Simulation of Magnetorheological Fluid Flows at Particle Scale

Hashemi, Mohammad Reza; Taghizadeh Manzari, Mehrdad Fatehi, Rouhollah

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شبیه‌سازی جریان سیال مگنتورئولوژیکال در مقیاس ذرات
پدیدآور اصلی :	هاشمی، محمد رضا Hashemi, Mohammad Reza
ناشر :	صنعتی شریف
سال انتشار :	1396
موضوع ها :	سیال شناسی Rheology هیدرودینامیک ذرات هموار Smoothed Particle Hydrodynamics (SPH) سیال...
شماره راهنما :	‭08-50472

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10.1016@j.camwa.2015.12.034.pdf
- Evaluation of a pressure splitting formulation for Weakly Compressible SPH: Fluid flow around periodic array of cylinders
  - Introduction
  - Numerical method
    - Renormalization
    - Pressure--velocity coupling
    - Remarks
  - Stability analysis
    - Verification
  - Results: start-up flow around a periodic array of cylinders
    - Validation and convergence
      - Vanishing reynolds Reynolds number
      - Moderately low Reynolds number
    - The effects of artificial speed of sound
      - Vanishing Reynolds number
      - Moderately low Reynolds number
  - Conclusion
  - Acknowledgement
  - Numerical algorithm
  - Effects of a predictor--corrector
  - References
10.1016@j.apm.2015.11.020.pdf
- A SPH solver for simulating paramagnetic solid fluid interaction in the presence of an external magnetic field
  - 1 Introduction
  - 2 Governing equations
    - 2.1 Hydrodynamics
    - 2.2 Magnetostatics
  - 3 Smoothed particle hydrodynamics
    - 3.1 Implementation
    - 3.2 Moving solid bodies
    - 3.3 Magnetic force
    - 3.4 Stabilized SPH method
      - 3.4.1 Modified continuity equation
      - 3.4.2 SPH particle shifting
    - 3.5 Remarks
  - 4 Results
    - 4.1 Magnetic force verification
    - 4.2 Test problems
      - 4.2.1 A single solid body in a closed cavity
      - 4.2.2 Momentum conservation
      - 4.2.3 A pair of solid bodies in a cosed cavity
      - 4.2.4 Magnetic chain in a rotating magnetic field
    - 4.3 Application: magnetic chain in a periodic shear flow
      - 4.3.1 Effect of solid volume fraction
      - 4.3.2 Effect of mason number
      - 4.3.3 Small amplitude oscillatory shear
  - 5 Conclusion
  - Acknowledgment
  - Appendix A Magnetic force density
  - Appendix B Numerical algorithm
  - Appendix C The finite element method
  - References
10.1016@j.camwa.2015.12.034.pdf
- Evaluation of a pressure splitting formulation for Weakly Compressible SPH: Fluid flow around periodic array of cylinders (200)
10.1016@j.apm.2015.11.020.pdf
- A SPH solver for simulating paramagnetic solid fluid interaction in the presence of an external magnetic field (221)