I ran it with a 2' gutter and got a smaller spread but it did not line up with HY-22. If you verified the results from HY-22 I must have something input wrong or the calculator is wrong. I have had someone else verify my inputs and we think they are the same with different results. I am beginning to think that the SSA calculator might be broken. 

Ok. Yes, I don't use SSA. Never been comfortable with the results and bugs

In HY-22, the depth-ave is at the center of the grate, which is on the edge of gutter..

No, it's at the center of grate.

This grate capacity calculation involves weir/orifice control analysis using an avg depth across the entire grate. You can not take that avg depth out to the edge of grate to compute spread.

FHWA Toolbox also incorrectly computes spread for sag curb inlets, because they incorrectly use the weir flow projected depth, and take that out to the gutter to compute spread.

Test this sag curb inlet:

10 cfs

10 ft length

Sx = 0.02

Sw = 0.083

Local Depression = 3"

Fred -

You are correct - depth_average is at the center of the grate.  But I must protest taking me out of context -  the center of the grate is 1 foot from the edge of the curb as the grate is 2 feet wide and the gutter is the gutter is 1 foot wide.

Geometrically - something doesn't add up and hence HY-22 doesn't compute correctly.

I think you misinterpret HEC22 for sag inlets as you contradict 4.4.3.2 by saying the smaller orifice condition depth is controlling in this situation. 

No, I never said this was in orifice control... this scenario is under weir control.

My last example was simply lowering the grate 1" below the gutter at the flowline.

This example use the definition of local depression as "a" to compute the grate cross slope.

What do you get for spread if you use 2' for gutter width in HY22?

Fred -

Ah, now I see the issue.  

You resolve spread by recomputing the geometry of the grate as if the grate slope controlled the weir flow.

However, per FHWA, the depth is computed at the edge of the depression (it's weir flow) and hence any gutter flare to accommodate the wider inlet and local depression is meaningless to the inlet during weir flow. 

The spread that the Toolbox uses is the simple geometry of Sw, Sx, and Gutter Width.

However, per FHWA, the depth is computed at the edge of the depression (it's weir flow)..

No, the FHWA doesn't say that, and the depth used is the average depth over the grate and the effective weir length (see the figure next to my calculations).

I am computing depths and water surface elevations to calculate spread. I am also getting the same d_ave and d_curb as his HY22 example.

The spread that the Toolbox uses is the simple geometry of Sw, Sx, and Gutter Width...

Interestingly, I'm finding the Toolbox is also unresponsive to changes in the local depression value, so it's not behaving properly.

Ie, when I doubted and sought clarification of the Hydraulic Toolbox, I emailed FHWA.   The response I received was what I indicated.

The local depression has no bearing on spread in sag because the measurement is before the depression where the spread is the greatest.  

The local depression has no bearing on spread in sag because the measurement is before the depression where the spread is the greatest...

Well, that's not correct. Changes in the local depression affect the resultant depth and water surface elevation.

Fred -

Funny - look at the location of A-A in the plan view.  It shows the upstream of the local depression.

The one element that you are missing is the manual calculations are you are ignoring the compound gutter/road section.  The slope of the gutter depression vs. the inlet depression.  a is the inlet depression in the solution you calculated and you've lumped the gutter depression into a.

No, i'm just using "d" and the gutter pan lip as a datum to compute the WSEL , then computing spread. 

Talking to other software developers they say they see a lot of confusion as to what "d" is. So, it helps to see better if you use the datum technique I show here and compute a WSEL.

The difference is the gutter geometry. 

100 less 0.02*2 ft = 99.96    [2 foot gutter ignoring the compound gutters slope]

100 less 2 ft *.083 = 99.83  [2 foot gutter at compound shape]

At depth of 0.47 - the resulting WSEL becomes different and hence spread is different.

Does it make sense that a compound gutter section upstream of an inlet carries the same spread as one with uniform road Sx?