Check out the Naval Facilities Engineering command "Soil Mechanics" Design Manual 7.01, pg 7.1-139, permeability of sands and gravel mixtures, freely available as a pdf file download at
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The printed manual is also availabe from NTIS (national technical information service)for around $75.
A few caveats.
1) I use the following equation to determine inflow - Q=K*G*A,
Q is the inflow, K is the permeability (provided by the chart), G is the hydraulic gradient or the head divided by the flow length and A is the average (or minimum) cross sectional area of the flow. You may need to calculate this for various heights. I usually use about 5 increments for a 6"-1' total drawdown. (When I am flowing to a pipe, I use the average pipe center line as the base elevation)
2) You should also check the perforated pipe inflow capacity based upon a orifice equation for the total pipe openings' area (if a pipe is involved in the franch drain - also you may want to verify the minimum flow velocity for the pipe) -
Q = C*A*(2gH)^.5
Q is the flow, C is the orifice constant (assumed to be 0.62, unless manufacturer data is availabe), g is 9.81 m/s^2 or 32.2 ft/s^2 and H is the head.
3) If fabric is involved, check to make sure that it is not the critical restriction in your flow, use the permeability supplied by the manufacturer.
