The one from BJ on the 5000 gallon pond.
For those of you who have been following my blogs might remember that I managed to acquire two separate Aquadyne Filter Systems, These systems are top of the line as far as having an outdoor pond and eliminate the need to frequently wash filters. I bought one from my good friend BJ who had not installed it on her own ponds and this one, I installed on the 5000 gallon pond. I used a 3500 gph submerged pump on it but was not very happy with the amount of water it was putting out so as I just happened to have one, I added another 1200 gph pump to the system to make a combined total of 4700 gph. This was an improvement.
The one from Jim on the 6000 gallon pond.
The second system, I acquired from a Fish Rescue from an older gentleman named Jim. This one came with a 4700 gph above ground pump. I installed this setup on the 6000 gallon pond. after a few trial and errors, managed to get it up and running. This pump seemed to put out a lot more water than the combined pumps on the 5000 gallon pond. This was the first time that I have used a pump of this type (above ground) as prior to this, all of my pumps have been submerged. I was really happy with the entire set up as it moved a lot of water through the system.
Sea Horse (new)
Unfortunately, the pump went bad as they usually do especially as it was an older pump in the first place and it would have cost more to repair than to buy a new one. So, I bit the bullet and went on line and purchased a Sea Horse 1 HP pump that came with a leaf pot already attached, was self priming and moves 4700 gph. I installed it, which was pretty simple although it did require a few modifications to the inlet pipe as I couldn’t get it to prime. Eventually, I got it worked out and it puts out more water than the other older pump did. In fact, it is flowing at full 1-1/2 inch pipe except when it starts to accumulate dirt inside the filters. Then it cuts back a little on the output until I manipulate the valve to clean it. That’s the beauty of the Aquadyne System, there are no filters to wash out manually and all of the cleaning is done by manipulating the lever built into the head of the tank.
I was so pleased with this pump, that I decided that I needed to install something similar on the 5000 gallon pond which had the first Aquadyne System installed on it. As I mentioned before, this was powered by two submersible pumps one that put out 3600 gph and the other was only a small one at 1200 gph. So between them, in theory, they were pumping 4700 gph. I could never get a very strong flow of water out of this set up and after seeing what the above ground pump was doing on the 6000 gallon pond just knew what the answer was. Even though my intentions were good, for some reason, I kept putting off buying another Sea Horse pump which as it happens, turned out to be a stroke of good luck on my part.
Thirty odd years ago before I moved into this house, I had 5 acres way out in the country. It had a creek running through it with a small pond although it was prone to getting low on water by the end of summer. I had a garden and I bought a 1/2 hp pump to irrigate it by pumping the water out of the pond. When we moved to this house, I brought it with me and over the course of time, it got buried behind a pile of junk in one of my sheds. The other day, I decided to clean out that particular shed and came across the pump which quite honestly, I had forgotten that I had. The brain started clicking as I looked at it to see if I could adapt it for the present purpose which was to attach it to the Aquadyne System on the 5000 gallon pond. First of all, I was surprised just how heavy the pump was but then I realized that it is made of all metal and has no plastic anywhere in it. After all, it is 34 years old and is labelled as a Sears Pump. You remember them, Sears and Roebucks or maybe my age is showing?
Sears (very old) showing the Leaf Pot that I installed.
I plugged it in and it fired right up with the motor spinning away very smoothly. No grinding or strange noises.The next thing was to hook up a temporary inlet and outlet line and try it in some water to see if the pump part still worked. The plate only said it was 1/2 horsepower and nothing about how many gph it could put out. Watching the amount of water coming out under pressure at the end of a hose pipe, it just looked like it would work very well for what I had in mind.
The next thing was to plan on how I was going to hook it up. Out came the tape measure and I measured this and that and visualized all of the steps in my mind before deciding on a course of action. Even then, I was not 100 percent sure it would work and I kept going over the different steps in my head that it would take to hook it up. The next day, after a trip to Home Depot to buy the necessary fittings, I bit the bullet, turned off the other pumps and cut the pipe that connected those pumps leaving the smaller 1200 gph pump hooked up to an urn which has been on that pond ever since it was built more than 25 years ago.
Note the non return valve installed in the line to help with the priming.
I turned my attention to hooking up the pump to the Aquadyne System and several hours later, had the thing connected. Then came the moment of truth as I prepared to test the new setup. The pump did not have a leaf pot attached to it and I just happened to have one that I got from some rescue or another. I had tried to give it away at the last swap but had no takers which turned out lucky for me as it was going to provide me with a self priming hook up for the “new” system. With everything in place, I filled the leaf pot for the first time and turned on the pump and all that happened was the water that I had put in came out of the temporary outlet I had rigged up. I had to take the temporary route as I didn’t want to pump any rust or 30 year old gunk back into the pond. I would hook everything up permanently after the pump was clean. That was the theory anyway.
I tried it several times and it still wouldn’t prime enough to start pumping so I took a step back to consider my options. As I had similar problems when I installed the Sea Horse pump on the other pond and I had got over it by taking a more direct line to the brass inlet foot which is under the water. So, I broke down a lot of the inlet pipe setup that I had just built, found a piece of 1-1/2 inch flexible hose that just happened to have a part of the right coupling still attached to it and hooked everything back up together again. I repeated the process of filling the leaf pot to prime the pump, plugged it in and away it went. Water came out of the temporary 1-1/2 inch outlet at a tremendous rate so I waited for it to start running clear with no sign of rust and then shut everything down.
I re-hooked the line back to the Aquadyne System and turned it back on. I could hear the water within the tank just sloshing the beads around, which is a good sign and it just poured full pipe out onto the waterfall where I had placed the outlet end. I think the pump is putting out just as much as the 4700 gph Sea Horse or at least it appears so. I stood there for a while just marvelling that this 34 year old pump is still working after all of this time . In truth, it never got used very much at my old house and not at all here at this house so it has not had a lot of wear and tear but even so, it is amazing. Heck, I have to turn on my Dishwasher for a couple of seconds every day or that motor will just buzz and not run and freeze up and I have to get under it to give it a turn to start it again. So, to me, this pump is the cat’s miaow. Now all that remains is to see just how long it will last. After all, just like me, it is very old.
This is what I use to keep the debris from the foot valve. Just wire them together and cut a hole in the top.
You can just make out the basket under the water with the foot valve in it.
With the pump running at full tilt, the last part of the project was to make a basket that the brass foot sits in to shield it from the leaves and silt that tend to block things up. The bane of having ponds is the amount of dirt that the fish generate hence the need for cleaning the water in the first place and shielding the inlet in the second. Ponds, being what they are, also grow algae which also can block the inlet pipes and that is not counting the debris like leaves and such from the trees.
What I do is take two of the plant baskets, the sort that are perforated and place one on top of the other with zip ties, cut a hole the size of the brass inlet in the top and attach it with wire to the pipe that sticks out. This will slow down the amount of junk that attaches to the brass foot but will not stop it completely requiring that from time to time, I have to disconnect that section of pipe and take the whole thing out of the water to clean it. Small price to pay for having clean water. I include screw couplings just for that very reason in the inlet line.
You may notice the large 4 inch diameter pieces standing on the top of the vertical pipes. These are to place a leaf blower in that which when activated, stirs up the beads that are inside the Aquadyne tank. It only needs to happen about once a week. It is possible to buy the newer systems with a blower already permanently installed.
Oh yes, it was a good job that I decided to clean the shed and to locate the pump after all of these years or maybe, if my memory wasn’t so bad, I would have remembered the pump and could have foregone the shed cleaning.
Next up is to clean out the greenhouse. Wonder what hidden goodies I might find there and I can’t wait to clean the workshop. I might even find my 3 pound club hammer that somehow has disappeared. Dream on, as it is probably buried out in the garden somewhere, victim of my forgetfulness. Anyway, if I ever get around to cleaning the workshop, I will need a dumpster to get rid of 30 years of surplus junk.