Understanding the Relationship Between Horsepower and Speed

Selecting A Replacement Variable Speed Motor By Mandy Pressel, Product Specialist

When replacing a failed pool pump motor, proper selection of the replacement motor is imperative to ensure fit and that it’s capable of carrying the load of the motor it is replacing.  Traditional single-speed induction motors are designed to handle workloads at static motor operating characteristics like speed and horsepower.  Overloading the motor will cause the motor’s thermal protection device to trip, and, if not corrected, will eventually damage the motor.


However, variable speed replacement motors are designed to operate under dynamic conditions, allowing adjustment of motor speed (RPM) to optimize water circulation resulting in greatly reduced energy consumption.  Adjusting the speed of the motor affects other operating aspects of the motor’s operating conditions.  When the speed of a motor is reduced, the horsepower (HP) required to run the pump is reduced as well.  The Pump Affinity Laws state that horsepower will change as the cube of the change in speed.  For instance, a motor operating at 1.25 HP will be reduced to .57 HP when the speed is decreased to 2650 RPM.


Figure 1:  As the speed of the motor decreases, the horsepower required to run the pump decreases





Single-speed pumps typically run at high RPM’s and for longer time periods than necessary, over-circulating water and wasting precious energy and money.  Because variable speed motors are programmable and can be adjusted to lower speeds, the water can be circulated at the minimum turnover rate for water quality.  As motor speed decreases, the flow, in gallons per minute (GPM),is reduced.  This reduction in flow can be resolved by slightly longer programming times.


Figure 2:  As the speed of the motor decreases, the flow decreases




SELECTING THE RIGHT VARIABLE SPEED MOTOR

Variable speed motors come in a variety of sizes and flange configurations. The Century® line of VGreen® Variable Speed Motors is even available in 115 volts with 0.85 total HP, making it a great fit for many residential pool applications.

What if the pool pump requires more than 0.85 HP?  A costly solution would be to rewire the job to 220 volts.  However, a few calculations can demonstrate that a lower HP variable speed motor may satisfy the load requirements along with the circulation needs of the pool.

Here is an example of a 12,000-15,000 gallon pool with 115 volt service.  The failed 1.25 THP motor and a popular pump produced a flow of 75 GPM.  To circulate the pool for the recommended two turnovers, the old motor would need to run for six hours and off for the remaining 18 hours.

When the motor is replaced with a VGreen® 085 variable speed motor with .85 THP, the motor will automatically derate speed, to avoid overloading the motor, to meet the demands of the pump.  In this case, the motor will run at a high speed of 3050 RPM.  As explained earlier, decreasing the speed will also lead to decreased flow.  Running the motor at 3050 RPM will result in the flow decreasing from 75 GPM to 67 GPM.  Programming the VGreen®motor to run at 3050 RPM for two hours and 1300 RPM for eleven hours will result in the same rate of circulation as the old single speed induction motor. 

 




Electrical Service  115 Volt 
Pool Capacity
12,000 Gallons
Recommended Circulation/ Full Turnover
2.25 Times/Day (27,000 gallons/day
Old Motor THP 1.25 THP
Pump Flow (with old motor) 75 GPM
Timer Schedule (with old motor)

6 hours on/18 hours off

6 hours per day * 75 GPM * 60 minutes per hour = 27,000 Gallons per Day

Pump Flow with VGreen 085 motor

67 GPM at 3050 RPM

29 GPM at 1300 RPM

 Timer Schedule (with VGreen 085 motor)

3 hours on 3050 RPM

11 hours on 1300 RPM

2 hours per day * 67 GPM * 60 minutes per hour = 8,040 Gallons per Day

11 hours per day * 29 GPM * 60 minutes per hour = 19,140 Gallons per Day

For a total of 27,180 Gallons per Day




Furthermore, a variable speed motor is dramatically more energy efficient than a single-speed induction motor.  A typical A/C induction motor will operateat around 70% efficiency and use 7.993 kilowatt hours per day.  In contrast, a variable speed ECM motor is 80% efficient running at 3050 RPM and 70%efficient at 1300 RPM, using only 2.400 kilowatt hours per day.  This will result in 75% energy savings for the pool owner


The lower horsepower variable speed motor can deliver the samecirculation performanceof the old motor with higher horsepower without overloading the variable speed motor and with the added benefit of saving 75% on energy costs.  Variable speed motors offer the flexibility ofspeed and time programming to not only meet the circulation demands of the pool but also to operate efficiently and quietly.


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