Lp Theory For Incompressible Newtonian Flows

Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains (repost)

Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains by Matthias Köhne
English | 2013 | ISBN: 3658010517 | PDF | 194 pages | 1,1 MB

This thesis is devoted to the study of the basic equations of fluid dynamics. First Matthias Köhne focuses on the derivation of a class of boundary conditions, which is based on energy estimates, and, thus, leads to physically relevant conditions.
Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains (repost)

Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains by Matthias Köhne
English | 2013 | ISBN: 3658010517 | PDF | 194 pages | 1,1 MB

This thesis is devoted to the study of the basic equations of fluid dynamics. First Matthias Köhne focuses on the derivation of a class of boundary conditions, which is based on energy estimates, and, thus, leads to physically relevant conditions.
Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains [Repost]

Matthias Köhne - Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains
Published: 2012-12-06 | ISBN: 3658010517 | PDF | 196 pages | 3 MB
Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains (repost)

Matthias Köhne, "Lp-Theory for Incompressible Newtonian Flows: Energy Preserving Boundary Conditions, Weakly Singular Domains"
2013 | ISBN: 3658010517 | PDF | 194 pages | 3,5 MB

Computational Fluid Dynamics: Incompressible Turbulent Flows  eBooks & eLearning

Posted by roxul at Nov. 28, 2016
Computational Fluid Dynamics: Incompressible Turbulent Flows

Takeo Kajishima, "Computational Fluid Dynamics: Incompressible Turbulent Flows"
English | ISBN: 3319453025 | 2016 | 358 pages | PDF | 7 MB

Computational Fluid Dynamics: Incompressible Turbulent Flows  eBooks & eLearning

Posted by roxul at Nov. 7, 2016
Computational Fluid Dynamics: Incompressible Turbulent Flows

Takeo Kajishima and Kunihiko Taira, "Computational Fluid Dynamics: Incompressible Turbulent Flows"
English | ISBN: 3319453025 | 2016 | 358 pages | PDF | 7 MB

Finite Element Methods for Incompressible Flow Problems (Repost)  eBooks & eLearning

Posted by nebulae at Jan. 9, 2017
Finite Element Methods for Incompressible Flow Problems (Repost)

John Volker, "Finite Element Methods for Incompressible Flow Problems"
2016 | ISBN-10: 3319457497 | 812 pages | PDF | 17 MB

Finite Element Methods for Incompressible Flow Problems (repost)  eBooks & eLearning

Posted by arundhati at Nov. 23, 2016
Finite Element Methods for Incompressible Flow Problems (repost)

John Volker, "Finite Element Methods for Incompressible Flow Problems"
2016 | ISBN-10: 3319457497 | 812 pages | PDF | 17 MB

Finite Element Methods for Incompressible Flow Problems  eBooks & eLearning

Posted by Underaglassmoon at Oct. 31, 2016
Finite Element Methods for Incompressible Flow Problems

Finite Element Methods for Incompressible Flow Problems
Springer | Mathematics | November 18, 2016 | ISBN-10: 3319457497 | 812 pages | pdf | 17.1 mb

Authors: John, Volker
Uniform presentation of finite element methods for incompressible flow problems
Covers stationary and time-dependent problems
Emphasis on numerical analysis
Overview of analytical results for turbulence models
Step-by-step presentation of proofs for facilitating the understanding
High-Resolution Methods for Incompressible and Low-Speed Flows (Computational Fluid and Solid Mechanics) (Repost)

High-Resolution Methods for Incompressible and Low-Speed Flows (Computational Fluid and Solid Mechanics) by D. Drikakis
English | 2004 | ISBN: 3540221360 | 642 Pages | PDF | 11 MB

This book covers the basic techniques for simulating incompressible and low-speed flows with high fidelity in conjunction with high-resolution methods.