Centripro, Residential water systems, Terms and usable formulas – Xylem BMAID R4 User Manual

PAGE 45

Residential Water Systems

CentriPro

baSIC formulaS aND SymbolS

Water Horsepower = GPM x 8.33 x Head = GPM x Head

33000 3960

Temperature conversion
DEG. C = (DEG. F – 32) x .555
DEG. F = (DEG. C x 1.8) + 32

Area of a Circle
A = area; C = circumference.
A = π r

2

; π = 3.14

C = 2πr

r

CIRCLE

d

Where:

GPM = Gallons per Minute
8.33 = Pounds of water per gallon
33000 = Ft. Lbs. per minute in one horsepower
Head = Difference in energy head in feet (field head).

Laboratory BHP =

Head x GPM x Sp. Gr.

3960 x Eff.

Field BHP

= Laboratory BHP + Shaft Loss

Total BHP

= Field BHP + Thrust Bearing Loss

Where:

GPM = Gallons per Minute
Head = Lab. Head (including column loss)

Eff. = Lab. Eff. of Pump Bowls

Shaft Loss = HP loss due to mechanical friction of lineshaft bearings
Thrust Bearing Loss = HP Loss in driver thrust bearings

(See (1) below under Misc.)

Input Horsepower = Total BPH

Motor Eff.

Motor Eff. from Motor mfg. (as a decimal)

Field Efficiency = Water Horsepower

Total BHP

Water HP as determined above

Total BHP as determined above

Overall Plant Efficiency = Water Horsepower

Input Horsepower

(See (2) below under Misc.)

Water HP as determined above

Input HP as determined above

Input Horsepower =

BHP

=

4.826 x K x M x R

= 1.732 x E x I x PF

Mot. Eff.

T

746

BHP

= Brake Horsepower as determined above

Mot. Eff. = Rated Motor Efficiency
K

= Power Company Meter Constant

M

= Power Company Meter Multiplier, or Ratio of Current and Potential

Transformers connected with meter

R

= Revolutions of meter disk

T

= Time in Sec. for R

E

= Voltage per Leg applied to motor

I

= Amperes per Leg applied to motor

PF

= Power factor of motor

1.732

= Factor for 3-phase motors. This reduces to 1 for single phase motors

Electrical

Miscellaneous

Kilowatt input to Motor =

.746 x I.H.P. = 1.732 x E x I x PF

1000

KW-Hrs. Per 1000 Gallons of =

HD in ft. x 0.00315

Cold Water Pumped Per Hour

Pump Eff. x Mot. Eff.

(1) Thrust Bearing Loss = .0075 HP per 100 RPM per 1000 lbs. thrust.*
(2) Overall Plant Efficiency sometimes referred to as “Wire to Water” Efficiency
*Thrust (in lbs.) = (thrust constant (k) laboratory head) + (setting in feet x shaft wt. per ft.)

Note: Obtain thrust constant from curve sheets

Discharge Head (in feet of fluid pumped)

= Discharge Pressure (psi) x 2.31

Sp. Gr. of Fluid Pumped

D = diameter
r = radius

tErmS aND uSablE formulaS