• 한국정보통신학회논문지
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• 제3권2호
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• pp.447-453
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• 1999

In MHD power generation system, enthalpy of the working gas is convened to electric power directly through expansion in generator channel. It means that electric power can be generated without a moving mechanical linkage such as turbine blades. The principle of MHD generation is based on Faraday'law of induction that eletromotive force(u$\times$B) is generated when the working gas of velocity u flows a channel in which magnetic field of strength(B) exists. In this paper, helium gas seeded with cesium is used as working gas. There are two types of generator in MHD generation; linear type faraday and disk type hall generator. Rogowski coils having the bandwidth of the 100(Hz) ~ 20(kHz) were used for measuring current flowing MHD disk channel. Optimum load resistor value of the MHD generator studied was 2.5[$\Omega$]. Disk type hall generator's generation performance is the main target of this paper, which superiors to linear type Faraday generator in many points. Isentropic efficiency and enthalpy extraction rate of disk type shock tube driven hall generator is discussed here.

• 대한전기학회:학술대회논문집
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• 대한전기학회 1998년도 하계학술대회 논문집 F
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• pp.1981-1983
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• 1998

The principle of the MHD generation is based on Faraday's law of induction that a eletromotive force(u ${\times}$ B) is generated when the working gas of velocity u flows a channel in which magnetic field of strength(B) exists. In MHD power generation system, enthalpy of the working gas is converted to electric power directly through expansion in generator channel. It means that electric power can be generated without moving mechanical linkage such as turbine blades. There are two types in the MHD generator; linear type Faraday and disk type hall generator. Disk type hall generator is the main target of this paper. Isentropic efficiency and enthalpy extraction rate of disk type shock tube driven hall generator is discussed here.

• 전기학회논문지
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• 제65권10호
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• pp.1639-1647
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• 2016

This paper deals with eddy current loss analysis of Slotless Double sided Cored type permanent magnet linear generator by using analytical method, space harmonic method. In order to calculate eddy current, this paper derives analytical solution by the Maxwell equation, magnetic vector potential, Faraday's law and a two-dimensional(2-D) cartesian coordinate system. First, we derived the armature reaction field distribution produced by armature wingding current. Second, by using derived armature reaction field solution, the analytical solution for eddy current density distribution are also obtained. Finally, the analytical solution for eddy current loss induced in permanent magnets(PMs) are derived by using equivalent, electrical resistance calculated from PMs volume and eddy current density distribution solution. The analytical result from space harmonic method are validated extensively by comparing with finite element method(FEM).

• 한국정보통신학회논문지
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• 제4권2호
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• pp.493-503
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• 2000

MHD 발전에는 두가지 형의 발전기가 있다 : 리니어형 파라데이 발전기와 디스크형 홀 발전기. 본 논문에서는 디스크형 홀 발전기를 그 실험 대상으로 하고 있다. 디스크형 홀 발전기는 매우 짧은 시간에 작동 유체를 단열적으로 압축하는 충격파관에 의해 구동된다. 작동 유체로서는 세슘을 시드로 한 헬륨이 사용되었다. MHD 발전기에 일어나는 현상은 매우 복잡하기 때문에 단지 실험을 통하여 전체의 상황을 알기란 어렵다. 더욱이. 발전시간이 매우 짧고 작동유체는 매우 빠른 속도로 흐르기 때문에 발전기 채널 내부에서 일어나는 것을 정확하게 알 수 없다. 충격파관 구동 MHD 발전 실험 장치를 이용하여 경계층내에서 일어나는 것들을 측정하란 거의 불가능하다. 위와 같은 이유로, 디스크형 MHD 발전기 내부에서 일어난 몇몇 값들이 어떻게 변하는 지 명확히 알기 위해, 몇 개의 그래프가 계측된 실험 데이터를 이용한 계산을 통해서 선형적으로 그려졌다. 또한 실험만으로는 얻어질 수 없는 다른 계산결과도 본 논문에서 평가하고 있다. 그리고 이들 계산된 결과치가 계산이 얼마나 정확히 이루어 졌는지 실험 데이터와 비교하고 있다.