Diana wrote:While an engineer might find a difference in the flow (single line vs cross-connected) I think the difference would be minor, and more than made up for in the back up/redundancy factor: If one sponge tends to get clogged faster than the others, then the cross-connections will still permit all the powerheads to get the water they need.
Folks:
I hope that yall will find to following discourse interesting.
The "high end" filtration systems for the nicer golf courses (which due to cost typically use raw water and not potable water) are designed virtually identical to the "manifolding discussed in the thread" and for many of the same reasons.
The raw water transfer pumps are manifolded into a header;
the header discharges into many sand filters which are placed "in parallel";
this sand filters discharge into a 2nd header;
the 2nd header discharges into the center of several cylinders which contain very fine wire mesh cylinders;
the flow from the cylinders is discharged at the cylindrical walls and this discharge flows into a sump;
the high head pumps (which cause the irrigation heads to function) are manifolded on the intake side as well as the discharge side.
For an 18 hole course there are typically 3 transfer pumps and 3 high head discharge pumps. When the course is being irrigated 2 of each of two types of pumps will be active with the third idle with the pumps being rotated each time the irrigation starts anew.
Four Additional Items
One
All of this filtering, manifolding, etc may seem like overkill.
The construction cost of a typical nice 18 hole golf course is in the $4M range of which very roughly 40% is due to the installation of the irrigation system and turf.
Even very fine particulate material will eventually "silt up" the irrigation heads. The silt is "hardened" when the head is noted to have it's capacity reduced, cleaning the head is not possible and a new head must be installed.
Other deleterious materials can cause even much faster problems and I will use snails for an example as I am intimately familiar here.
These "little devils" are virtually invisible to the naked eye but after only a few weeks of not "being filtered out" they will be on the walls of the transmission mains, clogging up the small pipes which transfer the water to the irrigation heads and have clogged up many irrigation heads.
(Please do not ask how these "little devils" can live and affix themselves to the walls of a pipe in which the velocity is in excess of 5 feet/second as I do not have a clue.)
Two
Typically a small chemical pump discharges minor amounts of chlorine into the sump for disinfection and chemical filtration.
The chlorine concentration and detention time in the sump is small (ie. the water which irrigates the golf course is not potable).
Three
Believe it or not the effluent from a domestic waste water treatment plant which employs tertiary treatment* is of much better water quality than typical raw water quality.
The pumping, manifolding and filtration processes are not reduced.
The sump is greatly enlarged (and/or for those yall who live where it actually rains every now and then a lined pond is constructed) and the chlorine pump is no longer small. "The theory here" is discharge water on the golf course which is near potable via the addition of more chlorine as well as a longer chlorine contact time prior to the discharge pumps.
Four
The golf course filtration systems include one item which I have not "figured out" how to implement in an aquarium environment and that is filter back flushing.
This flushing is accomplished via a high head pump the inflow of which is the from the sump and outflow of which is to the header into which the micron screens discharge.
I hope that "I have not put everyone to sleep here" but as I indicated earlier I thought that some folks might be interested in this discourse.
TR
) so these are just observations. Good luck!
Resistance is futile. You will be assimilated.
