会议论文
1. “Flow Modelling for Natural River”.
2. “Atmospheric Dispersion Modeling on Windows Platforms”.
3. “Software for Water Quality Modeling in River and Its Application”.
4. “Software for River Self-Purification Modeling on Windows Platforms”.
5. “Investigations of Advanced Reynolds Stress Closure Models by Using Database from DNS for Modelling Turbulent Flow”.
6. “Numerical Comparison of Second-Moment Closure Modelling with DNS for Neal-Wall Sub-Layer of Turbulence”.
7. “Blockage Coefficients, Water-Depth Correction Coefficients and Their Applications”.
8. “Hydrodynamic Analyses and Retention Time Estimation of A Polluted Lagoon”.
9. “Application of Turbulence Two-Equation Model to Depth-Averaged Simulation and Prediction of Tidal Current, Temperature, COD and BOD Distributions”.
10. “Flow Configuration Prediction and Analysis Aiming at Restoration of Water Quality in A Reservoir”.
11. “Application of Hybrid Grid Method and Nested Method to Modelling Three-Dimensional Flows in River and Coastal Waters”.
12. “Application of Turbulence Depth-Averaged Model to Simulating and Predicting Flows and Contaminant Transports in Open Channel, River and Estuary”.
13. “Comparição e Aplicação de Modelos de Turbulência na Modelagem de Estuário”.
14. “Nested Simulation by Using 2-D FEM and 3-D FVA For Designing an Intake Structure Near Shore”.
15. “k-w Closure For Modelling Flow, Waste-Heat and Pollutant Transport in South Estuary of The Yangtze River”.
16. “Numerical Computations Applied to Flow and Pollutant Transport in Estuaries”.
17. “Multidimensional Nested Method with Different Numerical Algorithms for Simulating Tidal Currents”.
18. “Real 3-Dimensional Flow Modeling in River”.
19. “Real 3-Dimensional Simulation of Near-Field”.
20. “Utilização de Malha Híbrida para a Modelagem Tri-Dimensional do Escoamento e Transporte de Massa em Rios”.
21. “Geração de Malha de Elementos Finitos para Domínios Complexos - Aplicação na Modelagem de Um Ciclone na Costa Noroeste da Austrália”.
22. “Uso de Equacionamento Bi-dimensional Horizontal Com Integração Vertical da Turbulência Para a Modelagem do Transporte de Contaminantes”.
23. “A Specialized Mesh System for Full Three-Dimensional Simulation in Natural Waters”.
24. “A Mixed Two- and Three-Dimensional Numerical Simulation of Tidal Flow in the Hangzhou Bay”.
25. “Hybrid Grid Method of Three-Dimensional Flow Modelling in Natural Water”.
26. “Establishment, Numerical Investigation and Application of Depth-Averaged Two-Equation Turbulent Closure Model (k-w)”.
27. “Flow Simulation in A Three-Dimensional Square Enclosure with Spacers”.
28. “Numerical Simulation of Distribution of Discharged Waste Heat and Contaminants into South Estuary of Yangtze River”.
29. “Two-Dimensional Variable Water-Depth Mathematical Model for Tidal Flows and Numerical Computation for Discharges of Waste Heat and Contaminants in South Estuary of the Yang Zie River”.
30. “Horizontal 2-D Mathematical Model with Water Depth Variation in Tidal Estuaries and Numerical Investigation of Pollutant Discharge in Yang-Zie River”.
31. “Application of New Depth-Averaged Two-Equation (k-w) Turbulent Closure Model to Numerical Simulation for a River”.
32. “Development and Prospect of Turbulent Model Theory”.
33. “Numerical Simulation of Cooling Water Discharging and Mixing in River with Geomorphic Variation under Water”.
34. “Numerical Simulation for Confined Turbulence and Its Isotherm Prediction”.
35. “A New Depth-Averaged Two-Equation (k-w) Turbulence Closure Model And Its Application”.
36. “Mathematical Model and Numerical Simulation of Pollutant Discharge into Natural River”.
37. “Numerical Simulation of Turbulent Transport Process of Pollutant Discharge into Natural River by Using A New Depth-Averaged Two-Equation Model (k-w)”.
38. “Formulas for Velocity Distribution over Total Sections in Pipes and Its Application”.
39. “An Estimate of Effects of Large Scale Structure on Turbulent Transport Processes near wall”.
40. “Numerical Investigation of A New Depth-Averaged Two-Equation Turbulence Closure Model”.
41. “Orthogonal Body-Fitted Coordinate System for Abrupt Contracting Channel”.
42. “Numerical Simulation Pollutant Discharge into Natural River by Using Depth-Averaged k-ε Closure Model”.
43. “A New Depth-Averaged Two-Equation (k-w) Turbulence Closure Model”.
44. “Grid Generation of Orthogonal Body-Fitted Coordinate Systems”.
45. “Three-term Model for Illustrating Turbulent Shear Flows and Solution for Estimating The Effect of Coherent Structure on Time-Averaged Velocity Fields”.
46. “A Solution for Estimating The Effect of Coherent Structure on Turbulence Time-Averaged Velocity Fields”.
47. “Velocity Distribution over Total Sections and Energy Loss Law for Turbulent Pipe Flows”.