FLUORIDE POLLUTION AND IT'S REMEDIES - PowerPoint PPT Presentation

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Title: FLUORIDE POLLUTION AND IT'S REMEDIES


1
  • CL312 ENVIRONMENTAL ENGINEERING-I

CHANDUBHAI.S.PATEL INSTITUTE OF
TECHNOLOGY TOPIC - FLUORIDE POLLUTION AND ITS
REMEDIAL MEASURES
Faculty of Technology Engineering
(CSPIT) Dept. of Civil engineering
2
  • CL312 ENVIRONMENTAL ENGINEERING-I

GUIDED BY SHWETA SHARMA MITALI VEDANTI

SUBMITTED BY GAJERA VAIDIK-D15CL155 RADH
ANPURI SADAB-D15CL156 PRAJAPATI NIRAV-D15CL157
3
  • CL312 ENVIRONMENTAL ENGINEERING-I
  • Fluoride Is The 13th Most Abundant Naturally
    Occurring Element In The Earths Crust. Which Has
    Been Found By Henri Moissan In 1886.
  • The Concentration Of Fluoride In Water Is
    Directly Proportional To The Degree Of Fluorosis.
  • Enamel Mottling Is Widespread In Area With Water
    Having Fluoride Content Of 3 Ppm.
  • The Highest Fluoride Concentration Ever Found In
    Natural Water Was 2800 Mg/L, Recorded In Lake
    Nakuru In The Rift Valley In Kenya.
  • 19 states in India have groundwater that is rich
    in fluoride
  • By UNICEF and WHO.

4
  • CL312 ENVIRONMENTAL ENGINEERING-I

The main fluoride bearing areas are Gujrat,
Rajasthan, Andrha Pradesh where about 50 to 100
of districts are affected.
5
  • CL312 ENVIRONMENTAL ENGINEERING-I
  • SOURCES OF FLUORIDE
  • Major source is from

    fluoride in vegetation

    water artesian wells.

6
Fluoride In Soils
Fluoride In Humans
cryolite
7
  • Natural Disaster

    Anthropogenic Sources

Forest fire
Volcanic disaster
8
  • CL312 ENVIRONMENTAL ENGINEERING-I

Uses of Fluoride
  • Hydrogen fluoride is used
  • In Aluminium production
  • In Chlorofluorocarbon (CFCs) production
  • In the production of aluminium fluoride, sodium
    fluoride and other fluoride salts.
  • Petroleum, chemical, and plastics industries.
  • To clean metals, bricks, or remove sand from
    metal castings.
  • To enamel, polish glass and galvanize iron.

9
  • CL312 ENVIRONMENTAL ENGINEERING-I

Point Sources of Fluoride
  • The primary sources of fluoride emissions are the
    industries that
  • manufacture it or use it in production
  • Aluminium industry,
  • Oil drilling and refining,
  • Chemical and plastics industries,
  • Agricultural and pesticide chemical
    manufacturers,
  • Dye manufacturers,
  • Manufacturers of metal parts.

10
  • Consumer products

Toothpaste, pesticides, ceramic and glass
polishing and frosting materials, special dyes,
drinking water in some areas may be naturally or
artificially enriched in fluoride.
11
Fluoride Cycle
  • When fluoride is emitted to the air as a gas or
    particulate it may be carried by the wind and
    deposited on surrounding vegetation and soil. The
    gas dissolves in clouds, fog, rain, or snow. This
    impacts the environment as wet acid deposition
    ('acid rain'). In the environment it will react
    with other chemicals present (ammonia, magnesium,
    calcium) to form salts, neutralising the acid.
  • Industrial emissions of fluoride compounds can
    produce elevated concentrations in the
    atmosphere. Hydrogen fluoride will exist as a
    particle, which may dissolve in clouds, fog,
    rain, dew, or snow. In clouds and moist air it
    will travel along the air currents until it is
    deposited as wet acid deposition (acid rain, acid
    fog, etc). In waterways it rapidly mixes with the
    water.

12
  • Fluoride Pollution
  • Hydrogen fluoride dissolves in water
  • to make hydrofluoric acid. Hydrogen
  • fluoride will corrode most substances
  • except lead, wax, polyethylene,
  • and platinum.
  • Hydrogen fluoride is used to
  • manufacture other fluorine-based
  • chemicals including Sodium fluoride,
  • which is a white powder, although
  • sometimes it is dyed blue for
  • identification purposes.

13
  • EFFECTS OF FLUORIDE POLLUTION
  • Low levels of fluoride in drinking water (0.5 to
    1 mg/l) protect against dental caries
  • High levels of fluoride in drinking water (above
    1.5 mg/l) will lead to adverse health impacts
    ranging from dental fluorosis to skeletal
    fluorosis
  • Fluoride levels in water beyond desirable /
    permissible limits is typically found in
    groundwater and not surface water.
  • Skeletal Fluorosis

Dental Fluorosis
14
  • WATER FLUORIDATION
  • Water fluoridation is the process of adding
  • fluoride to the water supply so the level
  • reaches approximately 0.7 ppm, or 0.7
  • milligrams of fluoride per liter of
  • water this is the optimal level for
  • preventing tooth decay.
  • Fluoridation is a safe, effective, and economical
  • process endorsed by the American Dental
  • Association, the American Water Works
    Association, and public health groups worldwide.
  • Small amounts of fluoride are present naturally
    in all water sources.
  • Water fluoridation is the precise adjustment of
    the natural fluoride concentration in a public
    water supply up to the level recommended for
    preventing tooth decay.

15
  • DEFLUORIDATION
  • The process of water treatment that reduce the
    concentration of fluoride in the water, in order
    to make it safe for human consumption is
    DEFLUORIDATION.
  • BASIC REQUIREMENTS
  • Modest investment
  • Low maintenance cost
  • Simple design
  • Operable by villagers
  • Able to reduce fluoride content, e.g. from 5 to
    0.5 mg/L

16
  • REMEDIAL MEASURES METHODS FOR FLUORIDATION
  • Nalgonda technique of defluoridation.
  • it was developed by NEERI at Nagpur in 1974.The
    process comprises addition in sequence of sodium
    aluminate (filter lime ), lime bleaching powder
    to the fluoride water followed by flocculation,
    sedmentation, filtration.
  • MECHANISM
  • The unit holds 22L OF WATER ,which filter into
    upper chamber.

17
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18
  • Operation maintenance of Nalgonda technique
  • Fill 22 L of test water in the upper chamber.
  • Add the required dose of Aluminium salt solution.
  • mix it rapidly for a period for 30-60 sec with a
    speed of 10-20 rpm.
  • With he help of chemical a tiny Floc are formed.
  • Then mix for a period of 10-15 min with a speed
    of 2-4rpm.
  • Factors that influence sedimentation are
  • Size, shape, density, nature of the particles.
  • Viscosity, density, temp of water.
  • Surface over flow rate.
  • Velocity of water.
  • Effective depth of settling water.

19
Salient features of Nalgonda technique
20
  • Reverse Osmosis and Electro dialysis
  • In reverse osmosis, the hydraulic pressure is
    exerted on one side of the semi permeable
    membrane which forces the water across the
    membrane leaving the salts behind.
  • In electro dialysis, the membranes allow the ions
    to pass but not the water. The driving force is
    an electric current which carries the ions
    through the membranes
  • Electro dialysis is highly energy intensive and
    expensive. Both processes are very complicated
  • Defluoridation by electrolysis
  • The basic principle of the process is the
    adsorption of fluoride with freshly precipitated
    aluminum hydroxide, which is generated by the
    anodic dissolution of aluminum or its alloys in
    an electro chemical cell.

21
  • CASE STUDY
  • DEVELOPMENT OF DEFLUORIDATION PLATS ON INDIA
  • Household Chemo-defluoridation Unit
  1. https//www.youtube.com/watch?vgKWiGikB2M8
  2. http//www.neeri.res.in/content/household-chemo-de
    fluoridation-unitoverlay-contextcontent/househol
    d-chemo-defluoridation-unit

22
  • Electrolytic Defluoridation (EDF) Technique

23
  • THANK YOU
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