Influence of fin size and distribution on solid-liquid phase change in a rectangular enclosure

Keyphrases

• Rectangular Enclosure 100%
• Solid-liquid Phase Change 100%
• Fin Distribution 100%
• Fin Width 100%
• Front Plate 100%
• Natural Convection 50%
• Simulated Case 50%
• Hot Plate 50%
• Sensible Heat 50%
• Stabilization Time 50%
• Plate Temperature 50%
• Heat Transfer Rate 50%
• Fin number 50%
• High Ratio 25%
• Energy Storage 25%
• Heat Flux 25%
• Latent Heat Storage 25%
• Viscosity 25%
• Phase Change 25%
• Energy Storage Devices 25%
• Forcing Term 25%
• Efficiency Evaluation 25%
• Temperature Stabilization 25%
• Stabilization Temperature 25%
• Assessment Parameters 25%
• Transfer Heat 25%
• High Heat Flux 25%
• Backing Plate 25%
• Sensible Storage 25%
• Phase Change Heat Transfer 25%
• Heat Diffusion Equation 25%
• Buoyancy Force 25%
• Equivalent Heat Capacity 25%
• Latent Storage 25%
• Momentum Conservation Equation 25%
• Additional Volume 25%
• Temperature Decrease 25%
• Volume Force 25%
• Navier-Stokes 25%
• Heat Transfer 25%
• Temperature Standard Deviation 25%
• Capacity Method 25%
• Fin Length 25%
• Heated Plate 25%
• Fin Spacing 25%
• Heat Storage Performance 25%
• Constant Heat Flux 25%
• Marginal Impact 25%

Engineering

• Heat Flux 100%
• Natural Convection 100%
• Sensible Heat 100%
• Rectangular Enclosure 100%
• Heat Transfer Rate 100%
• Liquid Phase Change 100%
• Hot Plate 100%
• Energy Engineering 50%
• Stored Energy 50%
• Latent Heat Storage 50%
• Numerical Study 50%
• Buoyancy Force 50%
• Function of Time 50%
• Momentum Conservation 50%
• Constant Heat Flux 50%
• Equivalent Heat Capacity Method 50%
• Fluid Viscosity 50%
• Backplate 50%
• Marginals 50%
• Conservation Equation 50%
• Heat Diffusion Equation 50%

Chemical Engineering

• Heat Flux 100%
• Natural Convection 66%
• Latent Heat 33%
• Specific Heat 33%