adding correct folder to tutorial information

Author: talbring

_tutorials/compressible_flow/Inviscid_Bump.md

@@ -27,7 +27,7 @@ The intent of this tutorial is to introduce a simple, inviscid flow problem and
 
 ## Resources
 
-You can find the resources for this tutorial in the folder [Inviscid_Bump](https://github.com/su2code/Tutorials/blob/master/compressible_flow/Inviscid_Bump/) in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the mesh file [mesh_channel_256x128.su2](https://github.com/su2code/Tutorials/blob/master/compressible_flow/Inviscid_Bump/mesh_channel_256x128.su2)
+You can find the resources for this tutorial in the folder [compressible_flow/Inviscid_Bump](https://github.com/su2code/Tutorials/blob/master/compressible_flow/Inviscid_Bump/) in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the mesh file [mesh_channel_256x128.su2](https://github.com/su2code/Tutorials/blob/master/compressible_flow/Inviscid_Bump/mesh_channel_256x128.su2)
 and the config file [inv_channel.cfg](https://github.com/su2code/Tutorials/blob/master/compressible_flow/Inviscid_Bump/inv_channel.cfg).
 
 ## Tutorial

_tutorials/compressible_flow/Inviscid_ONERAM6.md

@@ -29,7 +29,7 @@ We will also discuss the details for setting up 3D flow conditions and some of t
 
 ## Resources
 
-The resources for this tutorial can be found in the [Inviscid_ONERAM6](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_ONERAM6) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([inv_ONERAM6.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_ONERAM6/inv_ONERAM6.cfg)) and the mesh file ([mesh_ONERAM6_inv_ffd.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_ONERAM6/mesh_ONERAM6_inv_ffd.su2)).
+The resources for this tutorial can be found in the [compressible_flow/Inviscid_ONERAM6](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_ONERAM6) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([inv_ONERAM6.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_ONERAM6/inv_ONERAM6.cfg)) and the mesh file ([mesh_ONERAM6_inv_ffd.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_ONERAM6/mesh_ONERAM6_inv_ffd.su2)).
 
 ## Tutorial
 

_tutorials/compressible_flow/Inviscid_Wedge.md

@@ -27,7 +27,7 @@ The intent of this tutorial is to introduce a simple, inviscid flow problem that
 
 ## Resources
 
-The resources for this tutorial can be found in the [Inviscid_Wedge](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_Wedge) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([inv_wedge_HLLC.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_Wedge/inv_wedge_HLLC.cfg)) and the mesh file ([mesh_wedge_inv.cgns](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_Wedge/mesh_wedge_inv.cgns)).
+The resources for this tutorial can be found in the [compressible_flow/Inviscid_Wedge](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_Wedge) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([inv_wedge_HLLC.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_Wedge/inv_wedge_HLLC.cfg)) and the mesh file ([mesh_wedge_inv.cgns](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Inviscid_Wedge/mesh_wedge_inv.cgns)).
 
 ## Tutorial
 

_tutorials/compressible_flow/Laminar_Cylinder.md

@@ -28,7 +28,7 @@ In this tutorial, we discuss some numerical method options, including how to act
 
 ## Resources
 
-The resources for this tutorial can be found in the [Laminar_Cylinder](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Cylinder) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([lam_cylinder.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Cylinder/lam_cylinder.cfg)) and the mesh file ([mesh_cylinder_lam.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Cylinder/mesh_cylinder_lam.su2)).
+The resources for this tutorial can be found in the [compressible_flow/Laminar_Cylinder](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Cylinder) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([lam_cylinder.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Cylinder/lam_cylinder.cfg)) and the mesh file ([mesh_cylinder_lam.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Cylinder/mesh_cylinder_lam.su2)).
 
 Experimental results for drag over a cylinder at low Reynolds numbers are reported in the following article:
 D. J. Tritton, "Experiments on the flow past a circular cylinder at low Reynolds numbers," Journal of Fluid Mechanics, Vol. 6, No. 4, pp. 547-567, 1959. Note that the mesh used for this tutorial is rather coarse, and for comparison of the results with literature, finer meshes should be used.

_tutorials/compressible_flow/Laminar_Flat_Plate.md

@@ -30,7 +30,7 @@ The intent of this tutorial is to introduce a common viscous test case which is
 
 ## Resources
 
-The resources for this tutorial can be found in the [Laminar_Flat_Plate](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Flat_Plate) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([lam_flatplate.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Flat_Plate/lam_flatplate.cfg)) and the mesh file ([mesh_flatplate_65x65.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Flat_Plate/mesh_flatplate_65x65.su2)).
+The resources for this tutorial can be found in the [compressible_flow/Laminar_Flat_Plate](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Flat_Plate) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([lam_flatplate.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Flat_Plate/lam_flatplate.cfg)) and the mesh file ([mesh_flatplate_65x65.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Laminar_Flat_Plate/mesh_flatplate_65x65.su2)).
 
 
 ## Tutorial

_tutorials/compressible_flow/NICFD_nozzle.md

@@ -30,7 +30,7 @@ The intent of this tutorial is to introduce a simple, compressible flow problem
 
 ## Resources
 
-You can find the resources for this tutorial in the folder [NICFD_nozzle](https://github.com/su2code/Tutorials/tree/master/compressible_flow/NICFD_nozzle) in the [tutorial repository](https://github.com/su2code/Tutorials).
+You can find the resources for this tutorial in the folder [compressible_flow/NICFD_nozzle](https://github.com/su2code/Tutorials/tree/master/compressible_flow/NICFD_nozzle) in the [tutorial repository](https://github.com/su2code/Tutorials).
 You will need the mesh files [NICFD_nozzle.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/NICFD_nozzle/NICFD_nozzle.su2) and the config file [NICFD_nozzle.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/NICFD_nozzle/NICFD_nozzle.cfg).
 
 In the *Results* section of this tutorial, SU2 results are compared to the experimental data reported by Spinelli A., Cammi G., Gallarini S., Zocca M., Cozzi F., Gaetani P., Dossena V., Guardone A. *Experimental evidence of non ideal compressible effects in expanding flow of a high molecular complexity vapor*, Experiments in Fluids (2018) 59:126. You can find the experimental data for this test case in the tutorial directory, file [experimental_data.dat](https://github.com/su2code/Tutorials/tree/master/compressible_flow/NICFD_nozzle/experimental_data.dat), or access the full experimental database documented by Spinelli *et al.* at the [paper url](https://doi.org/10.1007/s00348-018-2578-0).

_tutorials/compressible_flow/Transitional_Flat_Plate.md

@@ -27,7 +27,7 @@ Upon completing this tutorial, the user will be familiar with performing an exte
 
 ## Resources
 
-The resources for this tutorial can be found in the [Transitional_Flat_Plate](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Transitional_Flat_Plate) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([transitional_BC_model_ConfigFile.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Transitional_Flat_Plate/transitional_BC_model_ConfigFile.cfg)) and the mesh file ([grid.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Transitional_Flat_Plate/grid.su2)).
+The resources for this tutorial can be found in the [compressible_flow/Transitional_Flat_Plate](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Transitional_Flat_Plate) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([transitional_BC_model_ConfigFile.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Transitional_Flat_Plate/transitional_BC_model_ConfigFile.cfg)) and the mesh file ([grid.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Transitional_Flat_Plate/grid.su2)).
 Additionally, experimental skin friction data corresponding to this test case is provided in the TestCases repository (All_ZeroPresGrad_FlatPlateExperiments.dat).
 
 ## Tutorial

_tutorials/compressible_flow/Turbulent_Flat_Plate.md

@@ -28,7 +28,7 @@ In this tutorial, we perform our first RANS simulation with the Spalart-Allmaras
 
 ## Resources
 
-The resources for this tutorial can be found in the [Turbulent_Flat_Plate](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate) directory in the [tutorial website repository](https://github.com/su2code/Tutorials). You will need the configuration file ([turb_SA_flatplate.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate/turb_SA_flatplate.cfg)) and either of the two available mesh files ([mesh_flatplate_turb_137x97.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate/mesh_flatplate_turb_137x97.su2) or [mesh_flatplate_turb_545x385.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate/mesh_flatplate_turb_545x385.su2)). 
+The resources for this tutorial can be found in the [compressible_flow/Turbulent_Flat_Plate](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate) directory in the [tutorial website repository](https://github.com/su2code/Tutorials). You will need the configuration file ([turb_SA_flatplate.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate/turb_SA_flatplate.cfg)) and either of the two available mesh files ([mesh_flatplate_turb_137x97.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate/mesh_flatplate_turb_137x97.su2) or [mesh_flatplate_turb_545x385.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_Flat_Plate/mesh_flatplate_turb_545x385.su2)). 
 
 Additionally, skin friction and velocity profiles corresponding to this testcase (obtained from the Langley Research Center Turbulence Modeling Resource website shown below) are used for later comparison with SU2 results. These files can be found on the following website: http://turbmodels.larc.nasa.gov/flatplate.html.
 

_tutorials/compressible_flow/Turbulent_ONERAM6.md

@@ -30,7 +30,7 @@ This tutorial also provides an explanation for properly setting up viscous, comp
 
 ## Resources
 
-The resources for this tutorial can be found in the [Turbulent_ONERAM6](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_ONERAM6) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([turb_ONERAM6.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_ONERAM6/turb_ONERAM6.cfg)) and the mesh file ([mesh_ONERAM6_turb_hexa_43008.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_ONERAM6/mesh_ONERAM6_turb_hexa_43008.su2)). *It is important to note that the grid used in this tutorial is very coarse to keep computational effort low, and for comparison with literature, finer meshes should be used.*
+The resources for this tutorial can be found in the [compressible_flow/Turbulent_ONERAM6](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_ONERAM6) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([turb_ONERAM6.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_ONERAM6/turb_ONERAM6.cfg)) and the mesh file ([mesh_ONERAM6_turb_hexa_43008.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow/Turbulent_ONERAM6/mesh_ONERAM6_turb_hexa_43008.su2)). *It is important to note that the grid used in this tutorial is very coarse to keep computational effort low, and for comparison with literature, finer meshes should be used.*
 
 ## Tutorial
 

_tutorials/compressible_flow/UQ_NACA0012.md

@@ -25,7 +25,7 @@ This tutorial covers the EQUiPS (Enabling Quantification of Uncertainty in Physi
 
 ## Resources
 
-The resources for this tutorial can be found in the [UQ_NACA0012](https://github.com/su2code/Tutorials/tree/master/compressible_flow/UQ_NACA0012) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([turb_NACA0012_uq.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/UQ_NACA0012/turb_NACA0012_uq.cfg)) and the mesh file ([mesh_n0012_225-65.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow//UQ_NACA0012/mesh_n0012_225-65.su2)). Note that this tutorial directory contains 5 other configuration files as well. These are for running the perturbations manually and details for that will be covered in the Running Individual Perturbations section.
+The resources for this tutorial can be found in the [compressible_flow/UQ_NACA0012](https://github.com/su2code/Tutorials/tree/master/compressible_flow/UQ_NACA0012) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([turb_NACA0012_uq.cfg](https://github.com/su2code/Tutorials/tree/master/compressible_flow/UQ_NACA0012/turb_NACA0012_uq.cfg)) and the mesh file ([mesh_n0012_225-65.su2](https://github.com/su2code/Tutorials/tree/master/compressible_flow//UQ_NACA0012/mesh_n0012_225-65.su2)). Note that this tutorial directory contains 5 other configuration files as well. These are for running the perturbations manually and details for that will be covered in the Running Individual Perturbations section.
 
 Details about the methodology and implementation in SU2 is available as a [pre-print](https://arxiv.org/pdf/1803.00725.pdf)