diff --git a/_data/docs_v7.yml b/_data/docs_v7.yml index bcf13fe6..6f4de818 100644 --- a/_data/docs_v7.yml +++ b/_data/docs_v7.yml @@ -40,6 +40,7 @@ - Physical-Definition - Markers-and-BC - Convective-Schemes + - Slope-Limiters-and-Shock-Resolution - Custom-Output - Linear-Solvers-and-Preconditioners - Multizone diff --git a/_data/tutorials.yml b/_data/tutorials.yml index d0968b56..c421b760 100644 --- a/_data/tutorials.yml +++ b/_data/tutorials.yml @@ -12,6 +12,7 @@ - Laminar_Cylinder - Turbulent_Flat_Plate - Transitional_Flat_Plate + - Transitional_Flat_Plate_T3A - Turbulent_ONERAM6 - Unsteady_NACA0012 - UQ_NACA0012 diff --git a/_data/vandv.yml b/_data/vandv.yml index 824a67e3..08037da4 100644 --- a/_data/vandv.yml +++ b/_data/vandv.yml @@ -10,3 +10,4 @@ - Bump_Channel - 30p30n - swbli + - LM_transition diff --git a/_docs_v7/Physical-Definition.md b/_docs_v7/Physical-Definition.md index 7ef7520b..1705b84a 100644 --- a/_docs_v7/Physical-Definition.md +++ b/_docs_v7/Physical-Definition.md @@ -21,6 +21,7 @@ SU2 offers different ways of setting and computing this definition. This documen - [Turbulence Models](#turbulence-models) - [Spalart-Allmaras (SA)](#spalart-allmaras-model) - [Shear Stress Transport (SST)](#shear-stress-transport) +- [Transition Models](#transition-models) --- diff --git a/_tutorials/compressible_flow/Transitional_Flat_Plate/Transitional_Flat_Plate_T3A_and_T3A-.md b/_tutorials/compressible_flow/Transitional_Flat_Plate_T3A/Transitional_Flat_Plate_T3A.md similarity index 98% rename from _tutorials/compressible_flow/Transitional_Flat_Plate/Transitional_Flat_Plate_T3A_and_T3A-.md rename to _tutorials/compressible_flow/Transitional_Flat_Plate_T3A/Transitional_Flat_Plate_T3A.md index 9c75649d..2705cb32 100644 --- a/_tutorials/compressible_flow/Transitional_Flat_Plate/Transitional_Flat_Plate_T3A_and_T3A-.md +++ b/_tutorials/compressible_flow/Transitional_Flat_Plate_T3A/Transitional_Flat_Plate_T3A.md @@ -1,11 +1,8 @@ --- title: Transitional Flat Plate for T3A and T3A- -permalink: /tutorials/Transitional_Flat_Plate/ +permalink: /tutorials/Transitional_Flat_Plate_T3A/ written_by: Sunoh Kang -for_version: 7.4.0 -revised_by: - -revision_date: - -revised_version: - +for_version: 7.5.0 solver: RANS requires: SU2_CFD complexity: basic diff --git a/_tutorials/index.md b/_tutorials/index.md index 63d6c521..55e4c60b 100644 --- a/_tutorials/index.md +++ b/_tutorials/index.md @@ -40,7 +40,7 @@ Simulation of external, laminar flow around a 2D cylinder. Simulation of external, turbulent flow over a flat plate (classical RANS validation). * [Transitional Flat Plate(BC transition model)](/tutorials/Transitional_Flat_Plate/) Simulation of external, transitional flow over a flat plate (transitional latminar-turbulent case). -* [Transitional Flat Plate(LM transition model)](/tutorials/Transitional_Flat_Plate/) +* [Transitional Flat Plate(LM transition model)](/tutorials/Transitional_Flat_Plate_T3A/) Simulation of external, transitional flow over a flat plate(T3A & T3A-) (transitional latminar-turbulent case). * [Turbulent ONERAM6](/tutorials/Turbulent_ONERAM6/) Simulation of external, viscous flow around a 3D geometry (isolated wing) using a turbulence model. diff --git a/_tutorials/multiphysics/steady_cht/Static_CHT.md b/_tutorials/multiphysics/steady_cht/Static_CHT.md index 6ae3e4f3..0d8712fa 100644 --- a/_tutorials/multiphysics/steady_cht/Static_CHT.md +++ b/_tutorials/multiphysics/steady_cht/Static_CHT.md @@ -69,8 +69,7 @@ Uniform velocity boundary conditions are used for the farfield. ### Configuration File Options -Several of the key configuration file options for this simulation are highlighted here. First we show how we start a multiphysics simulation run incorporating CHT by choosing the following options in a main config file [cht_2d_3cylinders.cfg](https://github.com/su2code/Tutorials/tree/master/multiphysics/steady_cht/cht_2d_3cylinders.cfg) (see [https://su2code.github.io/docs/Multizone](https://su2code.github.io/docs/Multizone) how to setup a multiphysics simulation in general): - +Several of the key configuration file options for this simulation are highlighted here. First we show how we start a multiphysics simulation run incorporating CHT by choosing the following options in a main config file [cht_2d_3cylinders.cfg](https://github.com/su2code/Tutorials/tree/master/multiphysics/steady_cht/cht_2d_3cylinders.cfg) (see [https://su2code.github.io/docs_v7/Multizone](https://su2code.github.io/docs_v7/Multizone) how to setup a multiphysics simulation in general): ``` MARKER_ZONE_INTERFACE= (cylinder_outer1, cylinder_inner1, cylinder_outer2, cylinder_inner2, cylinder_outer3, cylinder_inner3) % @@ -246,4 +245,4 @@ magnitude | heatflux value | FD derivative | rel. error (%) 1.0e-3 | -31.89682435269217 | 0.387001813 | 0.0906675 1.0e-4 | -31.89717268560501 | 0.386688997 | 0.0097636 1.0e-5 | -31.89720748792119 | 0.38665835 | 0.0018381 -1.0e-6 | -31.89721096784924 | 0.38665548 | 0.001095 \ No newline at end of file +1.0e-6 | -31.89721096784924 | 0.38665548 | 0.001095