Design simulation of glass-fiber-loaded flow in an internally spout-fluidized bed for processing of thermoplastic composites. I. Flow characterization

Keyphrases

• Design Simulation 100%
• Thermoplastic Composites 100%
• Spout-fluid Bed 100%
• Flow Characterization 100%
• Fiber Dispersion 30%
• Large Eddy Simulation 30%
• Fiber Flocs 30%
• Flow Field 20%
• Fiber Bundle 20%
• Statistical Analysis 10%
• Volume Fraction 10%
• Strong Interaction 10%
• Numerical Simulation 10%
• Design Process 10%
• Flow Pattern 10%
• Direct Measurement 10%
• Stress Rate 10%
• Hydrodynamic Behavior 10%
• Low Volume 10%
• Pre-impregnation 10%
• Rheometer 10%
• Strain Rate 10%
• Strength Measurement 10%
• Round Jet 10%
• Hydrodynamic Effect 10%
• Simulation Runs 10%
• Novel Fiber 10%
• Draft Tube 10%
• Turbulence Kinetic Energy 10%
• Hydrodynamic Analysis 10%
• Long Glass Fiber 10%
• Fiber Impregnation 10%
• Resin Powder 10%
• Fiber-reinforced Thermoplastics 10%
• Reynolds Stress 10%
• Fiber Performs 10%
• Effective Dispersion 10%
• Dispersion Process 10%
• Confined Impinging Jets 10%

Chemical Engineering

• Fluidized Bed 100%
• Thermoplastics 100%