I offer kits in the following sizes: 1/2" www.ebay.com/itm/334123889292 3/4" www.ebay.com/itm/334252703024 1" www.ebay.com/itm/334313435507 1.5" www.ebay.com/itm/334819056023
@@JoeMalovichI have a 3.5gpm natural spring that has about 3ft of fall and I want to pump it up about 25 vertical feet. I realize I'm not going to get great flow rate but am fine with that. Planning to use 1/2 tube for delivery. Which size pump should I buy? 3/4 or 1 inch? Thanks
I'm afraid you don't have enough input height to generate sufficient output pressure. If you could get up to 5ft of input you would have a better time.
@@JoeMalovichI could probably get another foot by putting it further downstream. I could also make the output only 20 feet although that's less ideal. If I could swing that, what size do you think I should get?
I have seen this pump in one remote barangay I've stayed,, they use ram pump but its big enough,, it can supply the whole barangay,,, it is so useful,,
Thank you. I was looking for a design with parts and found this. The parts list helped tremendously! This is one of if not the most helpful videos I have found in a while
The water stream I rely on is over 900 feet (around 300 meters) from the house I want to bring this water to. Also, the stream lies at a lower altitude than the house by about 20 feet/6.1 meters. Will this ram pump be able to defy distance and gravity to deliver water to my home 24/7 yearlong? If not, what ramp pump model do you recommend?
Do you mind if i ask? My question is, when we test the ram pump..can we test it using the running water from the main waterline..means that the delivery pipe connected directly to the water tap..
I built one over 20 years ago, fed from a spring receiver box through 3/4" pipe, used it to pump probably 60 feet up hill and following about a 2000 feet course of above ground pipe to my cabin. Ran 24/7, even in the dead of winter. Pipes never froze because the water was always moving. These are great devices, though I no long use mine.
The water stream I rely on is over 900 feet (around 300 meters) from the house I want to bring this water to. Also, the stream lies at a lower altitude than the house by about 20 feet/6.1 meters. Will this ram pump be able to defy distance and gravity to deliver water to my home 24/7 yearlong? If not, what ramp pump model do you recommend?
@@hmlrhotheta that distance and elevation would not be a problem. If I recall it takes about 1 psi to raise water 1.5 feet, so all you need is 14 psi to lift your 20 feet...the pump will easily produce that with enough stream head. I pumped uphill maybe 60 feet elevation and then horizontally at least 2000 feet. The most important thing is how much head you have at your stream, which is the elevation drop from the water intake - then through a length of pipe- to the pump itself. The greater the drop, the more velocity and energy the water will have to drive the pump. So if your stream is on basically flat ground it won't work unless you run a lot of pipe downhill to get sufficient drop. I probably had a good 20 foot drop or more through maybe 150 feet of pipe to the pump. Recommend at least 3/4 - 1 inch diameter pipe feeding the pump to minimize friction losses. You want the water flowing hard and fast to the pump (I used black poly underground sprinkler hose).
TY for your quick reply. My neighbor, who owns that stretch of the water stream, told me that over the years the stream has become weaker and weaker. I visited the Island in may 2023 but did not see the stream. I guess I will have to inspect it physically when I return this year for my retirement. I noticed that you sell the kit you're recommending at a very affordable price. I like it. I'll contact you again after I move back to the island. Thank you , again..@@badgermtn
@@hmlrhotheta sorry friend, I'm not selling any kits. You have me confused with someone else. Again your biggest concern is having enough downhill distance (head) for the stream. You would also need to dam up or build a receiver box up-stream to create a reservoir of water so as not to suck any air. Even with a low flowing stream that will work since the ram pump won't be moving a huge amount of water, just a constant flow with each stroke that you would want to feed into a tank at your house and use a standard electric pump from there for your needs. Do some research on Google for calculations on required stream head if in doubt.
If you don't have enough fall on a creek can you possibly have multiple ram pumps to get the water to a high enough elevation? I'm needing about 12 feet of rise to get water into a pond. I guess you'd need some kind of holding tank halfway up the hill to restart the ram proces...if that's even possible?
Would you be able to advise me on my ram pump please? I'm in Cardiff UK and a friend of mine a few months ago ordered me a complete 1/2 inch ramp pump from yourself before I discussed with him the size I actually needed. So I have your 1/2 ram in hand but wasn't sure it was the correct size for my situation. Do you think I can make it work and if so what size pipe to drive and deliver? I'm in an off grid location around what I've calculated is 17m vertically above a freshwater spring with ample flow. I can site the ram downstream of that spring, so the ram pump will 250m distance from where I need the water delivered and 20m vertically below. I was thinking a drive pipe 3-4m vertically below the spring. 30-40m long. I only need a small volume 50-100 litres per day delivered. The question really is more about the vertical height I can drive the water. Will the 1/2 pump drive uphill 20m vertically and what size, drive pipe and delivery pipe would be recommended for this situation. Cheers John
Absolutely my 1/2“ pump will work in your site and provide much more water than you require. Coming out of the spring can be 1/2“ black poly pipe. The last 10m of drive pipe going into the pump should be either rigid PVC or metal pipe. Where this poly pipe and rigid pipe join there should be a tee to a standpipe which is a vertical uncapped breather that would be 3m to 4m tall in your case. This makes the effective drive pipe only 10m long, any longer and it might not won't work well. The delivery pipe can be anything, 1/2" black poly pipe would be preferred and most economical. Ram pumps can be finicky though and detrimental resonances could result. I am 95% certain the information I gave you will result in success, if not then upping the size of the pipe out of the spring and the standpipe will definitely work. Replacing the standpipe with a bucket 3m above and 10m of rigid pipe away from the pump will also work well.
@@JoeMalovich Joe, many thanks for the extensive reply! I've resurveyed the vertical drops today's using the spirit level and eyeball method so there may be some error in the figures. The water delivery location will be vertical 24.5m, with the ram 3m vertical below the water source. I'm thinking I may need to increase the head to 4m to get it up that hill!? This will extend the length of the drive pipe to approx 40m so I'm also thinking I'm going to need a standpipe. It so essential to have the last 10m of delivery pipe rigid as you suggest or will poly hose maybe work? Also seen suggestions the supply line to the standpipe and the standpipe should be larger pipe, what are you thoughts on this? Cheers
@@bushtuckaman You should try it at 3m, it might do what you need, if not you have the option of using that extra meter. At the high pumping ratio you are trying to use (about 8:1) I highly recommend going with the rigid pipe, keep it as straight as possible and brace the pump so all of the hammer force goes into pumping water, not vibrating the pipe/pump. As for the spring water supply line and stand pipe being larger I did mention in a previous comment that you might need to up them to 3/4", or just the stand pipe to 3/4" (or larger, you could even use 2" pipe if you want). I don't think the pump will be stressing the flow capacity of the 1/2" pipe from the spring over 30m. Try it and see, I would try mocking it up here but it's -7C and snowing outside.
@@JoeMalovich @Joe Malovich I was think from an economics pov to slightly over engineer the drive, supply and standpipe to hopefully prevent me from having to reorder larger pipes if I fail to get the delivery height required. For example if I went to 5m vertical drop from spring to ram I would surely guarantee the desired delivery height. Ratio would the 5:1 and it only moved the ram approx 50m distance from the spring, 5m vertically So 1/2 delivery and drive pipe. 3/4 inch standpipe and supply pipe. With standpipe 30m away from the ram. Sounds cold where you are. Its warming up here in the UK now.
@@bushtuckaman that's up to you. You can also double up on 1/2“ vs switching to 3/4. Still keep the stand pipe about 10m from the pump. Long drive pipes can develop resonant issues.
This is awesome ! I'm curious about the limit to how big one can be built ! I'm thinking the larger the pipe...the more water ! I have a very fast flowing stream and would like to know if it's feasible ! Any info would be great ! Have a great day and thanks for the video !
Very cool joe thanks I'll be using mine to run my off grid water supply in my now dry cabin and to the guy that said it's too expensive 😝 I'd have to drive two hours to home Depot look for everything get home realize I missed something and drive back so 80$is a bargain 🤣
Yes I too believe it is priced fairly. I make much of my profit from being able to buy in bulk at a discount, and I spend enough that my supplies have free shipping.
A few years ago I built a 3/4" (pipe) ram pump, because I saw a couple (banging away) in actual use, supplying water to a small roadside farmers grocery. It worked like a champ.
What's the optimal pipe size ratio? IE, drive pipe is (A) delivery pipe should be (A/½) or what ever it should be. A real world example I keep seeing is 1¼" in ¾ out. But I've also seen 1" in ¾ out. One must be better than the other for delivery distance and height
How would this work on a stream? Instead of a bucket would I just put the pipe into the stream, if I could post a picture, I'd show you my stream. But I have a video of it on my channel, it runs down hill, and has about 3-4 waterfalls. Soooo. Oh nevermind, you put it in a stream. Smh. 😂 Might help if I watch it farther. So how's much water does this pump per min? Ohhh what, you didn't put it in the stream on your video! Ugh.
Correct you don't need a bucket. You can use the stream water directly. That wasn't my creek. They pump up a maximum of 7x the input height, more flow at lower ratios like 3x. Need 3ft of elevation going into the pump to operate. More elevation going in is better.
Still unsure what this is for... Basically storing the energy of water flowing down hill to get it to flow back up a certain amount so it can be piped into the top of a tank without having to use using a electromechanical pump or an elevated pipe all the way from the source to the top of the tank?
one known application for these is moonshiners often use them to get water to their still condensers and mash tanks at their sites,which are often in the middle of nowhere.these are significantly more quiet than gas operated units,reducing risk of being discovered,and don't require electricity.though there is a huge amount of uses for these,from watering livestock,to providing arrogation to crops to getting water to your house in off-grid situations.also excellent to have on long term camping sites.
Just the one thing - teflon leaves PFAS in the water, kust like anti-stick frying pans. It bioaccumulates and is NOT good. Look it up - I stopped using it altogether.
Could you use a 45* fitting coming off the check valve to direct the exhaust water in the direction you want it to go? Or will this added friction on the waste side cause it to not run as well
What's the effect of a single undersized fitting? Like if you had a 2" to 1" reducer Into the pressure tank. I'm thinking about building a 2" ram pump but I'd like to use some of the stuff I have laying around, like a spare expansion tank I have laying around. It has a 1" inlet. Hence the question.
It's really best if the pressure tank has zero restriction, you want to give the hammering slug of water every opportunity to get into the output side of the secondary check valve. It will work but will be a bottleneck. If you have a second one that would be best. You can also use a snifter valve and a plain jane section of 2" pipe but you need to orient everything so that the bubbles want to go into the tank and stay there. Reference this pump layout ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-skapOlki__8.html
@@JoeMalovich the metal male puts too much strain on the female PVC and will fail; however, a PVC male does not put strain on metal female coupling. Just switch which the parts materials.
lol,there is no way in bloody hell I'm giving you 80$ for this.ill be parting this together at the local hardware store. you had a good idea,but got a bit greedy man.
Jeezo. You are paying for the guys time. If you can build this yourself...go 4 it. He practically shows you how to do it (although he did have a leak on the tower) other than that...80 bucks is a bargain if you are able to make good use of this system.