Motor Application Formulas for Efficient Performance and Reliability

Useful Formulas

Motor Application Formulas

Output

Horsepower =	Torque (lb. ft.) x RPM 5250	Kilowatts =	Torque (N·m) x RPM 9550
Torque (lb. ft.) =	Horsepower x 5250 RPM	Torque (N·m) =	Kilowatts x 9550 RPM

Speed – AC Machinery

Synchronous RPM =	120 x Frequency (Hz) Number of Poles
Percent Slip =	Synchronous RPM = Full-Load RPM Synchronous RPM	x100

Time for Motor to Reach Operating Speed (in Seconds)

Seconds =	Wk² (lb. ft.²) x Speed Change (RPM) 308 x Avg. Accelerating Torque (lb. ft.)
Wk² = Inertia of Rotor +	Inertia of Load x Load RPM² Motor RPM²
Average Accelerating Torque =	[(FLT + BDT)/2] + BDT + LRT 3

Where:

BDT = Breakdown Torque
FLT = Full-Load Torque
LRT = Locked-Rotor Torque

Shaft Stress

Where:

D = Shaft Diameter (in or mm)
HP = Motor Output
KW = Motor Output
psi = Pounds Per Square Inch
RPM = Revolutions Per Minute

Centrifugal Applications

Affinity Laws			Fans and Blowers
Flow₁Flow₂	=	RPM₁RPM₂	HP =	CFM x PSF 33000 x Efficiency of Fan
Pres₁Pres₂	=	(RPM₁ )²(RPM ₂) ²	HP =	CFM x PIW 6343 x Efficiency of Fan
HP₁HP₂	=	(RPM₁ )³(RPM ₂) ³	HP =	CFM x PSI 229 x Efficiency of Fan

Where:	Pres = Pressure RPM = Revolutions Per Minute			CFM = Cubic Feet Per Minute PIW = Inches of Water Gauge PSF = Pound Per Square Foot PSI = Pounds Per Square Inch

Pumps

HP =	GPM x FT x Specific Gravity 3960 x Efficiency of Pump	Volume of Liquid in a TankGallons = 5.875 x D² x H1 gallon (US) of water weighs 8.35 lb. Specific gravity of water = 1.0
HP =	GPM x PSI x Specific Gravity 1713 x Efficiency of Pump
Where:	FT = Head in feet* GPM = Gallons per minute PSI = Pounds per square inch
Where:
*Head in feet = 2.31 x pounds per square inch gravity.		Where:	D = Tank diameter (ft) H = Height of liquid (ft)