These are sediment basins for cattle feed yards. This one happens to be an existing basin. However, there could be some new basins designed in the future. New basins aren't really a problem, because we can design them at the required size. However for an existing basin, the only thing we can do to keep it from overtopping during the design storm is change the culvert size. However, I don,t want the culvert so large that the runoff isn't slowed down enough to settle out the solids. It's cheaper to clean a sediment basin than it is to clean a primary lagoon. We have to design off the 25 yr 24 hr rainfall event for the given Kansas county we are working in. The sed basin has to provide at least 30 minutes of detention. More detention time is allowed, as long as the basin is dry within 24 hours. We used to install concrete overflows large enough to control the peak discharge. Consequently, smaller rains wouldn't make it to the lagoon. Now, the state doesn't want water standing in the sed basins unless we install a clay liner and prevent seepage in excess of .25 inches per day. Furthermore, if the client qulified for equip, the NRCS requires no water stand in the sediment basin for longer than 24 hours. This is the case for my current client. I suppose we could install the concrete overflow for the larger storms and put in a perforated riser to control the smaller rains.
Example:
Existing sediment basin volume is 142,000 cuft, and peak discharge is calculated at 349 cfs. Is there an equation to calculate the required discharge to provide a minimum 30 minutes detention time without the basin overtopping?
