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Kilowatts and horse power are both measures of power and they must be multiplied by time to get units of energy. 1 HP is 746 watts, so a 3-HP pump works at 3 x 746 watts, and probably uses about 3 kilowatts of electrical power input. In one hour that is 3 kilowatt-hours, also known as 3 Units. Obviously in 6 hours it would use 18 kWh etc. etc.
The horsepower of the motor is needed to complete this answer.
To calculate the amperage of a motor more information needs to be stated. The voltage, wattage or horsepower are needed and then use this equation I = W/E. Amps = Watts/Volts. For calculation purposes there are 746 watts in one Horsepower.
One watt is 0.001 kilowatt. 65 watts is 0.065 kilowatts. It does not matter what the voltage is - watts are watts.
According to Wiki s.com to convert horsepower to kilowatts you multiple the horsepower by a factor of 0.746. How do you convert horsepower to kilowatts However, you are saying that your 1 HP motor uses 1.84KW instead of 0.746KW which doesn't make sense to me. You will be shocked by how much your electric bill will rise by the use of the pool pump. To figure out how much, find out the Kilowatt (KW) rating of your main pool pump and your pool sweep pump and multiply this by the number of hours each runs. Then multiply this by your electric bill Kilowatt-hour (KWh) rate. For my 16,000 gallon pool which uses a 1 HP motor at 1.84 KW running 8-10 hours per day plus a 0.75 HP motor at 1.495 KW running 3 hours per day for the pool sweep, the cost is $75-$90 per month (at 13 cents per KWh). I have a 15000 gallon pool with a 1 HP motor running 10-12 hours per day. The electric bill is $100-120 per month.
The kilowatts will very depending on the size of the heating element(s) and the size of the pump(s).
Kilowatts and horse power are both measures of power and they must be multiplied by time to get units of energy. 1 HP is 746 watts, so a 3-HP pump works at 3 x 746 watts, and probably uses about 3 kilowatts of electrical power input. In one hour that is 3 kilowatt-hours, also known as 3 Units. Obviously in 6 hours it would use 18 kWh etc. etc.
The brake horsepower varies as a cube of the impeller diameter.
The horsepower of the motor is needed to complete this answer.
To calculate the amperage of a motor more information needs to be stated. The voltage, wattage or horsepower are needed and then use this equation I = W/E. Amps = Watts/Volts. For calculation purposes there are 746 watts in one Horsepower.
One watt is 0.001 kilowatt. 65 watts is 0.065 kilowatts. It does not matter what the voltage is - watts are watts.
No pump, no matter how powerful, can 'suck' more than 10.33 meters of water (29.92 inches of mercury).
The Toyota Turbo diesel engine horsepower can range between 180 horsepower and 350 horsepower. The horsepower can be adjusted by the injector pump.
Lawri unit
Thre's really no way of answering that, as the capacity of bicycle pumps isn't defined. So, you'd have to look at the human powering the bicycle pump. And given that you can only use your arms powering the pump Id say 1 kW tops.
About 171.6 gallons per hour.
According to Wiki s.com to convert horsepower to kilowatts you multiple the horsepower by a factor of 0.746. How do you convert horsepower to kilowatts However, you are saying that your 1 HP motor uses 1.84KW instead of 0.746KW which doesn't make sense to me. You will be shocked by how much your electric bill will rise by the use of the pool pump. To figure out how much, find out the Kilowatt (KW) rating of your main pool pump and your pool sweep pump and multiply this by the number of hours each runs. Then multiply this by your electric bill Kilowatt-hour (KWh) rate. For my 16,000 gallon pool which uses a 1 HP motor at 1.84 KW running 8-10 hours per day plus a 0.75 HP motor at 1.495 KW running 3 hours per day for the pool sweep, the cost is $75-$90 per month (at 13 cents per KWh). I have a 15000 gallon pool with a 1 HP motor running 10-12 hours per day. The electric bill is $100-120 per month.