The flow fields of near, intermediate, and far wakes of the turbine model were characterized by a particle image velocimetry system. Results show that the mean velocity profiles during the whole surging and swaying process of the downwind wakes were almost unchanged with that of a base-fixed turbine; however, the maximum mean velocity differences appeared near the blade tips for both motions compared with the base-fixed cases. Little difference was found between the mean velocity profiles of the turbine model while moving in different directions, for both the surge and sway motions. Later, the characteristics of instantaneous velocity profiles were investigated, and the lateral offset of the instantaneous velocity profiles for the swaying turbine at the two ends of the sway motion was observed. The offset distance was very close to sway amplitudes within the near wake, and it gradually decreased until it disappeared as the downstream distance increases. This work may provide an instrumental guide in the further research on the wake of floating offshore wind turbines.

Published

2022

36. Design of a 30-K/4-kJ HTS Magnet Cryocooled With Solid Nitrogen

Author

Timing Qu, Peng Song, Yi Li, Feng Feng, and Kang Yuhao

Subjects

Battery (electricity), Materials science, Thermal runaway, business.industry, 020209 energy, Nuclear engineering, 02 engineering and technology, Superconducting magnetic energy storage, Cryocooler, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Solid nitrogen, Operating temperature, Condensed Matter::Superconductivity, Magnet, Computer data storage, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business

Abstract

High-performance high-temperature superconductor superconducting magnetic energy storage (HTS-SMES) is a promising technology to play an important role in stabilizing the future power system. However, due to the high prices of HTS materials, a hybrid energy storage system consisting of micro HTS-SMES and Li-ion battery is proposed as a transitional solution. In this paper, a 30-K/4-kJ HTS-SMES magnet is designed and manufactured. The solenoidal magnet spends 500-m 4.55-mm-wide rare-earth-barium-copper-oxide (REBCO) tape and its geometry is optimized to achieve a balance between energy capacity and charging/discharging rate. A flexible and extensible cryogenic system with dual Gifford-McMahon (G-M) cryocoolers is designed for maintaining the operating temperature of the magnet. Solid nitrogen is utilized to enhance the thermal stability during dynamic operation. According to our design, the magnet can deliver/absorb an instant high power with a minimum risk of thermal runaway. A preliminary test of the cryogenic system successfully demonstrated the capability of nitrogen solidification.

Published

2018

37. Design Study of a 10-kW Fully Superconducting Synchronous Generator

Author

Zhenghe Han, Zhu Jiamin, Yufan Li, Peng Song, Changhong Hao, Qihong Wu, Chen Gu, and Timing Qu

Subjects

Superconductivity, Coupling, Materials science, Stator, Rotor (electric), Mechanical engineering, Permanent magnet synchronous generator, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, law, 0103 physical sciences, Torque, Vacuum chamber, Electrical and Electronic Engineering, 010306 general physics, Armature (electrical engineering)

Abstract

In this paper, a 10-kW/150-r/min fully superconducting synchronous generator was designed and sent for manufacturing, which installs high temperature superconducting coils in both the stator and the rotor. It has a basic structure of eight poles and nine slots. The concentrated winding was adopted, and there are 16 field coils and 18 armature coils wound by using 5-mmwide YBa 2 Cu 3 O 7-δ (YBCO) tapes. The total tape consumption is around 2.0 km. Iron cores assembled by silicon-steel sheets will be installed in both the stator and the rotor. The peak gap field of 0.87 T can be achieved with a 42-A excitation current in field coils. The armature electric loading can reach 400 A/cm at the rated output. The present machine is designed to be cooled by using liquid nitrogen. The cryogenic structure can be divided into two parts: the conduction-cooled rotating part for field coils, and the immersion-cooled static part for armature coils. Both parts share the same vacuum chamber. A novel thermal insulated torque coupling will be installed to link the cold rotor and the warm shaft. The ac loss of armature coils was studied by H-formulation and it is within a reasonable range.

Published

2018

38. Design and Test of a Double Pancake Coil for SMES Application Wound by HTS Roebel Cable

Author

Ming Qiu, Panpan Chen, Peng Song, Timing Qu, Jiahui Zhu, and Feng Feng

Subjects

010302 applied physics, Materials science, Transposition (telecommunications), Heat losses, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Conductor, Electromagnetic coil, Paraffin wax, 0103 physical sciences, Inner diameter, Critical current, Electrical and Electronic Engineering, Composite material, 010306 general physics, Voltage

Abstract

A double pancake coil wound by HTS Roebel cable was designed, fabricated, and tested at 77 K. This coil winding had eight turns with the inner diameter of 340 mm and a total conductor length of 10 m. With ten ReBCO strands, the transposition length of the cable was 300 mm. To avoid delamination of ReBCO strands, this coil was impregnated with paraffin wax by a vacuum impregnation method. For protecting ReBCO strands, protective copper plates (PCP) were inserted and soldered between cable surface and external current terminal. The voltage probes were not directly soldered on strands, but on the PCP instead. The critical current and central flux density of the coil were measured at 77 K. With the criterion of 1 μV/cm, the critical current was 1025 A at 77 K. Finally, the additional resistance and the heat loss at 77 and 20 K caused by adding the PCP were estimated.

Published

2018

39. Influence of Dip-Coating Temperature Upon Film Thickness in Chemical Solution Deposition

Author

Zhirong Yang, Linli Wang, Peng Song, Chen Gu, Timing Qu, Fu Qishu, Feng Feng, Mu Hui, and Rui Bao

Subjects

Materials science, Fabrication, Scanning electron microscope, Oxide, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Dip-coating, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Viscosity, chemistry, Electrical and Electronic Engineering, Composite material, 0210 nano-technology, Pyrolysis, Layer (electronics)

Abstract

Chemical solution deposition (CSD) is widely used to fabricate YBCO superconducting and oxide buffer layers for high-temperature coated conductors. Controlling film thickness is important in the CSD technology and can be conducted through several methods. This study proposes a new method of adjusting the temperature of dip-coating. A precursor solution was prepared for fabrication of a YBCO layer. The temperatures of the precursor solution and substrate were fixed at 0 °C, 10 °C, 20 °C, or 30 °C during dip-coating by using a water bath system. Film thickness was measured by scanning electron microscopy after pyrolysis. The average thickness of the pyrolyzed films decreased from 265 to 158 nm when the dip-coating temperature increased from 0 °C to 30 °C, therefore verifying the feasibility of the new method for thickness control. The nonuniformity of thickness distribution along the withdrawal direction was detected and discussed. The influence of temperature on solution viscosity and film thickness was analyzed based on the equation of thickness dependence in dip-coating. The proposed method for thickness control could contribute to increasing the synthesis window in thin-film fabrication through CSD.

Published

2018

40. Author Correction: Integrated study on the comprehensive magnetic-field configuration performance in the 150 kW superconducting magnetoplasmadynamic thruster

Author

Li Yong, Haibin Tang, Timing Qu, Liu Fei, Yibai Wang, Cong Yuntian, Wu Peng, Liu Haiyang, Jinxing Zheng, Ge Wang, Zhou Cheng, Zhu Lei, Baojun Wang, Li Ming, Song Yuntao, Zhao Boqiang, Cheng Yuan, and Zhu Xiaoliang

Subjects

Superconductivity, Physics, Multidisciplinary, business.industry, Science, Medicine, Aerospace engineering, business, Magnetoplasmadynamic thruster, Magnetic field

Published

2021

41. Design of a 20 T Class REBCO Insert in a 15 T Low Temperature Superconducting Magnet

Author

Haoyuan Wang, Timing Qu, Yufan Yan, Liangjun Shao, Xintao Zhang, and Huajun Liu

Subjects

electromagnetic design, 010302 applied physics, Insert (composites), Materials science, TK7800-8360, Current distribution, Computer Networks and Communications, Mechanical models, Superconducting magnet, Stress distribution, 01 natural sciences, Stress (mechanics), Hardware and Architecture, Control and Systems Engineering, Electromagnetic coil, Magnet, screening current effect, 0103 physical sciences, Signal Processing, mechanical support structure, Electronics, Electrical and Electronic Engineering, Composite material, 010306 general physics, high field superconducting magnet

Abstract

A 20 T REBCO insert magnet has been designed considering a 15 T/150 mm background field generated by an LTS magnet. A two-nested-coil structure was chosen. The target of this project is to generate a 20 T/80 mm user field by inserting the outer MI-REBCO coil (Coil 2) first, then try to reach 35 T by inserting the inner NI-REBCO test coil (Coil 1). Coil 2 will be wound by copper packed, 185-μm thick REBCO tapes co-wound with 50-μm thick Hastelloy tapes. Coil 1 will be no-insulated wound by 65-μm thick REBCO tapes. Two mechanical models were built to estimate the stress distribution inside the HTS coils during operation. The influence of the screening current distribution on stress was discussed. The unbalanced force caused by the coil misalignment was also simulated. The 20 T HTS insert magnet is planned to be built and tested in 2021. The progress of coil winding and preliminary test results at 77 K were presented.

Published

2021

42. Stress Reduction and Storage Capacity Enhancement of the HTS-SMES Using Reinforcing Overbanding Structure

Author

Timing Qu, Feng Feng, Mingshuo Wu, Nannan Hu, Chen Gu, Yi Li, and Zhenghe Han

Subjects

Superconductivity, Materials science, Solenoidal vector field, Modulus, Mechanical engineering, Solenoid, 02 engineering and technology, Superconducting magnetic energy storage, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, symbols.namesake, Magnet, 0103 physical sciences, symbols, Cylinder stress, Electrical and Electronic Engineering, 010306 general physics, 0210 nano-technology, Lorentz force

Abstract

High-energy high-temperature superconducting superconducting magnetic energy storage (HTS-SMES) is expected to play an important role in stabilizing the future smart micro grid. Large-scale and high-field magnet is required for high-energy SMES. However, the significant hoop stress induced by the Lorentz force has become one of the most serious threats. In this paper, we proposed a solution to reduce the hoop stress by overbanding the solenoidal magnet with high Young's modulus and yielding strength reinforcing structure. A unique graphical method was developed to optimize the geometry of the magnet and reinforcing overbanding structure to achieve high energy capacity. According to our analysis, thin-walled solenoid with large aperture is recommended as an economical geometry for HTS-SMES.

Published

2017

43. Observation and Analysis of Defects in Impregnated YBCO Racetrack Coil

Author

Lingfeng Lai, Yudong Jiang, Chen Gu, Timing Qu, Nannan Hu, and Siwei Chen

Subjects

010302 applied physics, Superconductivity, Materials science, Delamination, High resolution, Epoxy, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Measurement device, Electromagnetic coil, visual_art, 0103 physical sciences, visual_art.visual_art_medium, Critical current, Electrical and Electronic Engineering, Composite material, 010306 general physics

Abstract

Most HTS (high-temperature superconductor) coils will quench due to defects in the winding. Some of these defects come from tape manufacturing, but more commonly are generated in the process of making a coil, especially for the YBCO racetrack coils that use epoxy resin to solidify the winding. In order to find out defects, chemical solutions are used to dissolve epoxy resin of three damaged YBCO racetrack coils. YBCO tapes reclaimed from these coils are scanned by MCorder, a continuous critical current measurement device that can tell amplitude of defects and distribution of defects in a high speed and high resolution. The scan result shows severe defects everywhere in the winding. However, during the solidification process, outer turns are more vulnerable to the defects than the inner turns. We believe that the delamination of YBCO tape caused by contraction of the epoxy resin contributes to the defects.

Published

2017

44. A REBCO Persistent-Current Switch (PCS): Test Results and Switch Heater Performance

Author

Yukikazu Iwasa, Timing Qu, Juan Bascunan, Seungyong Hahn, Philip C. Michael, and John P. Voccio

Subjects

Superconductivity, Heating power, Materials science, High-temperature superconductivity, Liquid helium, business.industry, Electrical engineering, Persistent current, 02 engineering and technology, Superconducting magnet, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Temperature measurement, Article, Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, law, 0103 physical sciences, Electrical and Electronic Engineering, 010306 general physics, 0210 nano-technology, business

Abstract

In this paper, we report preliminary results of our on-going effort to develop a superconducting persistent-current switch (PCS) for REBCO pancake coils that will be operated in liquid helium. In the first part of this paper, we briefly describe experimental results of our PCS operated in the temperature range 77–57 K, i.e., liquid- and solid-nitrogen environments. The rest we devote to a new PCS heater design in which we target a heating power of $ 1 W in liquid helium.

Published

2017

45. Test of an 8.66-T REBCO Insert Coil With Overbanding Radial Build for a 1.3-GHz LTS/HTS NMR Magnet

Author

Juan Bascunan, Philip C. Michael, Timing Qu, Yukikazu Iwasa, Thibault Lecrevisse, Seungyong Hahn, and Mingzhi Guan

Subjects

010302 applied physics, Nmr magnet, Insert (composites), Materials science, Field (physics), Superconducting magnet, Superconducting magnetic energy storage, Condensed Matter Physics, 01 natural sciences, Article, Electronic, Optical and Magnetic Materials, Nuclear magnetic resonance, Stack (abstract data type), Electromagnetic coil, Magnet, 0103 physical sciences, Electrical and Electronic Engineering, Composite material, 010306 general physics

Abstract

A 1.3-GHz/54-mm LTS/HTS NMR magnet, assembled with a three-coil (Coils 1-3) 800-MHz HTS insert in a 500-MHz LTS NMR magnet, is under construction. The innermost HTS insert Coil 1 has a stack of 26 no-insulation (NI) double pancake (DP) coils wound of 6-mm-wide and 75-μm-thick REBCO tapes. In order to keep the hoop strains on REBCO tape

Published

2017

46. Screening current effect on the stress and strain distribution in REBCO high-field magnets: experimental verification and numerical analysis

Author

Yunfei Tan, Huajun Liu, Timing Qu, Canjie Xin, Mingzhi Guan, and Yufan Yan

Subjects

Materials science, Distribution (number theory), Numerical analysis, Stress–strain curve, Metals and Alloys, FOS: Physical sciences, Mechanics, Applied Physics (physics.app-ph), Physics - Applied Physics, Condensed Matter Physics, Strain distribution, Magnet, Materials Chemistry, Ceramics and Composites, High field, Electrical and Electronic Engineering, Current (fluid)

Abstract

Besides screening-current-induced magnetic fields (SCIF), the shielding effect in high-Tc coated conductors also has an strong influence on its strain distribution in a coil winding, especially during high-field operations. To demonstrate this phenomenon, a special experimental setup was designed. With an LTS background magnet and a small HTS insert coil, we were able to carry out direct observations on the hoop strains of a 10-mm wide REBCO sample. Measured data was compared against numerical solutions solved by electromagnetic models based on T -A formulation and homogeneous mechanical models, showing good agreements. An analytical expression was proposed to estimate the maximum radial Lorentz force considering shielding effect. Using the developed numerical models, we further studied the potential effects of two of the mostly investigated methods, which were formerly introduced to reduce SCIF, including multi-filamentary conductors and current sweep reversal (CSR) approach.

Published

2019

47. A Method to Fabricate Biaxially Textured MgO Buffer Layer for HTS Coated Conductor

Author

Shaozhu Xiao, Zhenghe Han, Feng Feng, Hongyuan Lu, Timing Qu, and Xiangsong Zhang

Subjects

Materials science, 02 engineering and technology, Substrate (electronics), Sputter deposition, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Ion source, Electronic, Optical and Magnetic Materials, Amorphous solid, 0103 physical sciences, Deposition (phase transition), Texture (crystalline), Electrical and Electronic Engineering, Composite material, 010306 general physics, 0210 nano-technology, Ion beam-assisted deposition, Layer (electronics)

Abstract

In this paper, a radio-frequency magnetron sputtering system without any assisting ion source was employed to fabricate biaxially textured MgO films on the substrates of amorphous Y 2 O 3 /Al 2 O 3 /Hastelloy stacks. During the deposition process, the growing MgO film was bombarded by an off-normal energetic particle flux mainly composed of oxygen atoms and negative oxygen ions, which originated from the target surface. MgO obtained a biaxial texture due to such bombardment; thus, this method is named energetic particle self-assist deposition (EPSAD). The texture of EPSAD-MgO films was evaluated via the X-ray diffraction measurement of the postdeposited homoepitaxial MgO layers. An out-of-plane orientation of MgO(111) and a three-fold symmetric in-plane alignment were observed. The MgO texture was optimal when the EPSAD-MgO thickness was about 10 nm. The formation of biaxial texture during the EPSAD process was verified by a control study, and the influences of targetinclined angle and target-substrate distance were also investigated. Furthermore, the mechanism of the EPSAD-MgO method was compared with those of the inclined substrate deposition and ion beam assisted deposition. This study proposed a new method to fabricate a biaxially textured MgO buffer layer for high temperature superconducting (HTS) coated conductors. More optimization research will be conducted in our future study.

Published

2016

48. Thermodynamics and Kinetics Analysis of MOD-YBCO Heat Treatment Process Using in situ Resistance Measurement Method

Author

Yuping Zhu, Feng Feng, Fu Qishu, Shutong Deng, Shaozhu Xiao, Pan Zeng, Guan Lin, Timing Qu, Zhenghe Han, Xiangsong Zhang, and Hongyuan Lu

Subjects

Superconductivity, Surface diffusion, Materials science, Standard molar entropy, Nucleation, Thermodynamics, 02 engineering and technology, Activation energy, Yttrium barium copper oxide, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Standard enthalpy of formation, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Condensed Matter::Superconductivity, 0103 physical sciences, Saturation (graph theory), Electrical and Electronic Engineering, 010306 general physics, 0210 nano-technology

Abstract

During the fabrication of $\text{YBa}_{2}\text{Cu}_{3}\text{O}_{7-\delta}$ (YBCO) superconducting films via metal organic deposition (MOD) method, the crystallization temperature $(T)$ is an important parameter for YBCO nucleation and growth. In this paper, in situ resistance measurements were performed to investigate the influence of $T$ on the growth rate $(R)$ and saturation nuclei density $(N)$ of the YBCO film. Based on the reaction–diffusion model, the specific equation of $R$ as a function of $T$ was established, and the thermodynamics variables, including standard entropy change, standard enthalpy change, and standard Gibbs free energy change of YBCO formation reaction, were estimated. The influence of $T$ on $N$ was analyzed, according to the “capture zone” kinetics mechanism, and the average activation energy for surface diffusion during YBCO nucleation was estimated. The thermodynamics and kinetics analysis in this paper could help to obtain more understanding on the heat treatment process of MOD-YBCO film fabrication.

Published

2016

49. Design and Test of a Novel Thermal Insulated Torque Coupling for a 15-kW Fully HTS Synchronous Generator

Author

Peng Song, Feng Feng, Qihong Wu, Chen Gu, Sun Renjun, Timing Qu, Zhiyong Hong, and Zhenghe Han

Subjects

Coupling, Materials science, Stator, Rotor (electric), 020209 energy, Mechanical engineering, 02 engineering and technology, Permanent magnet synchronous generator, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, Power (physics), Direct torque control, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Torque, Torque sensor, Electrical and Electronic Engineering, 010306 general physics

Abstract

A 15-kW/150-rpm fully high-temperature superconducting (HTS) synchronous generator, which installs HTS windings on both the rotor and the stator, is under development. The thermal insulated torque coupling (TITC) is one essential part in the generator, which can transmit torque from the outside warm shaft to the inside cryogenic rotor shaft and reduce the heat conduction as well. In this work, a modular TITC structure has been proposed, which mainly consists of several G10 rods and two metallic flanges. An analytical model for evaluating the stress level and the heat leakage power was built. Design principles for TITCs at different load levels were discussed. Based on the aforementioned knowledge, a sample TITC for our 15-kW/150-rpm generator was designed, produced, and tested under the static load. It was found that the TITC cracked at the load of 2500 Nm, which corresponds to a safety factor of 2.6. Key structural parameters for TITCs working under higher torque levels (0.5-10 MNm) were also calculated.

Published

2016

50. Property Improvement of 600-nm-Thick YBCO Superconducting Films Fabricated Using a Pb-Modified MOD Method

Author

Timing Qu, Zhenghe Han, Feng Feng, Zongfang Hou, Xiangsong Zhang, Hongyuan Lu, Shaozhu Xiao, Pan Zeng, Yuping Zhu, and Rongxia Huang

Subjects

Superconductivity, Materials science, business.industry, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Mod, 0103 physical sciences, Optoelectronics, Electrical and Electronic Engineering, 010306 general physics, 0210 nano-technology, business

Published

2016