非球形粒子運動の数値解析(一様流中の粒子運動に対する湧き出しの影響)

Translated title of the contribution: Numerical investigation of motion of a non-spherical particle (Effects of gas blowing-out on motion of a particle in a uniform flow)

イ チョウ, 武藤 昌也, 堀 高太郎, 渡邊 裕章, 北川 敏明

Research output: Contribution to journalArticlepeer-review

Abstract

This paper reports a numerical investigation of the motion of spherical and non-spherical particles with/without gas blowing-out in a vertical uniform flow. A sphere, spheroid and pulverized coal particle are targeted in this study. The shape of coal particle is three-dimensionally modeled by scanning a coal particle using the X-ray CT method. As a first stage of the research, the Arbitrary Lagrangian-Eulerian (ALE) method is validated by comparing with the experiment. Secondly, the simulations of spherical and non-spherical particles with or without gas blowing-out in a vertical uniform flow are performed. The results show that the spheroidal particle with equivalent volume has a more similar accelerating motion to that of coal particle than spherical particle. For spheroidal particle, its distribution of PDF of <i>C</i><i><sub>D</sub></i> shows a possibility to make a <i>C</i><i><sub>D</sub></i> equation with <i>Re</i> and particle's orientation. It is also revealed that the motion of coal particle with irregular shape is significantly dependent on its shape, especially with gas blowing-out. A new model in which this complex shape effects can be considered is required to describe the irregular shape particle.
Translated title of the contributionNumerical investigation of motion of a non-spherical particle (Effects of gas blowing-out on motion of a particle in a uniform flow)
Original languageJapanese
Pages (from-to)15-00068-15-00068
Journal日本機械学会論文集
Volume81
Issue number827
DOIs
Publication statusPublished - 2015

Fingerprint

Dive into the research topics of 'Numerical investigation of motion of a non-spherical particle (Effects of gas blowing-out on motion of a particle in a uniform flow)'. Together they form a unique fingerprint.

Cite this