Flowmeter Placement Questions

Every pump has a head curve which shows head vs GPM. To determine GPM, you need to know the plumbing head loss and to find that you can measure the pump pressure on the return side and the pump suction. Most pumps have drain plugs which work fairly well to measure both pressure and suction with a pressure and suction gauge. Once both measurements are done, you can find head loss with the following equations:

Return Head (ft) = Pump Pressure (PSI) * 2.31

Suction Head (ft) = Pump Suction (in-hg.) * 1.13

Total Head (ft) = Return Head + Suction Head

Once you have Total Head, you can look up the GPM on the pump's head curve.


There are a couple of other methods that are a little easier to do but slightly less accurate. For example, you can use the filter pressure gauge to determine return head but then you need to use a slightly different equation to calculate the return head because the gauge is above the pump:

Return Head (ft) = Filter Pressure (PSI) * 2.31 + 3


I can also estimate the flow rate by knowing your pump model, filter pressure and a description of the suction side plumbing (pipe diameter, length and number of runs).

Ah, That makes sense. Thanks.
However, What I'm planning to do is put in a variable speed pump and adjust the pump speed to meet the flow requirements of the solar + filter + piping as built and the flow requirements of the filter + piping (w/o solar). This configuration would also (I'm thinking) allow me to meet the needs of a larger AG or an IG in the future. I realize that available VS pumps are WAY overpowered at full speed, but can be backed down enough for my small pool, and operates efficiently at lower speeds.
+/- 10% of full scale of the flow meter would leave me well within the operating range of the filter and solar.
Am I crazy?

A variable speed pump certainly offers flexibility and allows you to minimize energy costs. However, because of the up front cost, they are not always the most cost effective solution. If you have a small pool and low electrical rates, a two speed will usually have a lower lifetime cost than a VS. With larger pools and high electrical costs, then a variable can make sense.

But again, if you are looking for the flexibility of VS and you don't care as much about lifetime costs, then a VS might be a better solution. If you go that route, you might consider an Intelliflo VF which allows you to directly set the flow rate instead of RPM so you wouldn't need a flow meter. It also has it's own timer settings.

I do like the operating simplicity of the VF. How accurate is it's flow measurement? I presume that it maintains flow by measuring flow and adjusting the speed to maintain flow.
I'm thinking about the Hayward ECO-Star Variable Speed with Safety Vacuum Release System. I believe that I can connect the GoldLine 235 solar control unit directly to the pump to run at pre-defined speed and that I would need a pentair control unit to get the solar control system's signal to the pentair pumps.
Am I wrong?

The VF does not measure flow directly but calculates it from a wattage measurement and an RPM setting. The three parameters of GPM, RPM and Watts have a direct relationship so if you know two, you can determine the third. It is probably much more accurate than any of the other measurement techniques that we have discussed.

As for the control of the pump, you need a Pentair controller if you want full control over the speeds.