Corresponding Waveform of Induced Electromotive Force and Flow Regime of Air-Magnetic Fluid Two-Phase Flow in Electromagnetic Induction Measuring Method

DOI Web Site 12 References
  • YAMAGUCHI Hiroshi
    同志社大学工学部機械システム工学科
  • KUWAHARA Takuya
    同志社大学大学院工学研究科博士課程後期課程 Ecole Centrale Paris, Laboratoire Mathématiques Appliquées aux Systèmes
  • DE VUYST Florian
    Ecole Centrale Paris, Laboratoire Mathématiques Appliquées aux Systèmes

Bibliographic Information

Other Title
  • 電磁誘導法計測における磁性流体気液二相流の流動様式と波形の対応
  • デンジ ユウドウホウ ケイソク ニ オケル ジセイ リュウタイ キエキ ニソウリュウ ノ リュウドウ ヨウシキ ト ハケイ ノ タイオウ

Search this article

Abstract

In this paper a method to identify flow regime is reported in order to give a fundamental insight into air-magnetic fluid two-phase flow. The flow regime classification is based on the magnetic induction method of void fraction measurement. The proposed method identifies the flow regimes by waveforms of induced electromotive force. In experiment, we obtained induced electromotive force in actual two-phase flow by adopting volumetric flux of each phase as a main parameter. In order to confirm the flow regime, flow-regime visualization was carried out. The relationship between flow regime and the corresponding waveform of the induced electromotive force was investigated. As a result, the waveforms of electromotive force can be categorized, as in the case of flow regime, into waveforms corresponding to bubbly, slug, churn and annular flows. Moreover, the signal of induced electromotive force was treated by a signal processing with wavelet transform to obtain a probability density function (PDF).

Journal

References(12)*help

See more

Related Projects

See more

Keywords

Details 詳細情報について

Report a problem

Back to top