Numerical simulation of the influence factors for rotary kiln in temperature field and stress field and the structure optimization

INIS

• kilns 100%
• thickness 23%
• walls 11%
• equipment 11%
• energy consumption 11%
• surfaces 7%
• values 7%
• computerized simulation 7%
• thermal stresses 7%
• length 7%
• production 7%
• wheels 7%
• data 3%
• industry 3%
• processing 3%
• finite element method 3%
• simulation 3%
• design 3%
• cost 3%
• layers 3%
• variations 3%
• heat transfer 3%
• energy 3%
• air pollution abatement 3%
• furnaces 3%
• working conditions 3%
• cylinders 3%
• speed 3%
• optimization 3%
• performance 3%
• curves 3%
• wind 3%
• ventilation 3%
• approximations 3%
• fans 3%
• high temperature 3%
• exchange (heat) 3%

Engineering

• Kilns 61%
• Rotary Kiln 38%
• Thickness 23%
• Temperature 15%
• Computer Simulation 7%
• Maximum Stress 7%
• Temperature Field 7%
• Length Direction 7%
• Temperature Stress 7%
• Energy Engineering 7%
• Optimization 3%
• Numerical Model 3%
• Energy Conservation 3%
• Emission Reduction 3%
• Linear Relationship 3%
• Reduce Energy Consumption 3%
• Outer Surface 3%
• Heat Exchange 3%
• Temperature Curve 3%
• Metallurgical Industry 3%
• Surfaces 3%
• Production 3%
• Performance 3%
• Development 3%
• Properties 3%
• Simulation 3%
• Design 3%
• Requirements 3%
• High Temperature 3%
• Characteristics 3%
• Forwarder 3%
• Processing 3%
• Production Process 3%
• Cylinder 3%
• Furnace 3%
• Fans 3%

Physics

• Thermal Stress 15%
• Temperature 15%
• Stress Distribution 7%
• Temperature Distribution 7%
• Value 7%
• Wheels 7%
• Heat Transfer 7%
• Numerical Model 3%
• Responses 3%
• Simulation 3%
• Technology 3%
• Performance 3%
• High Temperature 3%
• Variations 3%
• Finite Element Methods 3%
• Wind Velocity 3%
• Coefficients 3%
• Element Technology 3%