I wonder if u guys would like a check list video of this build? I may even get another one and set up different Comment down below if you already know all these parts? It was a super easy install highly recommended!
Beauty about the pump if it freezes hopefully it’s gonna be a while till a Texas freeze 🥶 like this last one. I can go grab another and be at the cost off one pump from HD or Tractor Supply!!! I actually plan to build it all into a section of the house where there had been a room but the floor feel through. Hard to describe but like a screened in water porch. Long story but it’s gonna be super insulted before winter 👍🏽👍🏽💪🏽
Would I have to have a holding tank to help with hold back on check valve . Or can I just hook up off hose from mountain which good flow .straight up to it
Good question, ur check valve holds certain pressure against it going back out depending on what you get and the pressure u desire. The flow in to my knowledge does not have to have pressure, but definitely needs like a gravity fed water solution. Don’t want to burn the pump up because it can’t get water fast enough.
Curious on the after the pump? Being that pressure build up is controlled by pump never put one on the other side feeding into the home. Does it work more efficiently that way?
Interesting 🧐 I’m going to be setting up a pair of totes together and run off another pump same model I will for sure do this trick 👍🏽 and will see the difference! Best tips come from the pros.... older ones newer ones don’t be giving um for free 😂 Please subscribe, luv the actual interaction and getting tips! What this channels all about, knowledge is power 👍🏽💪🏽
Would you happen to know what the capacitor rating for it is? (Inside that black box on motor) A surge blew up the capacitor and now can't read what the capacitor value is supposed to be.
I'm looking at this pump for an off grid situation, pulling water from a creek. So does the pump stop when the tank is full like a regular pressure tank? And I assume when the tank is empty the pump kicks on?
Yes, depending upon how u have it rigged plumbing wise the tank will cut on and off from pressure setting. I left it at what it was programmed to push out around 40psi, it’s just a nut for adjustment, to cut on or off at higher or lower pressure!
Pressure tanks are not designed or intended for water "storage" and have zero capacity to do so and should never be "empty". Pressure tanks are "shock absorbers" for the water system to protect pumps and plumbing from "water hammer" and NO well pump is intended to pump "ground water" such as from a creek or pond. They also provide ambient pressure with the pump off to keep the check/foot valve seated and the seal sealed and the system primed. The "dissolved solids" and "silt" in surface water - which will pass through any all all "filters" OR will quickly plug them up so nothing passes and pumps "burn up" - will quickly damage and corrode/erode the carbon-ceramic pump seal and cause pump failure. Especially since the pump will begin "sucking air" long before it leaks water externally and will constantly lose prime after shutdown. They're also not designed for ANY outdoor use and because raising "water pressure" raises its FREEZING POINT those pumps and pressure tanks and any plumbing they're connected to can and will freeze up at temps well above "freezing". And since the "cutin" pressure is 30 psi and the pressure tank charge pressure is 23 psi, any time you "crack" a faucet to prevent freezing the pump is going to run "constantly" or often enough its service life will be significantly reduced and in real "freezing" temps a slight "trickle" will probably not prevent freezeup regardless. People with shallow/dug wells and/or cisterns in "cold climates" have "pump houses" for a reason. And pumps that do not "freeze up" until temps and windchills go dozens of degrees below "freezing" if at all. There is no such thing as a true "outdoor" water pump designed, engineered and constructed to be exposed to the elements 24-7-365 besides TRUE irrigation pumps and those have vertical motors, the pump itself is actually at the bottom of the well, are used in "warm weather" only, self-drain and self-prime and require constant "pressure lube" while in operation. A jet pump has a plastic impeller and "ejector" and will not "live" pumping "dirty" and/or "hot" water and the instructions explicitly say so. Buying a $169 Harbor Freight shallow well jet pump to "save money" and/or "conserve water/energy" in an "off the grid" DIY-"engineered" and "hybrid" residential water system and using it as a "transfer" and/or "booster" and/or "trash" pump is about as intelligent as trying to "save money" by using 2 or 3 "water supplies" with no well and/or rural water to "replace" one with a well and/or rural water. There's no such thing as a "good cheap pump" and "free water" - i.e. surface water, rainwater, etc.- is never a "replacement" for groundwater for "household use". Especially in a "hybrid" system where both or all are used alternately and the "distilled" and "pure" rainwater dissolves and breaks up/down all of the "hard water deposits" surface water and/or groundwater leave in pumps, plumbing, screens, filters and appliances and "flushes" and concentrates them into "hard to reach" areas where they really "deposit" permanently long-term. Using rainwater and/or surfacewater to "replace" groundwater is never "safe" and "sustainable" unless it is confined to entirely separate systems and that is never "cheaper" than using groundwater alone and real water/energy conservation methods and proper pumps, plumbing, etc.
I just got my Drummond pump yesterday. I intend to hook it up to my rainwater catchment system. I read in the instructions that it should not be exposed to freezing temperatures. I hope your pump lasted for you.
Of course it shouldn't because pressurizing water raises its boiling AND freezing points. Which is why the boiling and freezing points of water are lower as elevation increases and atmospheric pressure decreases. That means the pump and any other plumbing pressurized to 23 psi by the pressure tank can freeze up at temps ABOVE 32 degreees F and nothing about those pumps is intended for outdoor use.
Those pumps are not intended for continous use or as "booster" or "transfer" pumps and will overheat if supplied with "room temperature" or warmer water. Meaning aboveground "rainwater catchment" systems with aboveground ambient air temps are not "safe" and "sustainable" and "survivable" applications for them.
Actual foot valves are supposed to be installed vertically. Not horizontally. And the instructions for those pumps state to pressurize the air tank to 23 psi after "filling" the pump. That pressure is necessary to seat a CHECK VALVE. A foot valve is a vertical check valve with an inlet screen and should be at the "foot" of the suction line. Not somewhere between the foot and the pump inlet The pump suction line should also run somewhat uphill. The pump is set to turn on at 30 psi and off at 50 and the pressure tank is there just to act as a "cushion" to prevent "water hammer". If you did not charge the tank to 23 psi and do not have the system plumbed right and watet/air "tight" it will never hold pressure. Putting water under pressure also RAISES its "triple points" - boiling, freezing and melting. So putting a jet pump and/or pressure tank outdoors instead of in the basement and/or an outdoor and insulated and/or heated "pump house" is really stupid since temps well above freezing can still freeze the system up. Those pumps are not designed, engineered or rated for outdoor use.
Pumps like this do need to be protected from freezing temperatures, but 50 psi will not affect the freezing point in any noticeable way. From waters triple point to about 200 MPa (almost 2000 times atmospheric pressure) freezing temp is virtually the same. For reference, putting water under 1450 psi would only change the freezing point by around 1.35 Fahrenheit. Pressures affect on freezing and melting points is only important in high end engineering and lab environments.
I wonder if u guys would like a check list video of this build? I may even get another one and set up different
Comment down below if you already know all these parts? It was a super easy install highly recommended!
Ir check valve is bleeding back, time for new one
I’m sure if it freezes the pump will be junk do you plan on insulated shed over it?
Beauty about the pump if it freezes hopefully it’s gonna be a while till a Texas freeze 🥶 like this last one. I can go grab another and be at the cost off one pump from HD or Tractor Supply!!!
I actually plan to build it all into a section of the house where there had been a room but the floor feel through. Hard to describe but like a screened in water porch. Long story but it’s gonna be super insulted before winter 👍🏽👍🏽💪🏽
Would I have to have a holding tank to help with hold back on check valve . Or can I just hook up off hose from mountain which good flow .straight up to it
Good question, ur check valve holds certain pressure against it going back out depending on what you get and the pressure u desire. The flow in to my knowledge does not have to have pressure, but definitely needs like a gravity fed water solution. Don’t want to burn the pump up because it can’t get water fast enough.
Can you tell me what pipe fittings I need to do what you did?
U need one inch fittings
ok but is it truly a good pump
I have the same pump also operating off the cistern set up. I put a check valve Before & After the pump and never have a bit of problem
Curious on the after the pump? Being that pressure build up is controlled by pump never put one on the other side feeding into the home. Does it work more efficiently that way?
@@dadwork9502 it seems to split up the responsibility of the valve . I get less chance of back feed and it holds pressure forever.
An old plumber told me to do it. Lol
Interesting 🧐 I’m going to be setting up a pair of totes together and run off another pump same model I will for sure do this trick 👍🏽 and will see the difference!
Best tips come from the pros.... older ones newer ones don’t be giving um for free 😂
Please subscribe, luv the actual interaction and getting tips! What this channels all about, knowledge is power 👍🏽💪🏽
Do you have a parts list for the pipes and fittings? I am doing the same exact setup
Would you happen to know what the capacitor rating for it is? (Inside that black box on motor) A surge blew up the capacitor and now can't read what the capacitor value is supposed to be.
Just bought this pump but won't kick on and tips?
Did you ever figure out what it was? Might be the capacitor?
I'm looking at this pump for an off grid situation, pulling water from a creek. So does the pump stop when the tank is full like a regular pressure tank? And I assume when the tank is empty the pump kicks on?
Yes, depending upon how u have it rigged plumbing wise the tank will cut on and off from pressure setting. I left it at what it was programmed to push out around 40psi, it’s just a nut for adjustment, to cut on or off at higher or lower pressure!
Pressure tanks are not designed or intended for water "storage" and have zero capacity to do so and should never be "empty". Pressure tanks are "shock absorbers" for the water system to protect pumps and plumbing from "water hammer" and NO well pump is intended to pump "ground water" such as from a creek or pond. They also provide ambient pressure with the pump off to keep the check/foot valve seated and the seal sealed and the system primed. The "dissolved solids" and "silt" in surface water - which will pass through any all all "filters" OR will quickly plug them up so nothing passes and pumps "burn up" - will quickly damage and corrode/erode the carbon-ceramic pump seal and cause pump failure. Especially since the pump will begin "sucking air" long before it leaks water externally and will constantly lose prime after shutdown.
They're also not designed for ANY outdoor use and because raising "water pressure" raises its FREEZING POINT those pumps and pressure tanks and any plumbing they're connected to can and will freeze up at temps well above "freezing".
And since the "cutin" pressure is 30 psi and the pressure tank charge pressure is 23 psi, any time you "crack" a faucet to prevent freezing the pump is going to run "constantly" or often enough its service life will be significantly reduced and in real "freezing" temps a slight "trickle" will probably not prevent freezeup regardless.
People with shallow/dug wells and/or cisterns in "cold climates" have "pump houses" for a reason. And pumps that do not "freeze up" until temps and windchills go dozens of degrees below "freezing" if at all. There is no such thing as a true "outdoor" water pump designed, engineered and constructed to be exposed to the elements 24-7-365 besides TRUE irrigation pumps and those have vertical motors, the pump itself is actually at the bottom of the well, are used in "warm weather" only, self-drain and self-prime and require constant "pressure lube" while in operation.
A jet pump has a plastic impeller and "ejector" and will not "live" pumping "dirty" and/or "hot" water and the instructions explicitly say so.
Buying a $169 Harbor Freight shallow well jet pump to "save money" and/or "conserve water/energy" in an "off the grid" DIY-"engineered" and "hybrid" residential water system and using it as a "transfer" and/or "booster" and/or "trash" pump is about as intelligent as trying to "save money" by using 2 or 3 "water supplies" with no well and/or rural water to "replace" one with a well and/or rural water. There's no such thing as a "good cheap pump" and "free water" - i.e. surface water, rainwater, etc.- is never a "replacement" for groundwater for "household use".
Especially in a "hybrid" system where both or all are used alternately and the "distilled" and "pure" rainwater dissolves and breaks up/down all of the "hard water deposits" surface water and/or groundwater leave in pumps, plumbing, screens, filters and appliances and "flushes" and concentrates them into "hard to reach" areas where they really "deposit" permanently long-term.
Using rainwater and/or surfacewater to "replace" groundwater is never "safe" and "sustainable" unless it is confined to entirely separate systems and that is never "cheaper" than using groundwater alone and real water/energy conservation methods and proper pumps, plumbing, etc.
You had a leak from the release valve on top
I like your style
I just got my Drummond pump yesterday. I intend to hook it up to my rainwater catchment system. I read in the instructions that it should not be exposed to freezing temperatures. I hope your pump lasted for you.
Of course it shouldn't because pressurizing water raises its boiling AND freezing points. Which is why the boiling and freezing points of water are lower as elevation increases and atmospheric pressure decreases. That means the pump and any other plumbing pressurized to 23 psi by the pressure tank can freeze up at temps ABOVE 32 degreees F and nothing about those pumps is intended for outdoor use.
Those pumps are not intended for continous use or as "booster" or "transfer" pumps and will overheat if supplied with "room temperature" or warmer water. Meaning aboveground "rainwater catchment" systems with aboveground ambient air temps are not "safe" and "sustainable" and "survivable" applications for them.
Actual foot valves are supposed to be installed vertically. Not horizontally. And the instructions for those pumps state to pressurize the air tank to 23 psi after "filling" the pump. That pressure is necessary to seat a CHECK VALVE. A foot valve is a vertical check valve with an inlet screen and should be at the "foot" of the suction line. Not somewhere between the foot and the pump inlet The pump suction line should also run somewhat uphill. The pump is set to turn on at 30 psi and off at 50 and the pressure tank is there just to act as a "cushion" to prevent "water hammer". If you did not charge the tank to 23 psi and do not have the system plumbed right and watet/air "tight" it will never hold pressure. Putting water under pressure also RAISES its "triple points" - boiling, freezing and melting. So putting a jet pump and/or pressure tank outdoors instead of in the basement and/or an outdoor and insulated and/or heated "pump house" is really stupid since temps well above freezing can still freeze the system up. Those pumps are not designed, engineered or rated for outdoor use.
Pumps like this do need to be protected from freezing temperatures, but 50 psi will not affect the freezing point in any noticeable way. From waters triple point to about 200 MPa (almost 2000 times atmospheric pressure) freezing temp is virtually the same. For reference, putting water under 1450 psi would only change the freezing point by around 1.35 Fahrenheit. Pressures affect on freezing and melting points is only important in high end engineering and lab environments.
Thinking of buying one today...Thanx for upload right on time gives me a better idea what to expect 👍
I think it’s well worth it! It’s 1 inch inlet and outlet! Thanks for the comment 👍🏽
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