• Cubic feet (ft3) - A unit of volume equal to a cube with a dimension of 1 foot on each side. 

• Feet per second (ft/sec, or fps) - A unit used to express the rate of movement. 

• Gallons per day (gpd) - A unit used to describe the discharge or flow past a fixed point during a 24 hour period. 

• Gallons per minute (gpm) - A unit used to describe the discharge or flow past a fixed point during a 1 minute period. 

• Grain (gr) - A unit of weight. 

• Grain per gallon (gpg) - A unit used in reporting water analysis concentrations. 

• Parts per million (ppm) - A unit of proportion equal to 106. 

• Pounds per day (Ib/day) - A unit used to describe the rate at which a chemical is added to water. 

• Square foot (ft2) - A unit of area equal to a square with a dimension of 1 foot on each side. 

• 1 psi (pound per square inch) = 2.31 feet of elevation 

• Minutes in a day = 1,440 

• 1 cubic foot of water = 7.48 gallons 

Weight of 1 cubic foot of water = 62.4 pounds 

Weight of 1 gallon of water = 8.34 pounds 

Liters of water in a gallon = 3.785 

• 1 part per million (ppm) or 1 milligram per liter (mg/L) = 1,000 part per billion (ppb) 

• 1 ppb = 0.001 ppm or 0.001 mg/L 

• II=3.14 

• 1 grain = 17.1 mg/L of hardness 

· 10,000 mg/l = 1% 

AREA: 

Area Formula Example 

Rectangle (Length) x (Width) (35'L) x (12'W) = 420 square feet 

Circle (m) x (radius)2 (3.14) x (20′) x (20′) = 1,256 sq. ft. 

Sphere (surface area) (4) x (m) x (radius)2 (4) x (3.14) × (90')1⁄2= 101,736 sq. ft. Volume: 

Volume Formula Example 

Rectangle (Length) x (Width) x (Height) (80'L) x (25°W) x (10'H) = 20,000 cu. ft. 

Cylinder or Pipe (m) x (radius)2x (Height) (3.14) x (20′) x (20′) x (50') ≈ 62,800 cu. ft. Sphere (4) X (TT) X (radius)2 

Chemical Dosage 

Used to determine how many pounds of chemical to be fed. 

Convert volume of water to Million Gallons by dividing volume of water by 1,000,000. 

MG 

million gallons of water 

mg/l = chemical dosage in milligrams per liter 

8.34 lbs. weight of 1 gallon of water 

(MG) x (8.34) x (mg/l) = pounds of chemical at 100% pure. 

If the chemical is not 100% pure, divide the pounds of chemical by the percentage (in decimal form) of the chemical, 

Solution Mixing 

Used to dilute a strong solution. 

Q 

quantity of strong solution in gallons 

Cs= concentration of strong solution in mg/l or percentage (%) 

Qw= quantity of weak solution in gallons 

Cw= concentration of weak solution in mg/l or % 

Q&Cs = QwCw 

Water Height/Based on Pressure 

Used to calculate level of water in a well or a water tank. 

PSI x 2.31 = Feet of water 

Static level = Measurement from the surface of the water level in a well when the well has been off for approximately 1 hour. 

Pumping level = Measurement from the ground surface to the water level in a well when the well is on and has been pumping for approximately 1 hour. 

Drawdown = The difference between the Static level and the Pumping level (static – pumping) 

Well yield = The gallons per minute (GPM) that the well is producing. 

Specific capacity = GPM divided by the feet of drawdown (GPM / ft. drawdown) 

Pumping Calculations 

A well pumping 400 gallons per minute can pump how many gallons per day? 

(1,440 min./day) x (400 gpm) = 576,000 gallons per day (gpd) 

How many million gallons per day would the above well pump? 

576,000 gpd 

1,000,000 = 0.576 mgd 

How long would it take the above well to fill a 150,000 gallon water tower? 

150,000 gallons 375 min. 

400 gpm = 375 minutes = 60 min./hr. = 6 hrs. 15 min 

Water Main Calculations 

How many gallons of water will it take to fill 1,200 feet of 10-inch water main? 

Volume = (TT) x (radius)zx (Length) 

Note: Diameter = 10 inches, so the radius = 10" / 12" per foot = 0.8333 ft. 

(3.14) x (0.8333 ft.) x (0.8333 ft.) x 1,200 ft. = 2,616 cu. ft. 

2,616 cu. ft. x 7.48 gals. / cu. ft. = 19,568 gals. 

How much more water can an 8-inch water main carry compared to a 6-inch water main? Radius of 8" water main = 8" / 12" per ft. = 0.666 ft. 

Radius of 6" water main = 6" / 12" per ft. = 0.5 ft. 

1 ft. of 8" water main can hold (T) x (radius)2x (Length) (3.14) x (0.666 ft.) x (0.666 ft.) x 1 ft. = 1.39 cu. ft. (ft3) (1.39 ft3) x 7.48 gals./ fts 10.4 gals. 

1 ft. of 6" water main can hold (TT) x (radius)2x (Length) 

(3.14) x (0.5 ft.) x (0.5 ft.) x 1 ft. = 0.785 cu. ft. (ft3) 

(0.785 ft3) x 7.48 gals./ ft3= 5.9 gals. 

The 8" water main can hold 4.5 gals./ft. more water than the 6" water main, or 1.76 times more water. 

How much water must you flow from fire hydrants on an 8-inch water main to get the water within the pipe moving at a rate of 2 feet per second (fps)? 

2 fps x 60 seconds/minute = 120 ft. per minute 

Volume = (m) x (radius)2 x (Length) 

(3.14) x (0.666 ft.) x (0.666 ft.) x (120 ft./min.) = 167.1 ft/min. 

(167.1 ft3/min.) x (7.48 gals./ft3) = 1,250 gpm 

Chemical Calculations 

How much Hydrofluosilicic Acid (fluoride) must be fed to treat 1 million gallons and provide a 1 mg/L  fluoride concentration? 

The formula for hydrofluosilicic acid is H2 Si F6. 

Known: The commercial acid is 23% by weight pure acid and the remainder is water. 

Note: The strength of commercial acid sometimes varies. You need to verify the strength on the label or with your supplier. 

First, find the percent of fluoride in the H2 Si Fe, by adding the relative atomic weights of each element within the compound. 

H = 2 x 1.008 = 2.016 

S = 1x28.0 = 28.09 

F=6x19.00 = 114.00 144.106 

Therefore, H2 Si F6 = 144.106 

To find the percentage of fluoride in the hydrofluosilicic acid (Hz Si Fe): 

Atomic weight of fluoride (F) = 114.00 x 100 = 79.11% 

Atomic weight of H2 Si Fe 144.106 

Since commercial acid is 23% Hz Si F6, and 79.11% of this is pure fluoride, the percent of fluoride in commercial acid is: 

0.23 x 0.7911 x 100 

Chemical formula: 

18.20% 

Flow in Million Gallons (MG) x 8.34 lbs/gal. x mg/L (chemical dosage) = lbs. of chemical 

Strength of chemical 

1 MG x 8.34 x 1 mg/L = 8.34 lbs. = 45.82 lbs of commercial acid required 

.1820 (18.20% written as a decimal) 

A 150,000 gallon elevated storage tank is taken out of service for inspection and interim painting. Prior 

to putting the tank back into service, it is to be disinfected with a 50 mg/l of chlorine solution using HTH 

(70% available chlorine). Determine how many pounds of HTH will be needed to disinfect the tank. 

Volume of water (MG) x 8.34 lbs./gal. x mg/l (dosage) = pounds of HTH 

0.70 (70%) 

150,000 x 8.34 x 50 mg/l = # of HTH 

1,000,000 .70 

0.15 MG x 8.34 x 50 = 62.55 

.70 

89.36 lbs. of HTH will be needed to disinfect the tank. 

Ion Exchange Softening Calculation 

An ion exchange softening plant has three softeners which are each 6 ft. in diameter. The media is 4 ft. 

deep in each unit. The media is rated to remove 20 kilograins per cubic foot. How many gallons of water 

having 380 mg/L hardness can be treated by the units before they need to be regenerated? If the flow 

rate to the softeners is 450 GPM, how long can they run before regeneration is needed? 

Find the bed capacity: 

Bed Volume = (3 units) x (TT) x (radius:) x (depth of media) 

Bed Volume = (3) x (3.14) x (3 ft.) x (3 ft.) x (4 ft.) 

Bed Volume = 339.12 cubic feet (round to 339 ft3) 

(339 ft3) x (20,000 grains) = 6,780,000 grains of bed capacity 

cubic foot 

Then, convert 380 mg/L to grains: 

(380 mg/L) x (1 grain) = 22.2 grains 

17.1 mg/L 

Find the gallons of water treated: 

(1 gallon) x (6,780,000 grains) = 305,405 gallons 

(22.2 grains) 

Find the duration of the filter run: 

(305,405 gallons) x (1 minute) = 679 minutes (or 11 hours and 32 minutes) 

(450 gal.) 

Detention Time Calculation 

Known: A detention basin is 20 ft. x 20 ft. x 16 ft. deep. 

If a 60 minute detention time is required, how many MGD can be treated in the basin? 

Basin Volume = (20 ft.) x (20 ft.) x (16 ft.) x (7.48 gal.) 

(cubic ft.) 

Basin Volume = 47,872 gallons 

Flow Rate = 47,872 gallons = 798 gallons per minute 

60 min. 

Convert 798 gpm to MGD: 

(798 gal.) x (1440 min.) = 1,149,120 gallons per day (or 1.15 MGD) 

min, day 

Filtration Calculation 

A plant has four filters that are each 12 ft. square. If the plant treated 1,640,000 gallons in 24 hours of continuous operation, calculate the average filtration rate. 

Filtration Rate = total gallons treated per unit of time 

total filter surface area 

Filtration Rate = 1,640,000 GPD/1440 minutes per day 

(4) x (12 ft.) x (12 ft.) 

Filtration Rate = 1138.8 GPM (round to 1139) 

576 sq. ft. 

Filtration Rate 1.98 GPM/sq. ft.