CFD Online Discussion Forums - Diffuser Boundary Conditions

Dear all,
I am a mechanical engineering student attempting to obtain a very basic understanding of CFD. In my class we have a project that asks us to analyze an annular diffuser for separation along the wall. My issue is how to set up the boundary conditions specifically at the outlet. Hopefully the following will "paint the picture" well enough for some advice.

Using fluent for the solver
Axisymmetric
Pressure based due to low Mach number
Transient
k-epsilon turbulent model
working fluid of air

My current boundary conditions are as follows

Inlet --> velocity inlet, only thing I changed was the velocity, set to 0.1 m/s
Axis--> Axis, axis which geometry revolves around
Wall--> outer wall diffuser (sloped wall)

Outlet--> Currently set to pressure outlet with a gauge pressure of 0pa,
I have tried an outflow as well, with no change in my solution. It is my understanding that I need to apply a down stream reservoir of sort to allow the diffuser out to expand into a volume. I attempted to do this, with no change in my solution. Could someone please explain as to how to properly apply this outlet reservoir?

No matter which way I seem to set my configurations I cannot get a solution that will converge. Specifically the k and epsilon residuals. All residuals are set to 1E-5, using the second order upwind.

If it helps I am using ansys workbench for modeling and mesh generation. I have refined my

If someone could please just explain the use of an applicable outlet condition for a problem of this nature or in general I would be grateful. I am in no way asking someone to do my homework, just looking for a push in the right direction. I have spent so many hours on this with little to no progress.

Thank you,
CFDWTB