Prediction of tsunami propagation in the pearl river estuary

Keyphrases

• Pearl River Estuary 100%
• Tsunami Propagation 100%
• Conservation Equations 66%
• Shallow Water 66%
• Wave Action 66%
• Water Area 66%
• Bottom Roughness 66%
• Complex Coastline 66%
• Highly Nonlinear 33%
• Operator Splitting Method 33%
• Water Depth 33%
• Wave number 33%
• Energy Dissipation 33%
• South China Sea 33%
• Iterative Methods 33%
• Finite Element Approach 33%
• Implicit Finite Element Method 33%
• Numerical Stability 33%
• Discretized 33%
• Implicit Finite Difference Method 33%
• Eulerian-Lagrangian Method 33%
• Wave Transformation 33%
• Node Elements 33%
• Model Validation 33%
• Estuary Area 33%
• Mild-slope Equation 33%
• Computing Resources 33%
• Wave Refraction-diffraction 33%
• Wave Direction 33%
• Nonlinear Problems 33%
• Nonlinear Wave Propagation 33%
• Tsunami 33%
• Nearshore Zone 33%
• Result Verification 33%
• Time Iteration 33%
• Propagation Prediction 33%
• Validity Verification 33%
• Coastline Configuration 33%
• Sea Bottom 33%
• Advection Term 33%

Engineering

• Conservation Equation 100%
• Finite Element Analysis 100%
• Energy Dissipation 50%
• Nonlinear Problem 50%
• Lagrangian Method 50%
• Node Element 50%
• Wave Number 50%
• Slope Equation 50%
• Advection Term 50%
• Sea Bottom 50%
• Relative Roughness 50%
• Numerical Stability 50%
• Boundary Condition 50%
• Finite Difference Method 50%

Earth and Planetary Sciences

• Shallow Water 100%
• Conservation Equation 100%
• Water Depth 50%
• Model Validation 50%
• Advection 50%
• Numerical Stability 50%
• Wave Direction 50%
• Finite Difference Method 50%
• Nonlinear Wave 50%
• China 50%
• Boundary Condition 50%
• Energy Dissipation 50%