DEM simulation considering the interactions between particles and highly viscous liquid

• Project/Area Number: 18K13690
• Research Category: Grant-in-Aid for Early-Career Scientists
• Allocation Type: Multi-year Fund
• Review Section: Basic Section 19010:Fluid engineering-related
• Research Institution: Osaka University
• Principal Investigator: Washino Kimiaki 大阪大学, 工学研究科, 講師 (10726384)
• Project Period (FY): 2018-04-01 – 2020-03-31
• Project Status: Completed (Fiscal Year 2019)
• Budget Amount: ¥4,160,000 (Direct Cost: ¥3,200,000、Indirect Cost: ¥960,000); Fiscal Year 2019: ¥1,690,000 (Direct Cost: ¥1,300,000、Indirect Cost: ¥390,000); Fiscal Year 2018: ¥2,470,000 (Direct Cost: ¥1,900,000、Indirect Cost: ¥570,000)
• Keywords: 離散要素法 / 液架橋力 / 高粘度 / 計算負荷低減 / べき乗則流体 / 粒子剛性低減 / 粉体流 / 高粘度液 / 数値計算 / 粉体シミュレーション / 潤滑力

Outline of Final Research Achievements

In this research, several simulation models are developed to enable computer simulation of wet particles with highly viscous liquid using Discrete Element Method (DEM). Since highly viscous liquids used in industry are often power-law fluid, the viscous force models for liquid bridge of power-law fluid between particles are developed. DEM is a computer intensive method and it is crucial to reduce the computational cost to simulate industrial scale systems. In order to overcome this problem, the semi-theoretical integration scheme for viscous force as well as the reduced particle stiffness method are proposed. It is proven that these models make it possible to perform DEM simulation efficiently without sacrificing the accuracy.

Academic Significance and Societal Importance of the Research Achievements

本研究で得られたモデルを用いることにより，これまで不可能であった高粘度の液で濡れた粒子のDEMシミュレーションを，現実的な時間スケールで行うことが可能となった．これにより，例えば液で濡れた粉体の分散メカニズム解明のような様々な知見を得ることができ，学術的に非常に意義があると言える．また，粉体ハンドリングプロセス中に起こる様々な問題についてシミュレーションを行うことで，問題解決の方法を提案やプロセスの最適化に役立つと考えられる．このことは，国民の手にわたる粉体関連製品の品質向上や低価格化につながり，社会的にも意義のあるものである．

Research Products

• [Int'l Joint Research] The University of Sheffield(英国)
• [Int'l Joint Research] The University of Sheffield(英国)
• [Presentation] 液で濡れた粒子のDEMシミュレーション (2019)
  • Author(s): 鷲野 公彰，Chan Ei Leen，田中 敏嗣
  • Organizer: 粉体工学会 第54回技術討論会
• [Presentation] DEM-CFD model for gas-liquid-solid flows with complex wall boundaries (2019)
  • Author(s): Kimiaki Washino, Ei L. Chan, Junpei Uno, Takuya Tsuji, Toshitsugu Tanaka
  • Organizer: 8th International Conference on Discrete Element Method
  • Int'l Joint Research
• [Presentation] Reduction of particle stiffness in DEM simulation considering attraction force (2019)
  • Author(s): Ryosuke Yamagami, Kimiaki Washino, Ei L. Chan, Takuya Tsuji and Toshitsugu Tanaka
  • Organizer: Asian Pacific Confederation of Chemical Engineering 2019
  • Int'l Joint Research
• [Presentation] Volume penalization method for gas-liquid-solid flows with immersed free surface (2019)
  • Author(s): Giang Nguyen, Kimiaki Washino, Takuya Tsuji and Toshitsugu Tanaka
  • Organizer: Asian Pacific Confederation of Chemical Engineering 2019
  • Int'l Joint Research
• [Presentation] 界面相互作用を考慮したDNS-DEM気液固三相モデル開発 (2019)
  • Author(s): 南山 拓海，鷲野 公彰，田中 敏嗣，辻 拓也
  • Organizer: 第25回流動化・粒子プロセッシングシンポジウム
• [Presentation] DEM Simulation with Scale-up Particles (2018)
  • Author(s): Washino, K.
  • Organizer: AIChE annual meeting 2018
  • Int'l Joint Research
• [Presentation] DEM Simulation with Reduced Particle Stiffness (2018)
  • Author(s): Washino, K.
  • Organizer: 8th World Congress on Particle Technology
  • Int'l Joint Research
• [Presentation] 弾性率を下げた粒子を用いたDEMシミュレーション －粒子間付着力を考慮した場合について－ (2018)
  • Author(s): 鷲野 公彰
  • Organizer: 粉体工学会春期研究発表会