Pond pumps, pump head, pump power and kinked pipes
Every pond pump driven by electricity is fitted with a motor. The motor is normally rated in watts or kilowatts. This is a measure of the amount of energy the motor can generate at absolute maximum and at 100% efficiency.
Make sure the delivery pipe from the pump is not kinked or is being restricted by a build up of algae inside the pipe.
Have you ever tried carrying a bucket of water up a flight of stairs? It can be a bit tiring. Now try carrying 2 buckets of water up the same stairs and you will feel extra tired ... in this second instance you have used twice as much energy to lift twice as much water to the SAME height.
Let's go back to any pump in a pond environment. Normally you want to pump water up to a waterfall and when you do this you will have noticed the water flow is less than what was coming out at ground or at a lower level. This is because the pump has a motor operating at its maximum operating point. In practical terms this means if you want to lift the water higher than the pond surface then with a fixed amount of energy the pump compensates by reducing the amount of water it can lift.
You can thus see that any pump will share its energy ... some to flow and some to lift. The more the lift the less the flow and vice versa.
Every pump box states MAXIMUM HEAD and MAXIMUM FLOW.
What do these bits of information means and why are they pretty useless bits of information?
MAXIMUM HEAD
The height at which flow STOPS ... eg if this figure is 6 feet then at a height anywhere between 0 and 5.9 feet there will be some, but different amounts of, water flow. However at 6 ft there will be NONE.
MAXIMUM FLOW
This happen at the level of the pond surface and is the flow with no pipe attached to the pump.
As you now understand the energy from a pump's motor is shared between flow (actually mass) of water and the height (head) to which it must be pumped. In a real pond situation it becomes a bit more complicated because when water flows through a pipe, or via a "T" piece, bend, fountain nozzle, or through a valve etc some energy is required to overcome friction losses in these different parts of the system. Once more because the pump's motor (energy output) is fixed it means that the water flow is reduced for any specific height pumped. We refer to these "things" as flow restrictions.
In practice you need to remove or lower the impact of any restrictions to flow. You therefore will get better pump performance if you do the following ...
Use widest diameter pipe you can
Use shortest possible pipe length
Do not kink the pipe (a big problem with thin walled plastic pipe)
Do not use valves, T pieces, Y pieces, sharp bends etc in your pipework if you can avoid it.
Prevent build-up of algae inside the pipe by using NON-transparent piping.
When you use stepped connectors cut off the smaller diameter steps.
To totally and accurately specify a pump you need to know 3 things
1. Volume of water flow required
2. Height to which this flow must be pumped
3. Head (or friction loss) loss due to restrictions in pipe and fittings.
This last component is complex to calculate and this is where you should use my calculator. In a normal situation if you add 20% to the height you want to pump this will normally be safe. You would use this new number .... Actual Height + 20% .... to specify the pump.