• Title/Summary/Keyword: Magnetic Field Analysis

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Magnetic Field Analysis of Arc Furnace Using FEM (유한요소법을 이용한 Arc로의 자기장분포 해석연구)

  • Kim, Chan-Uk;Im, Jong-In
    • Korean Journal of Materials Research
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    • v.11 no.12
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    • pp.1091-1095
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    • 2001
  • Finite element analysis showed that strong magnetic fields were distributed around the arc furnace where the strongest magnetic field was generated around the three phase cables, and followed by the electrodes and the mast arm in decreasing order. Magnetic field decay patterns around the arc furnace could be fitted by introducing exponential formula,$Y=Y_0+Ae^{\frac-{x}{t}}$. These results showed that magnetic field intensities around the arc furnace could be estimated at any 3-dimensional positions using the finite element method (FEM).

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Magnetic Field Analysis of the Electrode Arc Furnace in Steel Making Foundries

  • Kim, C.W.;Im, J.I.
    • Journal of Magnetics
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    • v.8 no.2
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    • pp.79-84
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    • 2003
  • Finite element analysis showed that strong magnetic fields were distributed around the arc furnace where the strongest magnetic fields were generated around the three phase cables. The second and third strongest fields near the arc furnace were found to be generated around the electrodes and the mast-arms, respectively. The generated field intensities were greatly influenced by the mast arm structure of the arc furnace as well as the phase differences and operation currents of the supplied power, Magnetic field decay patterns around the arc furnace could be smoothly fitted by this equation of exponential formula, H=H$0_$+Ae$^{\frac{r}{t}}$. These results revealed that magnetic field intensities around the arc furnace could be estimated at any 3-dimensional position using finite element method (FEM).

Magnetic Field Calculation of Toroidal Winding with Circular Section (단면이 원형인 토로이드 권선의 자속밀도 계산)

  • Lee, Sang-Jin
    • Progress in Superconductivity and Cryogenics
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    • v.12 no.1
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    • pp.28-31
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    • 2010
  • A magnetic field calculation method for toroidal type winding which has circular section was developed. At first, the equation for magnetic field by single filament coil was extended using numerical integration to estimate the entire interesting region of solenoid, especially winding region itself. And then, the magnetic field by toroidal arrangement of solenoids was computed with a coordinate transformation of vector fields. The superconducting magnet with toroidal arrangement can be made up of several tens of solenoid type double pancake windings for some applications such as superconducting magnetic energy storage system(SMES). In this system, the field calculation on the high-Tc superconducting(HTS) tape itself is very important because the entire system can be reached to a fault by magnetic stress of conductor or the critical current of superconducting tape can be dramatically reduced under its self field condition. To make matters worse, 3-dimensional analysis is indispensable for this type of magnet and the most of commercial programs with finite element method can be taken too much time for analysis and design. In this paper, a magnetic field calculation method for toroidal type winding with circular section was induced.

Comparison of Magnetic Field and AC Losses in Solenoid Coil and Pancake Coil with HTS tape

  • Park, Myungjin;Lee, Kwangyoun;Jungwook Sim;Gueesoo Cha;Lee, Jikwang
    • Progress in Superconductivity and Cryogenics
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    • v.5 no.1
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    • pp.97-101
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    • 2003
  • When HTS tapes are used in power application, they are used by winding form, such as, a pancake and a solenoid. When AC current is applied to the coil, Ac magnetic field is generated in winding. This AC magnetic field acts as an external magnetic field and makes loss. In this paper the radial magnetic field component ($B_r$) and the axial magnetic field component ($B_z$) in a pancake and a solenoid were calculated by numerical analysis method and compare with measured value. AC losses of a short sample were calculated by Norris equation and n numerical analysis based on Brandt equation. AC losses of the pancake coil and the solenoid coil were also calculated.

Magnetic Field Analysis of Wireless Power Transfer via Magnetic Resonant Coupling or Electric Vehicle

  • Kesamaru, Katsumi
    • Journal of international Conference on Electrical Machines and Systems
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    • v.3 no.1
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    • pp.83-87
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    • 2014
  • This paper describes the magnetic field analysis of wireless power transfer via magnetic resonant coupling. The wireless power transfer system for supplying power to electric vehicle is developed. The parameters of coil transfer system are simulated by the finite element method (FEM). Therefore the coil structure of power transfer system can be accurately analyzed. This paper deals with 3kW wireless transfer system.

Examination of Frequency Dependence of Iron Loss in Magnetic Field Analysis

  • Masato Enokizono;Yuji Fujita
    • KIEE International Transaction on Electrical Machinery and Energy Conversion Systems
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    • v.11B no.3
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    • pp.59-63
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    • 2001
  • This paper presents a new modeling of the two dimensional magnetic property in soft magnetic materials for the magnetic field computations. In this modeling an approximate treatment is introduced to expand the applicable exciting frequency range. The result shows that the new modeling presented here is very useful in simplicity of magnetic field analysis.

Magnetic force Characteristics of the Speed Reducer using Magnetic Focusing (자기 포커싱 방법을 적용한 감속 장치의 자기력 특성에 관한 연구)

  • Jung, Kwangsuk
    • Journal of Institute of Convergence Technology
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    • v.11 no.1
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    • pp.7-12
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    • 2021
  • The magnetic gear, which amplifies the torque by filtering the magnetic field generated by the low-speed permanent magnet with a modulator, can exclude gear contact and can be effectively applied when there are environmental restrictions. In this paper, we discuss the magnetic force characteristics of a magnetic gear using a magnetic focusing array that replaces a general permanent magnet array magnetized in a radial direction along the circumferential direction. The torque increasing effect of the discussed array, known as an arrangement that increases the principal component by focusing a radial magnetic field, is compared with that of a general magnetic gear. In particular, in a magnetic gear using such an array, the sensitivity of torque according to variables is analyzed to see how various variables known as factors affecting torque have an effect.

A Study on the Flow Behavior of Magnetic Fluids in a Circular Pipe with a Vertical Magnetic Field (수직자장하에서 원관내 자성유체의 거동에 관한 연구)

  • Park, Joung-Woo;Ryu, Shin-Oh;Seo, Lee-Soo
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.23 no.1
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    • pp.25-32
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    • 1999
  • In the present paper, we theoretically analyze the flow of magnetic fluids in a circular pipe with a vertical magnetic field and investigate the magnetic response by the external magnetic field. Theoretical study through the governing equation derived by Siliomis is carried out with numerical analysis by the Gauss Elimination Method. Using polar and magnetic effect parameters, theoretical equations and distributions for the velocity, vorticity, internal angular momentum and induced magnetization as the magnetic response are shown. Especially, in the region of strong magnetic field the specific property is appeared by finding a critical magnetic effect parameter for a polar effect parameter.

Design of 2-Axis Magnetic Field Source for in Vivo Experiments at Extremely Low Frequency (생체 실험용 2-축(軸) 극저주파 자기장 발생 장치의 설계)

  • Kim, Jeong-Ho;Gimm, Youn-Myoung
    • Proceedings of the Korea Electromagnetic Engineering Society Conference
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    • 2003.11a
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    • pp.13-17
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    • 2003
  • In this paper, the design parameters for the magnetic field source at extremely low frequency are proposed. This facility can be used for in vivo experiments with small animals to investigate biological response to the driving magnetic fields. In case that the exposed animals are motionless, the animals may be affected by the directivity of driving field. To avoid this effect, a 2-axis ELF magnetic field driving apparatus was designed, The optimum location and number of turns of each coil were obtained by numerical analysis. Applying these data to the MATLAB code (for computation), the magnetic field distribution was obtained. The calculation result for a well-designed facility showed that the space in which the amplitude of the magnetic field lies within the 95% of the magnetic field distribution was more than 60% of each axis length.

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Analysis for Magnetic field generated in the Flux-Lock Type Reactor using HTSC during a fault time (고온초전도체를 이용한 자속구속 리액터의 사고시 발생되는 자계 분석)

  • Lim, Sung-Hun;Choi, Hyo-Sang;Kang, Hyeong-Gon;Ko, Seok-Cheol;Lee, Jong-Hwa;Choi, Myung-Ho;Song, Jae-Joo;Han, Byoung-Sung
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2003.07a
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    • pp.601-604
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    • 2003
  • The magnetic field generated in the iron core, which is required for the magnetic field to link each coil of the flux-lock type reactor, affects the fault current limiting characteristics of the flux-lock type high-Tc superconducting fault current limiter(SFCL). By applying numerical analysis for equivalent circuit of flux-lock type SFCL, the magnetic field induced in the iron core including currents of each coil was investigated. Through the analysis of magnetic field, we have analyzed that the magnetic field linked the 3rd coil, which is wound in the iron core, prevents the saturation of the iron core, but decreases the impedance of the flux-lock type SFCL.

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