Wednesday, 9 September 2015

METHODS OF SAMPLING AND TESTS (PHYSICAL AND CHEMICAL) FOR WATER AND WASTE WATER PART 50 JAR TEST (COAGULATION TEST)

PREAMBLE (NOT PART OF THE STANDARD)

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END OF PREAMBLE (NOT PART OF THE STANDARD)

IS 3025 (Part 50) : 2001
(Reaffirmed 2006)

Indian Standard
METHODS OF SAMPLING AND TESTS (PHYSICAL AND CHEMICAL) FOR WATER AND WASTE WATER
PART 50 JAR TEST (COAGULATION TEST)

(First Revision)
Second Reprint SEPTEMER 2007
ICS 13.060.50; 13.060.60
© BIS 2001
BUREAU OF INDIAN STANDARDS
MANAK BHAVAN, 9 BAHADUR SHAH ZAFAR MARG
NEW DELHI 110002
March 2001
Price Group 3
i Water Environment Protection Sectional Committee, CHD 12

FOREWORD

This Indian Standard (Part 50) (First Revision) was adopted by the Bureau of Indian Standards, after the draft finalized by the Water Environment Protection Sectional Committee had been approved by the Chemical Division Council.
The impirical procedure is used to determine the optimum dosage of coagulants and/or coagulant aids and pH of coagulation for a given water or wastewater for removal of turbidity, colour, dissolved minerals, phosphorus, etc.
These data can not be quantitatively obtained from a theoretical understanding of the problem and analysis of water or wastewater. During operation of a treatment unit, it is essential to perform jar test as often as necessitated by changes in composition of wastewater.
The technical committee responsible for formulation of IS 3025 : 1964 ‘Methods of sampling and test (physical and chemical) for water used in industry’ had decided to revise the standard and publish it in separate parts. This test method is one among the different parts being published under IS 3025 series of standards.
The composition of the committee responsible for preparation of this standard is given in Annex C.
In reporting the result of a test or analysis made in accordance with this standard if the final value, observed or calculated, is to be rounded off, it shall be done in accordance with IS 2 : 1960 ‘Rules for rounding off numerical values (revised)’.
ii
Indian Standard
METHODS OF SAMPLING AND TESTS (PHYSICAL AND CHEMICAL) FOR WATER AND WASTE WATER
PART 50 JAR TEST (COAGULATION TEST)
(First Revision)

1 SCOPE

This standard prescribes the method of determining optimum dosage of coagulants (single/mixed) coagulant aids and the optimum pH of coagulation for removal of turbidity and colour caused by colloidal and non-settleable particles followed by sedimentation under quiescent condition.

2 REFERENCES

The Indian Standards listed in Annex A contain provisions which through reference in this text, constitute provision of this standard. At the time of publication, the editions indicated were valid. All standards are subject to revision and parties to agreements based on this standard are encouraged to investigate the possibility of applying the most recent editions of the standards.

3 TERMINOLOGY

For the purpose of this standard, the definitions given in IS 7022 (Part 1) and 7022 (Part 2) shall apply.

4 OPERATING VARIABLES

4.1

The following primary variables are required to be investigated.

4.1.1 Chemical Additives

4.1.2 Temperature

4.1.3 pH

4.1.4 Order of Addition and Mixing Conditions

5 INTERFERENCES

5.1

The possible interference of optimum jar test conditions are as given below.

5.1.1 Temperature Change

Temperature control is very important since thermal and convection currents may occur during the test which interferes with the setting of coagulated particles.

5.1.2 Release of Gases

Due to chemical reaction, mechanical agitator or temperature increase, there may be some gas release due to which coagulated flocs may float.

5.1.3 Testing Period

Biological activity or other factors may alter the coagulation charateristics of water on prolonged standing. To control this the sampling and testing period should be kept as minimum as possible and time shall be recorded.

6 APPARATUS

6.1 Multiple Stirrer

6.1.1

A multiple stirrer with continuous speed variation from 20 to 150 rpm shall be used (see Fig 1).

6.1.2

The stirring paddles shall be light, non-corrosive and having same configuration. An illuminated base is advisable to see the floc formation clearly. At the same time, it is to be noted that the illumination will not contribute any heat to the system, since heat can counteract on normal settling tendencies.
NOTE—The maintenance of constant and reproducible stirring condition is of prime importance in coagulation test. The basic requirement is for maintaining two speeds of stirring, a fast speed for initial addition and mixing (flash mix 30 seconds) of coagulant and a slow speed capable of promoting efficient flocculation (20 minutes). A stirring speed of about 200 rpm is found to give adequate mixing and a speed of 20 rpm for satisfactory flocculation for a wide range of wastewaters.

6.2 Other Equipments

6.2.1 Beakers or Jars—1 000 ml capacity.

6.2.2 Stop Watch

6.2.3 pH Meter

6.2.4 Turbidity Meter

7 REAGENTS

7.1 Quality of Reagents

Unless specified otherwise, pure chemicals and distilled water (see IS 1070) shall be employed in tests.
NOTE—‘Pure chemicals’ shall mean chemicals that do not contain impurities which affect the results of analysis.
1 FIG. 1 BEAKER/JAR TEST APPARATUS
Fig. 1 Beaker/Jar Test Apparatus

7.2 Chemical Solutions

7.2.1

Stock solutions of coagulants, coagulant aids and other chemicals (see Annex B, for information) shall be prepared at concentrations such that quantities suitable for use in jar test can be measured accurately and with ease (see Table 1).
Table 1 Stock Solutions for Coagulation Test
Chemicals Concentrations of Stock Solution of Suspension Prepare Fresh Solution After Remarks
(1) (2) (3) (4)
Aluminium sulphate [Al2(SO4)3.16H2O] 1% (0.08%) Aluminium 1 month
Ferric sulphate [Fe2(SO4)3.9H2O] 1% (0.2%) Iron 1 week Renew stock solution, if it becomes opalescent
Soluble starch 0.5 % 2 days Dilute 10 times immediately before use
Polyacrylamide derivatives 0.5 % 1 week Solution should be at least 1 day old. Dilute 10 times immediately, before use
Sulphuric acid (H2SO4) 0.1 N 3 months
Sodium hydroxide (NaOH) 0.1 N 1 month
Fullers earth 0.5% 3 months Shake well, before use

7.2.2

The volume of an 5% stock solution required to be added to a dose of d mg/l to a volume V ml of sample is: 10 × V × d ml. Coagulant aids are available in powder and liquid form. When powder aids are used for making reagents, care should be taken to add the powder to the distilled water and not in reversed order. The dissolution time may vary from several minutes to several hours. For this, the manufacturer’s instructions should be strictly followed.

8 SAMPLING

Sampling shall be done in accordance with IS 3025 (Part 1).

9 PROCEDURE

9.1

Collect 10 litres of sample to be tested and store it (preferably) in a 10 litre polyethylene aspirator. Before taking sample for test, put the aspirator on its aids and roll it backward and forward vigorously to make it homogeneous.

9.2

Using 1 000 ml, measuring cylinder, measure 800 ml sample into 1 000 ml tall form beakers and place them in position in multiple stirrer, taking care to keep a minimum of 5 mm gap between the stirrer blade and the inner surface of the beaker.

9.3

Take a further 250 ml of sample and determine its pH, turbidity and colour.

9.4

Transfer the required volumes of coagulant into the coagulant vessels using a graduated pipette of 10 ml.

9.5

Switch the stirrer on to fast, measure the temperature in one of the beaker and add coagulant after stirring vigorously for at least one minute. Start
2 the stop watch on adding the coagulant. Quickly rinse the coagulant vessels with distilled water and add the rinsings to the beakers.

9.6

One minute after adding the coagulant switch the stirrer to slow and observe beakers carefully, noting the time taken for pin-point (just visible) floc to appear in each beaker.

9.7

After 15 minutes of slow stirring switch off the stirrer and carefully remove the beakers from the stirring apparatus. Allow them to stand for 15 minutes then carefully decant 150 to 200 ml of supernatant from each beaker in clean beaker or flask. A decanted sample is nearly always satisfactory but occasionally it may be found to have small amount of floc that tends to float. In such situation collect supernatant sample at a depth of 30-40 mm using glass syphon.

9.8

Mix samples prior to turbidity measurement [see IS 3025 (Part 10) :1984]. Measure the colour [see IS 3025 (Part 4) : 1983] turbidity and pH [see IS 3025 (Part 11) : 1983] of the samples within 3 hours and tabulate results.

9.9

Repeat these steps with different concentration of chemicals, different flash mix speed and different settling time to arive at the optimum conditions. Optional pH, if not already known, for the coagulants of interest, may be determined by conducting test at various pH.

10 REPRODUCIBILITY

To demonstrate reproducibility duplicate set of three each jars 1 and 4, 2 and 5 and 3 and 6 are treated simultaneously and compared.

11 REPORTING

Record the data in the following manner and report the optimum values:
Sample..........................pH...................Date..............
Location...............Colour...............Temperature.........
Sample Size........................
              1 2 3 4 5 6
Chemical, mg/l
Flash mix time, minutes
Slow mix speed, rpm
Slow mix time, minutes
Temperature, °C
Time of first floc
   formulation, minutes
Setting rate
Turbidity, NTU
Colour
pH
NOTES
  1. Test for residual chemicals in the treated water may also be conducted apart from normal parameters.
  2. The times given are illustrative only. The speed of the mix and time may be altered as per specific conditions.

ANNEX A
LIST OF REFFERED INDIAN STANDARDS

(Clause 2)
IS No. Title
1070 : 1992 Reagent grade water—Specification (first revision)
3025 Methods of sampling and tests (physical and chemical) for water and wastewater
(Part 1) : 1986 Sampling (third revision)
(Part 4) : 1983 Colour (first revision)
(Part 10) : 1984 Turbidity (first revision)
(Part 11) : 1983 pH value (first revision)
(Part 21) : 1983 Total hardness (first revision)
7022 (Part 1) : 1973 Glossary of terms relating to water, sewage and industrial effluents and wastewater, Part 1
7022 (Part 2) : 1979 Glossary of terms relating to water, sewage and industrial effluents and waste water, Part 2
3

ANNEX B
LIST OF COAGULANTS, COAGULANTS AIDS AND OTHER CHEMICALS

(Clause 7.2.1)

B-1 PRIME COAGULANTS

  1. Aluminium sulphate [Al2(SO4)3.16 H2O]
  2. Ferric sulphate [Fe2(SO4)3.9 H2O]
  3. Ferric chloride (FeCl3.6 H2O)
  4. Ferric sulphate (FeSO4.7 H2O)
  5. Magnesium carbonate (MgCO3.3 H2O)
  6. Sodium alumnate (NaAlO2)

B-2 COAGULANT AIDS

  1. Activated silica
  2. Anionic poly electrolytes
  3. Cationic poly electrolytes
  4. Nonionic polymer

B-3 OXIDISING AGENTS

  1. Chlorine (Cl2)
  2. Chlorine dioxide (ClO2)
  3. Potassium permanganate (KMnO4)
  4. Calcium hypochlorite (CaOCl2.4 H2O)
  5. Sodium hypochlorite (NaOCl)

B-4 ALKALIES

  1. Calcium carbonate (CaCO3)
  2. Dolomitic lime (50 percent CaO, 40 percent MgO)
  3. Hydrated lime [Ca(OH)2]
  4. Magnesium oxide (MgO)
  5. Sodium carbonate (Na2CO3)
  6. Sodium hydroxide (NaOH)

B-5 WETTING AGENTS

  1. Bentonite
  2. Kaolin
  3. Other clays and minerals

B-6 OTHER CHEMICAL

Activated carbon (powdered)

ANNEX C
COMMITTEE COMPOSITION

(Foreword)
Water Environment Protection Sectional Committee, CHD 12
Chairman Representing
Shri D. K. Biswas Central Pollution Control Board, Delhi
Members  
Dr P. K. Mathur Bhabha Atomic Research Centre, Mumbai
     Dr T. N. Mahadaven (Alternate)
Shri Imranur Rahman Central Mechnical Engineering Research institute, Durgapur
     Shri B. Ruj (Alternate)
Shri A. K. Gupta Bharat Heavy Electricals Ltd, Haridwar
     Shri N. G. Srivastava (Alternate)
Dr P. S. Ramanathan Gharda Chemicals Ltd, Maharashtra
     Dr S. R. Jakali (Alternate)
Shri R. A. Ramanujam Central Leather Research Institute, Chennai
     Shri N. Samivelu (Alternate)
Shri S. K. Jain Department of industrial Development, Ministry of Industry, Govt of India, New Delhi
Shri Anil Jain Engineers India Ltd, Gurgaon
Dr (Ms) B. Swaminathan The Fertilisers Association of India, New Delhi
     Dr S. Nand (Alternate) 4
Dr S. D. Machijani Central Pollution Control Board, Delhi
     Dr R. C. Trivedi (Alternate)
Shri Satinder Kumar Mehra ABB Alstom Power India Ltd, West Bengal
     Shri Subrato Kumar Basu (Alternate)
Shri Bakul B. Dave Hindustan Lever Ltd, Mumbai
     Shri U. P. Singh (Alternate)
Dr Anil Bhasker ICMA, Mumbai
     Shri B. B. Narnla (Alternate)
Dr K. R. P. Singh Industrial Toxicology Research Centre, Lucknow
     Dr Krishna Gopal (Alternate)
Shri M. N. Vyas Indian Petro Chemicals Corpn Ltd, Vadodra, Gujarat
     Dr J. D. Desai (Alternate)
Dr V.K. Verma Shriram Institute for Industrial Research, Delhi
     Shri M. S. Dhingra (Alternate)
Dr M. P. Singh Indian Oil Corporation Ltd, Faridabad
     Dr A. S. Mathur (Alternate)
Dr P. S. Minhas Central soil Salinity Research Institute, Kamal
Shri P. M. Khanderia Tata Chemicals Ltd, Gujarat
     Shri J. M. Khan (Alternate)
Shri Sunil Sachdeva Thermax Limited, Pune
     Shri S. S. Basargekar (Altermate)
Shri A. K. Jindal Thermax Fuji Electric Ltd, Pune
Dr S. K. Ghosh National Institute of Occupational Health, Ahmedabad
Shri S. B. Sahay National Thermal Power Corpn Ltd, West Bengal
     Shri R. L. Srivastava (Alternate)
Shri S.M. Shingote National Council for Cement and Building Materials, New Delhi
     Shri V. P. Chatterjee (Alternate)
Dr G. K. Gureja Thermax Limited (CII), Pune
     Shri S. K. Chopra (Alternate)
Dr S. K. Kapoor DRDO, New Delhi
     Dr (Shrimati) Kshipra Mishra (Alternate)
Shri M. R. Rajput Regional Labour Institute, Kanpur
     Dr S. N. Banerjee (Alternate)
Shri D. K. Dua Punjab Pollution Control Board, Punjab
     Dr (Shrimati) H. K. Parwana (Alternate)
Representative The Dharamsi Morarji Chemical Co Ltd, Mumbai
Representative Indian Meteorological Department, Safdarjung Airport, New Delhi
Dr Dipak Chakraborty West Bengal Pollution Control Board, Calcutta
     Dr Ujjal Mukherjee (Alternate)
Representative Maharashtra State Pollution Central Board, Mumbai
Shri S. Balakrishnan Tamil Nadu Pollution Control Board, Chennai
Shri A. K. Saxena National Productivity Council, New Delhi
     Shri M.A. Patil (Alternate)
Reprsentative Department of Rural Development, New Delhi
Representative Panchayat Raj Department, Hyderabad
Dr CM. Agrawal Directorate General of Health Services, New Delhi
Shri Ashok Bhatia Min of Environment & Forests, New Delhi
Dr S. P. Pande Water Technology Engineering Div, Nagpur
Representative RDSO, Ministry of Railway, Lucknow
Shri A. K. Dey Central Fuel Research Institute, Dhanbad
Shri M. M. Malhotra, Director (Chem) Director General, BIS (Ex-officio Member)
Member-Secretary
Dr R.K. Singh
Addl Director (Chem), BIS

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