While I'm sure there is a point where waterflow will be too fast for bacteria to properly nitrify ammonia, there is nothing to prove that we are even close to reaching those flow rates in out home or commercial set ups. It is not uncommon for large tanks and pond set ups to run return pumps pushing thousands of gallons per hour, and all the while maintaining proper water parameters. This clearly shows that even at these high flow rates, the bacteria is still able to work efficiently and uninterrupted.
A higher turnover rate in your sump allows for better circulation and ultimately, better mechanic call filtration by allowing particles in the tank to be suspended long enough to be picked up by the overflow. While 5x turnover is surely enough to maintain water parameters, there are definite gains to using a higher flow rate on your return.
I had a small project tank that ran well over 50x turnover/hr and maintained perfect water parameters. While this is an extreme example, and not something that is generally practiced, it does show that even at higher turnover rates, nitrification is achieved just the same.
For marine tanks, 10x turnover/hr is generally recognized as the standard.
A higher turnover rate in your sump allows for better circulation and ultimately, better mechanic call filtration by allowing particles in the tank to be suspended long enough to be picked up by the overflow. While 5x turnover is surely enough to maintain water parameters, there are definite gains to using a higher flow rate on your return.
I had a small project tank that ran well over 50x turnover/hr and maintained perfect water parameters. While this is an extreme example, and not something that is generally practiced, it does show that even at higher turnover rates, nitrification is achieved just the same.
For marine tanks, 10x turnover/hr is generally recognized as the standard.
but how do i stop sand from gettn in the fx5?
mine is about half way down on the 400g, no sand in the canister 
