Centrifugal Pump Bases
Centrifugal Pump Bases
(OP)
We have a 900 rpm pump and are wanting to re-do the piping so that we have 5 feet of suction piping before it hits the impeller (let the flow settle out).
The problem is, in order to get that 5 feet we need to raise the pump's suction level pretty high (around 2.5-3 feet). We are considering a 1 foot concrete pad with a 2 foot metal platform.
Has anyone had experience mounting a pump to a metal platform? Or had a concrete pad higher than 1 foot? It's not a very large pump but would be have to do some sort of additional calc to verify it would not topple over? It's only 2 feet of metal platform though.
The problem is, in order to get that 5 feet we need to raise the pump's suction level pretty high (around 2.5-3 feet). We are considering a 1 foot concrete pad with a 2 foot metal platform.
Has anyone had experience mounting a pump to a metal platform? Or had a concrete pad higher than 1 foot? It's not a very large pump but would be have to do some sort of additional calc to verify it would not topple over? It's only 2 feet of metal platform though.





RE: Centrifugal Pump Bases
RE: Centrifugal Pump Bases
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
It is a centrifugal pump with a 40-50 hp motor. I can try to provide a quick sketch on paint if needed.
I'm just trying to figure out if the reaction forces for a smaller pump would be that high. And is there usually a limit on how high the concrete pad can go? I know at certain heights it can fail something called a "slab test."
Also, am I correct in wanting 4-5 feet of straight piping before the suction of the pump?
RE: Centrifugal Pump Bases
RE: Centrifugal Pump Bases
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
One question, will having a concrete that is 2 feet high imposed any cracking issues when the pump is operating? I've honestly never seen a pump pad that high before, if anyone has any pictures that could share just so I can put it into perspective.
BigInch, do you know of any resources regarding pump concrete pads? I've searched around and could not locate any helpful sources.
RE: Centrifugal Pump Bases
There are 15' to 20" high Stilt mounted Foundations for Centrifugal Compressors.
There are many, many Reciprocating Compressors around the world sitting on foundations that exceed 5'-0" in height.
All of these types of equipment generate a lot of vibration but I have yet to hear of any real failures due to height.
I suggest that the original poster should discuss the height of the foundation with the Structural Engineers on the project.
As for the mythical "5'-0" issue" for the pump suction piping he has not given us enough information for us to comment.
- What is the Commodity?
- What is the Operating Temperature?
- What is the Operating Pressure?
- What is the suction line size?
prognosis: Lead or Lag
RE: Centrifugal Pump Bases
Up to 250 HP pumps are not usually considered critical enough to require a dynamic foundation design, with many foundations in that range sized on proportional dimensions and weight rules. for example such a foundation might have at least a width of 1.5 x bottom of foundatin footing to height at machine centerline and a foundation weight of 2.5 x the weight of motor + pump + gear box.
The maximum lateral load at the machine centerline for overturning stability check would be calculated from the torque generated from a short circuit condition.
The US Army Corps of Engineers has a design manual concerning dynamic machine foundation design. I think it is engineering manual EM#515 or is it EM#517. Let me know if you can't find it. I have a copy somewhere around here.
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
RE: Centrifugal Pump Bases
I was going to mention that reinforcement steel in the concrete usually isn't complicated. Enough for temperature expansion and shrinkage steel (0.0018 x cross-sectional area of concrete) is required in all the lateral and top faces (both ways) to account for most of it. Then just add dowels between footing and pedestal joint For that size pump, you could level with normal grout rather than epoxy grout for larger machines, but be sure to have your foundation engineer take a look.
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
http://publications.usace.army.mil/publications/en...
I don't see a 515 or 517...
Also, would additional calculations be needed with a pad that high? From a structural standpoint it almost turns into being a foundation to a column. I'm not structural but a column could be a mess of problems right?
RE: Centrifugal Pump Bases
No columns. No eccentric loadings, just a chunk of concrete with a balanced soil bearing load for normal weight loads, ie. CG of foundation footing directly below CG of equipment, plus a check of overturning stability from short circuit load.
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
At 125 lb/cf for concrete and the pump/motor weight over 3600 lb, we are looking at 6 tons for the whole skid if we were to make them 3 feet tall.
Apparently we only have 6 inches of stab to anchor our bolts too...that being said, under the 6 inch of slap is just filler concrete. Looks like 3 feet of concrete may not be possible. And we really would want to stay away from a metal platform.
If all else fails we'll have to lower the pump and install flow straighteners at the suction to prevent air pockets from hitting the impeller. I mentioned that it is a good rule of thumb to have straight pipe before the suction flange, but does this depend on the flow rate?
RE: Centrifugal Pump Bases
Build a steel structure, can't see what your problem is for a very basic engineering undertaking.
It is a capital mistake to theorise before one has data. Insensibly one begins to twist facts to suit theories, instead of theories to suit facts. (Sherlock Holmes - A Scandal in Bohemia.)
RE: Centrifugal Pump Bases
How far below floor are the tops of the tunnels?
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
This is why I would much rather go with a 8" concrete pad and then bolt a metal platform about that...bolts going only to the pad or straight through the pad and slab underneath?
A 900 rpm pump should not generate much vibration in the platform. Would need to find the natural frequency of the platform to make sure this doesn't happen. Hopefully the client doesn't freak out when they see this!!
RE: Centrifugal Pump Bases
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
A simple fabricated steel to be bolted to a concrete floor to mount a smallish pump on.
A first year eng. student exercise
It is a capital mistake to theorise before one has data. Insensibly one begins to twist facts to suit theories, instead of theories to suit facts. (Sherlock Holmes - A Scandal in Bohemia.)
RE: Centrifugal Pump Bases
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
It is a capital mistake to theorise before one has data. Insensibly one begins to twist facts to suit theories, instead of theories to suit facts. (Sherlock Holmes - A Scandal in Bohemia.)
RE: Centrifugal Pump Bases
It is a capital mistake to theorise before one has data. Insensibly one begins to twist facts to suit theories, instead of theories to suit facts. (Sherlock Holmes - A Scandal in Bohemia.)
RE: Centrifugal Pump Bases
Please be careful about doing anything with those tunnels. They are probably there to supply the safety related water supply to your nuclear plant in the event of an accident. You don't want to mess with them. Here's a link to a real event from a while back where someone forgot this fact: http://allthingsnuclear.org/fission-stories-104-a-.... Unfortunately, the NRC report is in their old document system and so not easily retrievable, but the plant ended up being shutdown for several years as a result of this "small error" by a new engineer.
Is this really a fire pump at a nuclear plant? With putting your pump on a metal platform you might want to consider whether you have to meet seismic requirements -- not so much for the fire pump itself, although it might, depending on what it's used for, but for surrounding equipment. This is often called "Two over one" (or more properly "II over I") indicating that you have lower seismic category equipment that can affect equipment that has higher seismic qualifications. There will be a safety analysis report that will tell you what you are committed to.
RE: Centrifugal Pump Bases
This is not a fire pump. It's a pump for a condenser cleaning system. No seismic or safety related requirements.
I was simply looking for pump support standards that we could use.
RE: Centrifugal Pump Bases
"People will work for you with blood and sweat and tears if they work for what they believe in......" - Simon Sinek
RE: Centrifugal Pump Bases
RE: Centrifugal Pump Bases
The comment about the pump may does not apply; however, you still should verify that there is no safety equipment in the area.
You also want to look into an NRC regulation called "50.59" before you go much further. You don't make changes at a nuclear plant without lots of paperwork, even over on the condenser side.
This is meant to be helpful -- the paperwork side can trip you up, if you're not careful.
RE: Centrifugal Pump Bases
All concrete is the way to go and mount the base on top. Although, i have seen pump baseplates mounted on metal platform for exactly the same reasons you are discussing - although this is not best practice.
RE: Centrifugal Pump Bases