LaMotte TOTAL & PHENOLPHTHALEIN ALKALINITY TEST KIT 4533-ZEP User Manual

TO TAL & PHENOLPHTHALEIN

AL KA LIN ITY TEST KIT

DROP COUNT METHOD

4533-ZEP

QUANTITY

CONTENTS

CODE

100

BCG-MR Tablets

T-2311-J

15 mL

*Phenolphthalein Indicator, 1%

*2246-E

60 mL

*Alkalinity Titration Reagent B

*4493-H

1

Test Tube, 5-10-15 mL, glass, w/cap

0778

1

Pipet, plain

0352

*WARNING:

Reagents marked with a * are considered hazardous substances.

Material Safety Data Sheets (MSDS) are supplied for these reagents. For your safety
read label and accompanying MSDS before using.
To order individual reagents or test kit components, use the specified code number.

PHENOLPHTHALEIN (P) AL KA LIN ITY PRO CE DURE
1.

Fill the test tube (0778) to the 5 mL line with the sample water.

2.

Add 3 drops of *Phenolphthalein Indicator, 1% (2246). Cap and mix. If
sample turns red, proceed to Step 3. If no red color develops,
P Alkalinity is zero.

3.

Fill pipet (0352) with *Alkalinity Reagent B (4493). Hold pipet vertically.
While gently swirling the tube, add *Alkalinity Reagent B drop by drop until
color changes from red to colorless. Count the drops added. DO NOT
DISCARD SAMPLE IF TESTING TOTAL ALKALINITY.

4.

Calculate results. Record as ppm Phenolphthalein Alkalinity as CaCO

3

.

# of drops in Step 3 x 10 = ppm Phenolphthalein Alkalinity

TO TAL (T) AL KA LIN ITY PRO CE DURE
5.

Add one BCG-MR Tablet (T-2311) to sample from above. Cap and mix until
disintegrated. Sample color will turn green.

6.

Fill pipet (0352) with *Alkalinity Reagent B (4493). Hold pipet vertically.
While gently swirling the tube, add *Alkalinity Reagent B drop by drop until
color changes from green to pink. Count the drops added.

7.

Calculate results. Add to result from Phenolphthalein Alkalinity.
Record result as ppm Total Alkalinity as CaCO

3

.

# of drops in Step 6 x 10 = ppm Alkalinity

If only testing Total Alkalinity, do Steps 1, 5 and 6. Multiply number of
drops used in Step 6 by 10. Record as ppm Total Alkalinity as CaCO

3

.

CAL CU LA TION OF AL KA LIN ITY RE LA TION SHIPS
The results obtained from the Phenolphthalein and Total Alkalinity
determinations offer a means for the stoichiometric classification of
three principal forms of alkalinity present in many water supplies. The
classification attributes the entire alkalinity to bicarbonate, carbonate
and hydroxide, and assumes the absence of other weak acids of inorganic
or organic composition, such as silica, phosphoric, and boric.
This classification system assumes the incompatibility of hydroxide and
bicarbonate alkalinities in the same sample. Since the calculations are
on a stoichiometric basis, ion concentrations in the strictest sense are
not represented in the results.
According to this scheme:
A.

Carbonate Alkalinity is present when Phenolphthalein Alkalinity is
not zero but less than the Total Alkalinity.

B.

Hydroxide Alkalinity is present if Phenolphthalein Alkalinity is
more than one-half the Total Alkalinity.

C.

Bicarbonate Alkalinity is present if Phenolphthalein Alkalinity is
less than one-half the Total Alkalinity.

Mathematical conversion of the result is shown in the following table:

RELATIONSHIP BETWEEN PHENOLPHTHALEIN, TOTAL,

CARBONATE, BICARBONATE & HYDROXIDE ALKALINITY

Result

of Titration

Hydroxide
Alkalinity as

CaCO

3

Carbonate
Alkalinity as

CaCO

3

Bicarbonate
Alkalinity as

CaCO

3

P=0

0

0

T

P<aT

0

2P

T-2P

P=aT

0

2P

0

P>aT

2P-T

2(T-P)

0

P=T

T

0

0

LaMOTTE COM PANY

Helping Peo ple Solve An a lyt i cal Chal lenges

SM

PO Box 329 • Chestertown • Mary land • 21620 • USA

800-344-3100 • 410-778-3100 (Out side USA) • Fax 410-778-6394

Visit us on the web at www.lamotte.com

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