This document provides an introduction to water pollution parameters. It discusses sources of water pollution including point sources like factories and non-point sources like agricultural fields. It also covers water quality issues in India like seasonal variations and pollution from industrial and domestic activities. The document outlines major categories of water pollution such as infectious agents, organic chemicals, inorganic chemicals, and discusses their sources and harmful effects.
INTRODUCTION TO WATER POLLUTION PARAMETERS -CONCEPT, OBJECTIVES AND NEED OF WATER QUALITY MONITORING, SAMPLING AND ANALYSIS
1. INTRODUCTION TO WATER PPOOLLLLUUTTIIOONN PPAARRAAMMEETTEERRSS
--CCOONNCCEEPPTT,, OOBBJJEECCTTIIVVEESS AANNDD NNEEEEDD OOFF WWAATTEERR
QQUUAALLIITTYY MMOONNIITTOORRIINNGG,, SSAAMMPPLLIINNGG AANNDD AANNAALLYYSSIISS
INDRODUCTION TO WATER
POLLUTION PARAMETER
DR. I.D. MALL
Department of Chemical Engg.
Indian Institute of Technology, Roorkee
Roorkee- 247667
3. WATER IS LIFE IT
STARTS WITH
WATER AND ENDS
WITH WATER.
INDRODUCTION TO WATER
POLLUTION PARAMETER
4. WWAATTEERR IINN AANNCCIIEENNTT IINNDDIIAA
Water is not lost in undergoing various processes of
hydrological cycle namely, evaporation, condensation,
rainfall, stream-flow etc., but gets converted from one form
to another was known during the Vedic period.
Water intake by plants, division of water into minute
particles by sun rays and wind, different types of clouds,
their heights, their rainfall capacities etc., along with the
prediction of rain-fall quantity in advance by observation of
natural phenomenon is illustrated Puranas, Vrahat Samhita
(550 A.D), Meghmala (900 A.D.) and other literature.
INDRODUCTION TO WATER
POLLUTION PARAMETER
5. WWAATTEERR IINN AANNCCIIEENNTT IINNDDIIAA
• The reference of rain-gauges are available in
Arthasastra of Kautilya (400 B.C), and Astadhyayi of
Panini (700 B.C).
• The quantity of rain-fall in various parts of India was
also known to Kautilya. Indians were acquainted
with the cyclonic and orographic effects on rain-fall,
radiation and convectional heating of earth.
• Various other phenomena of infiltration,
interception, stream-flow, geomorphology, artesian
wells and erosive action of water were well
understood.
INDRODUCTION TO WATER
POLLUTION PARAMETER
6. WWAATTEERR IINN AANNCCIIEENNTT IINNDDIIAA
Ground-water development and quality
consideration were getting sufficient attention as
evidenced by Vrahat Samhita (550 A. D.)
Water management and conservation, well organized
water pricing system in 400 B.C.
Construction methods and materials of dam, tanks
etc., bank protection, spillways and other
considerations mentioned in the ancient books
reflect the high stage of development of water
resources and hydrology in ancient India.
INDRODUCTION TO WATER
POLLUTION PARAMETER
7. IINNTTRROODDUUCCTTIIOONN
• It is no accident that Earth is often referred to as `the
water planet'. Earth is unique amongst planets of our
solar system largely because of its abundant water -
in oceans, in the atmosphere, in glaciers and as
fresh water on land. Without water, life as we know
it, could not exist.
• Even though water is abundant, the amount of
potable fresh water available is a tiny fraction of the
total amount of water in the world. The vast majority
of the world's water is in the oceans, but because of
the salts in ocean water it is largely unsuitable for
use. The supply of fresh water is limited, vulnerable
to human abuse and not evenly distributed in both
time and space.
INDRODUCTION TO WATER
POLLUTION PARAMETER
8. IINNTTRROODDUUCCTTIIOONN
• World oceans cover about three fourth of
earth’s surface. According to the UN
estimates, the total amount of water on earth
is about 1400 million cubic kilometre
(m.cu.km.) which is enough to cover the
earth with a layer of 3000 metres depth.
However the fresh water constitutes a very
small proportion of this enormous quantity.
INDRODUCTION TO WATER
POLLUTION PARAMETER
9. IINNTTRROODDUUCCTTIIOONN
• About 2.7 per cent of the total water available on the
earth is fresh water of which about 75.2 per cent lies
frozen in polar regions and another 22.6 per cent is
present as ground water. The rest is available in
lakes, rivers, atmosphere, moisture, soil and
vegetation. What is effectively available for
consumption and other uses is a small proportion of
the quantity available in rivers, lakes and ground
water.
INDRODUCTION TO WATER
POLLUTION PARAMETER
11. GGLLOOBBAALL WWAATTEERR CCRRIISSIISS
• The dawning of the 21st Century brings with
it a global water crisis. If we continue
business as usual (increasing population,
water usage, pollution and wastage) it is
estimated that by the year 2030 the global
water demand for freshwater will exceed the
supply. Currently more than one-third of the
world's population experiences serious water
problems and polluted water sickens more
than 1 billion people each year. (UNESCO
Sources No 84, November 1996).
INDRODUCTION TO WATER
POLLUTION PARAMETER
12. IINNDDIIAANN WWAATTEERR CCRRIISSIISS
• India has 2.45 % of the world's
land area, 16 % of the population
and 4 % of its water resources -
yet water is an increasingly
scarce resource, unless we learn
to manage it better.
INDRODUCTION TO WATER
POLLUTION PARAMETER
14. WWHHAATT IISS WWAATTEERR PPOOLLLLUUTTIIOONN
Any physical, biological, or chemical change in
water quality that adversely affects living
organisms can be considered pollution.
– Point Sources - Discharge pollution from specific
locations.
• Factories, Power plants
– Non-Point Sources - Scattered or diffuse, having no
specific location of discharge.
• Agricultural fields, Feedlots.
Atmospheric Deposition - Contaminants carried
by air currents and precipitated into watersheds
or directly onto surface waters.
INDRODUCTION TO WATER
POLLUTION PARAMETER
15. IIDDEENNTTIIFFYYIINNGG SSOOUURRCCEESS OOFF WWAATTEERR
INDRODUCTION TO WATER
POLLUTION PARAMETER
PPOOLLLLUUTTIIOONN
Point Sources
Specific discharge locations
Nonpoint sources
not traceable to any specific location
Biological oxygen
demand
amount of O2 needed to break
down organic materials
Water
Do (ppm) at 20˚C
Quality
Good 8-9
Slightly
polluted
Moderately
polluted
Heavily
polluted
Gravely
polluted
6.7-8
4.5-6.7
Below 4.5
Below 4 Fig. 19.2, p. 478
17. • Poor water quality continues to pose a
major threat to human health. Diarrhoeal
disease alone amounts to an estimated
4.3 % (62.5 million Daily) of the total Daily
global burden of disease (WHO, 2002). It
was estimated that 88% of that burden is
attributable to
unsafe water supply, sanitation and hygiene
and is mostly concentrated on children in
developing countries.
INDRODUCTION TO WATER
POLLUTION PARAMETER
18. WWaatteerr QQuuaalliittyy IIssssuueess
• Seasonal variations
• Hydrogeological
processes
• Discharge rate
affecting the quality
• Pollution due to
Industrial, domestic
and industrial activities
• Eutrophication in
surface water
• Sea water intrusion
INDRODUCTION TO WATER
POLLUTION PARAMETER
• Sand quarrying in river
beds
• Corrosion and scale
formation in
distribution lines
• Inadequacies in
Treatment processes
• Inadequate care in
distribution practices
• Lack of good sanitation
practices
• Inadequate laws and
legislations
20. FFEECCAALL CCOOLLIIFFOORRMM SSOOUURRCCEESS
Point Sources
INDRODUCTION TO WATER
POLLUTION PARAMETER
Agricultural
Nonpoint Source
Forest
Nonpoint Source
Urban
Nonpoint Source
Septic Systems
21. PPoolllluuttiioonn ooff SSttrreeaammss
Oxygen sag curve
CClleeaann ZZoonnee DDeeccoommppoossiittiioonn
TTyyppeess ooff
oorrggaanniissmmss
INDRODUCTION TO WATER
POLLUTION PARAMETER
ZZoonnee
SSeeppttiicc ZZoonnee RReeccoovveerryy ZZoonnee CClleeaann ZZoonnee
Normal clean water organisms
(Trout, perch, bass,
mayfly, stonefly)
Trash fish
(carp, gar,
Leeches)
Fish absent, fungi,
Sludge worms,
bacteria
(anaerobic)
Trash fish
(carp, gar,
Leeches)
Normal clean water organisms
(Trout, perch, bass,
mayfly, stonefly)
8 ppm
Dissolved oxygen
Biological oxygen
demand
Oxygen sag
2 ppm
8 ppm
CCoonncceennttrraattiioonn
TTiimmee oorr ddiissttaannccee ddoowwnnssttrreeaamm
Direction of flow
Point of waste or
heat discharge
Fig. 19.3, p. 479
22. PPoolllluuttiioonn ooff LLaakkeess
EEuuttrroopphhiiccaattiioonn
aallggaall bblloooommss
SSllooww
ttuurrnnoovveerr
11--110000 yyrrss ttoo fflluusshh
TThheerrmmaall
ssttrraattiiffiiccaattiioonn
lliittttllee//nnoo mmiixxiinngg
INDRODUCTION TO WATER
POLLUTION PARAMETER
Discharge of untreated
municipal sewage
(nitrates and phosphates)
Nitrogen compounds
produced by cars
and factories
Discharge of
detergents
( phosphates)
Discharge of treated
municipal sewage
(primary and secondary
treatment:
nitrates and phosphates)
Natural runoff
(nitrates and
phosphates
Manure runoff
From feedlots
(nitrates and
Phosphates,
ammonia)
Dissolving of
nitrogen oxides
(from internal combustion
engines and furnaces)
Runoff from streets,
lawns, and construction
lots (nitrates and
phosphates)
Runoff and erosion
(from from cultivation,
mining, construction,
and poor land use)
Lake ecosystem
nutrient overload
and breakdown of
chemical cycling
25. Groundwater PPoolllluuttiioonn:: SSoouurrcceess
LLooww ffllooww rraatteess
FFeeww
bbaacctteerriiaa
INDRODUCTION TO WATER
POLLUTION PARAMETER
CCoolldd tteemmppeerraattuurreess:: ssllooww
ddoowwnn rreeaaccttiioonnss
Waste lagoon,
pond, or basin
Mining
site
Pumping
well
Water
pumping
well
Sewer
Hazardous
waste
injection
well
Buried gasoline
Cesspoll,
septic
tank
and solvent
tanks
Landfill
Road
salt
Unconfined freshwater aquifer
Confined freshwater aquifer
Confined aquifer Discharge
Leakage
from faulty
Groundwater casing
Groundwater flow
26. TTHHEE ZZOONNEESS OOFF PPOOLLLLUUTTIIOONN IINN SSTTRREEAAMMSS
INDRODUCTION TO WATER
POLLUTION PARAMETER
27. OOxxyyggeenn--DDeemmaannddiinngg WWaasstteess
• Water with an oxygen content > 6 ppm will
support desirable aquatic life.
• Water with < 2 ppm oxygen will support
mainly detritivores and decomposers.
• Oxygen is added to water by diffusion from
wind and waves, and by photosynthesis from
green plants, algae, and cyanobacteria.
• Oxygen is removed from water by respiration
and oxygen-consuming processes.
INDRODUCTION TO WATER
POLLUTION PARAMETER
30. PPLLAANNTT NNUUTTRRIIEENNTTSS AANNDD CCUULLTTUURRAALL
EEUUTTRROOPPHHIICCAATTIIOONN
• Oligotrophic - Bodies of water that have
clear water and low biological productivity.
• Eutrophic - Bodies of water that are rich in
organisms and organic material.
– Eutrophication - Process of increasing nutrient
levels and biological productivity.
• Cultural Eutrophication - Increase in biological
productivity and ecosystem succession caused by
human activities.
INDRODUCTION TO WATER
POLLUTION PARAMETER
32. MAJOR CATEGORIES OOFF WWAATTEERR PPOOLLLLUUTTIIOONN
1) INFECTIOUS AGENTS: Bacteria,
Viruses, Protozoans and Parasites.
• SOURCES: Human and animal excreta
• HARMFUL EFFECTS: causes disease, health
problems
2) ORGANIC CHEMICALS: Oil, Gasoline,
Pesticides, Plastics, Detergents
• SOURCES: Industrial and household waste,
agricultural production, roads, golf courses, oil spills
• HARMFUL EFFECTS: causes disease, health
problems
INDRODUCTION TO WATER
POLLUTION PARAMETER
33. 3) INORGANIC CHEMICALS: Acids, Bases,
Metals (Pb, As, Se) and Salts
• SOURCES: Industrial effluents, processing fossil fuels /
petroleum distillation, mining, household chemicals,
farming / road salt, surface runoff
• HARMFUL EFFECTS: causes health problems such as
cancer and nervous system damage, pollutes freshwater,
harms aquatic life, lowers crop yields
4) RADIOACTIVE MATERIALS: U, Th, Ce, I, Ra
• SOURCES: Mining and Processing Ores, Weapons
Production, Power Plants
• HARMFUL EFFECTS: causes health problems such as
cancer, birth defects, miscarriages and mutations
INDRODUCTION TO WATER
POLLUTION PARAMETER
34. 5) SEDIMENT: Sand, silt, clay, soil
• SOURCES: Deforestation, logging, mining mineral
resources, urban construction
• HARMFUL EFFECTS: Harms aquatic organisms and
food webs, reduces biological production, carries
pesticides/bacteria, clogs lakes/reservoirs/ streams/harbors
6) PLANT NUTRIENTS: Nitrates, Phosphates and
Ammonia
• SOURCES: Agricultural and Urban runoff (fertilizers),
Sewage, Manure.
• HARMFUL EFFECTS: algal blooms, ecosystem
disruption, health problems
INDRODUCTION TO WATER
POLLUTION PARAMETER
35. 7) OXYGEN DEMANDING WASTES:
Animal Manure, Sewage, Plant Residues
• SOURCES: Septic Tanks, Sewage, Agriculture Runoff,
Food Processing, and Paper Mills
• HARMFUL EFFECTS: lowers dissolved oxygen
content, harms aquatic life, ecosystem disruption
8) THERMAL: Heat
• SOURCES: Power Plants / Industrial
Cooling, Loss of Riparian Flora
• HARMFUL EFFECTS: lowers dissolved oxygen
content, harms aquatic life, ecosystem disruption, thermal
shock
INDRODUCTION TO WATER
POLLUTION PARAMETER
36. IINNOORRGGAANNIICC PPOOLLLLUUTTAANNTTSS
• Metals
– Many metals such as mercury, lead, cadmium, and nickel are
highly toxic.
• Highly persistent and tend to bioaccumulate in food chains.
– Lead pipes are a serious source of drinking water pollution.
– Mine drainage and leaching are serious sources of environmental
contamination.
• Nonmetallic Salts
– Many salts that are non-toxic at low concentrations can be
mobilized by irrigation and concentrated by evaporation, reaching
levels toxic to plants and animals.
• Leaching of road salts has had detrimental effect on many
ecosystems.
• Acids and Bases
– Often released as by-products of industrial processes.
INDRODUCTION TO WATER
POLLUTION PARAMETER
37. OORRGGAANNIICC CCHHEEMMIICCAALLSS
• Thousands of natural and synthetic
organic chemicals are used to make
pesticides, plastics, pharmaceuticals,
pigments, etc.
• Two most important sources of toxic
organic chemicals in water are:
– Improper disposal of industrial and household
wastes.
– Runoff of pesticides from high-use areas.
• Fields, roadsides, golf courses
INDRODUCTION TO WATER
POLLUTION PARAMETER
38. WATER QUALITY IMPACT ANALYSIS
Water Quality Criteria: The level of specific
concentrations of Constituents which are expected, if
not exceeded to assure the suitability of water for
specific use.
Water Quality Standards: These are legal regulations
established by the states limiting the concentration of
various constituents in water.
Stream Quality Standards: Ambient water ways .
Effluent Standards: Discharge of liquid effluents into
those water ways
INDRODUCTION TO WATER
POLLUTION PARAMETER
40. BENEFITS OOFF WWAATTEERR QQUUAALLIITTYY
INDRODUCTION TO WATER
POLLUTION PARAMETER
SSTTAANNDDAARRDDSS
• Water quality standards serve as the
foundation for the water quality-based
approach to pollution control and are
a fundamental component of
watershed management.
41. SSTTRREEAAMM SSTTAANNDDAARRDDSS
SSEETT LLIIMMIITT OONN PPOOLLLLUUTTAANNTTSS,,
INDRODUCTION TO WATER
POLLUTION PARAMETER
OONN SSUURRFFAACCEE WWAATTEERR
RIVER
EFFLUENT STANDARDS
TREATMENT SET LIMITATION RAW
EFFLUENT AMOUNT OF POLLUTION WATER
IN EFFLUENT
SEWAGE WATER
TREATMENT TREATMENT
RAW SEWAGE POTABLE WATER
42. IINNDDIIAANN SSTTAANNDDAARRDDSS FFOORR QQUUAALLIITTYY
INDRODUCTION TO WATER
POLLUTION PARAMETER
MMOONNIITTOORRIINNGG
• Water : General
• Indian standards for waste water effluent (YOP 1991)
• Groundwater resource estimates as per norms:GWEC (1985 to 1992)
• Fresh-water resources and withdrawals (1970 to 1980)
• Global water quality:river pollution indicators (1991-92)
• Housing,safe drinking water & toilets ament.:India (1991)
• Liquid effluents from oil refineries : MINAS (YOP 1995)
• Growth of water quality monitoring network (1977 to 1992)
• Industries along Ganga : pollution control status (YOP 1995)
• Excedences of BOD & total coliform refernce levels (1979 to 1989)
• State-wise break-up of effluent treatment plants (YOP 1995)
• Lower-bound estimates of annual toxic releases (1980 to 1988)
Water : Industry
• Emissions and liquid effluents from oil refineries (YOP 1991)
43. CCLLAASSSSIIFFIICCAATTIIOONN OOFF
DDRRIINNKKIINNGG WWAATTEERR SSOOUURRCCEESS
1) Surface water
2) Ground water
3) Sub soil water in
River Beds
INDRODUCTION TO WATER
POLLUTION PARAMETER
• Surface Water (low TDS
but high Turbidity,
suspended matter and
bacterial contamination)
• Ground water (Colorless,
less bacterial contamination
but has high TDS, Fluoride,
nitrate, Hardness, Alkalinity
etc.)
• Sub-Soil Water (Purest form
of Drinking Water - Colorless
and low TDS)
46. WATER QQUUAALLIITTYY MMOONNIITTOORRIINNGG
It is the foundation on which water quality
management is based. Monitoring provides
the information that permits rational
decisions to be made on the following:
• Describing water resources and identifying
actual and emerging problems of water
pollution.
• Formulating plans and setting priorities for
water quality management.
• Developing and implementing water quality
management programme.
• Evaluating the effectiveness of management
actions.
INDRODUCTION TO WATER
POLLUTION PARAMETER
47. QQUUAALLIITTYY OOFF TTHHEE AAQQUUAATTIICC
EENNVVIIRROONNMMEENNTT
• Water quality
• The composition and state of the
biological life present in the water body,
• The nature of the particulate matter
present,
• The physical description of the water body
(hydrology, dimensions, nature of lake
bottom or river bed, etc.).
INDRODUCTION TO WATER
POLLUTION PARAMETER
48. Complete assessment ooff tthhee qquuaalliittyy
ooff tthhee aaqquuaattiicc eennvviirroonnmmeenntt
• Chemical analyses of water, particulate matter and
aquatic organisms (such as planktonic algae and
selected parts of organisms such as fish muscle), ·
• Biological tests, such as toxicity tests and
measurements of enzyme activities,
• Descriptions of aquatic organisms, including their
occurrence, density, biomass, physiology and
diversity (from which, for example, a biotic index
may be Developed or microbiological characteristics
determined), and
• Physical measurements of water temperature, pH,
conductivity, light penetration, particle size of
suspended and deposited material, dimensions of
the water body, flow velocity, hydrological balance,
etc.
INDRODUCTION TO WATER
POLLUTION PARAMETER
52. THE PRINCIPAL ELEMENTS OOFF AA WWAATTEERR
QQUUAALLIITTYY MMOONNIITTOORRIINNGG PPLLAANN
• A clear statement of aims and objectives, ·
information expectations and intended uses,
• A description of the study area concerned,
• A description of the sampling sites,
• A listing of the water quality variables that will be
measured,
• Proposed frequency and timing of sampling,
• An estimate of the resources required to
implement the design, and a plan for quality
control and quality assurance.
INDRODUCTION TO WATER
POLLUTION PARAMETER
53. DIFFERENT PERSPECTIVES OOFF WWAATTEERR
QQUUAALLIITTYY MMOONNIITTOORRIINNGG AANNDD AASSSSEESSSSMMEENNTT
• Uses of water. Does water meet user requirements for
quantity and quality? (For example, with respect to
meeting use-defined standards. In this context
conservation of biodiversity may be considered a water
use.)
• Influences on water quality from direct use or from
other human activities or natural processes. What are
these influences?
• Impacts on water quality (e.g. water as a medium for
pollutant transport and exposure).
• Control and regulation of water quality. What is the
capacity of water to assimilate pollutants? Are
standards met? Are control strategies and
management action appropriate and effective?
INDRODUCTION TO WATER
POLLUTION PARAMETER
54. DIFFERENT PERSPECTIVES OOFF WWAATTEERR
QQUUAALLIITTYY MMOONNIITTOORRIINNGG AANNDD AASSSSEESSSSMMEENNTT
• How does water quality differ geographically in
relation to uses and quality influences?
• How have past trends in water quality,
influences and policies led to the present status?
• What factors in present water quality and in the
past, present and planned activities, give an
insight into future trends? What will these be?
• How does water quality influence other parts of
the environment, such as marine coastal waters,
soils, biota, wetlands?
INDRODUCTION TO WATER
POLLUTION PARAMETER
55. WATER SAMPLING, AANNAALLYYSSIISS,, AANNDD
IINNTTEERRPPRREETTAATTIIOONN
• Step 1: Prepare sample containers for sampling. These
containers mustn't contain any of the compounds that
samples are to be analyzed for. Sampling bottle material must
be suitable for sampling the water without affecting the
compound.
• Step 2: The sampling procedure. This must be rigorous,
ensuring that a representative sample is collected and at no
time is the sample or sample bottle contaminated by the
collector. This is no trivial task when it comes to collecting
samples with low levels of compounds such as phosphorus.
Depending on the compounds to be analyzed, a preservative
may be necessary.
• Step 3: Transport to the laboratory for analysis. This
needs to be done under appropriate conditions, often in a
dark cooler with ice packs.
INDRODUCTION TO WATER
POLLUTION PARAMETER
56. WWAATTEERR SSAAMMPPLLIINNGG,, AANNAALLYYSSIISS,, AANNDD
IINNTTEERRPPRREETTAATTIIOONN
• Step 4: Processing the water sample. Many samples
need to be filtered before testing. In some cases, the filtering
step must be done in the field as soon as the sample has been
collected. The sample analysis needs to be carried out
according to a protocol that doesn't introduce contaminants or
otherwise compromise the sample. After suitable processing,
the sample is ready to be analyzed.
• Step 5: Analysis. This fifth step can also introduce
problems. The laboratory needs to have quality
control/assurance procedures in place so analytical values
aren't compromised.
• Step 6: Interpretation. An agency or individual submitting
the sample needs to take a good look at the numbers and try to
make sense of them. Because there may have been problems
with one or two steps in the sequence, the numbers may make
little sense.
INDRODUCTION TO WATER
POLLUTION PARAMETER
57. OOVVEERRAALLLL PPLLAANN FFOORR WWAATTEERR
QQUUAALLIITTYY SSUURRVVEEYY
• The overall Plan for water quality survey
– Detail plan of sample collection
– Provision of laboratory analysis
– Description of the methods to be used for data
• The Plan must address
– Location of sampling point
– Parameters to be analysed
– Time Schedule including time of Day, time of year and frequency
• CONSERVATIVE SAMPLES: Concentration of conservative
material changes with time.e.g Chlorides, Total solids, heavy
metals etc.
• NONCONSERVATIVE SAMPLES: Concentration of non
conservative material do not change with time BOD,COD,Temp.etc.
INDRODUCTION TO WATER
POLLUTION PARAMETER
58. PPLLAANNNNIINNGG FFOORR SSAAMMPPLLIINNGG
Objective of water quality monitoring System:
• To assess the impact of activities by man
upon the quality of water and its suitability
for require uses.
• To determine the quality of water in its
natural state which might be available to
meet the future needs
• To keep under observations the sources &
path way of specified hazardous substances
INDRODUCTION TO WATER
POLLUTION PARAMETER
59. TTYYPPEE OOFF SSAAMMPPLLEESS
GRAB SAMPLES: Grab Samples are samples
collected at a particular time and space. They represent
the composition at that time and place. When a source
is known to vary in time, as in the case of waste
effluents, grab samples collected at suitable time
intervals and analysed separately can be of greater
value.
COMPOSITE SAMPLES: Composite samples are a
mixture of grab samples collected at one sampling
point at different times. The composite samples are
useful for observing values. Individual samples are
collected in wide mouth bottles every hour and mixed in
volume proportional to the flow.
INTEGRATED SAMPLES: Integrated samples are a
mixture of grab samples collected from different points
simultaneously and mixed in equal volumes.
INDRODUCTION TO WATER
POLLUTION PARAMETER
60. SSAAMMPPLLIINNGG FFRREEQQUUEENNCCYY FFOORR WWAATTEERR
INDRODUCTION TO WATER
POLLUTION PARAMETER
SSTTAATTIIOONNSS
• Baseline stations (Headwater lakes or undisturbed
upstream river stretches)
• Streams
Minimum: 4 per year, including high- and low-water
stages
Optimum: 24 per year (every second week); weekly for
total suspended solids
• Headwater lakes
• Minimum: 1 per year at turnover; sampling at lake outlet
Optimum: 1 per year at turnover, plus 1 vertical profile at
end of stratification season
•
61. SSAAMMPPLLIINNGG FFRREEQQUUEENNCCYY FFOORR
WWAATTEERR SSTTAATTIIOONNSS
• Trend stations (Major river basins, large lakes or major aquifers)
• Rivers
Minimum: 12 per year for large drainage areas, approximately 100,000 km2
Maximum: 24 per year for small drainage areas, approximately 10,000 km2
• Lakes/reservoirs
For issues other than eutrophication:
Minimum: 1 per year at turnover
Maximum: 2 per year at turnover, 1 at maximum thermal stratification
For eutrophication:
12 per year, including twice monthly during the summer
• Groundwaters
Minimum: 1 per year for large, stable aquifers
Maximum: 4 per year for small, alluvial aquifers
INDRODUCTION TO WATER
POLLUTION PARAMETER
62. SSIITTEE SSEELLEECCTTIIOONN
The selection of sampling site is decided by various uses of the
water and by their location, relative magnitude and importance
SITE SELECTION FOR RIVERS:
• Immediately down stream of an international boundary
• At a place of abstraction for public supply of larger town
• In an important fishing, recreation and amenity zone
• At a place of abstraction for large scale agricultural irrigation
• At afresh water tidal limit of major river
• Art a place of abstraction of large industrial supply
• Down stream of industrial effluent discharges and important
tributatory influencing main river
• Base line station where water is available in natural in natural
state
INDRODUCTION TO WATER
POLLUTION PARAMETER
63. LLOOCCAATTIIOONN OOFF SSAAMMPPLLIINNGG PPOOIINNTTSS
• Sampling point to be located to provide an accurate
description of existing water Quality
• Sampling point to be selected to maximize the ease
of sampling
• Location of sampling point primarily dependent on
the Physical situation
• For rapidly moving ,narrow shallow stream :
complete mixed, both laterally and vertically-one
sample point at each location
• For wide rivers canals,, Lakes or estuaries it may be
necessary to collect multiple samples at each cross
sections along the stream
INDRODUCTION TO WATER
POLLUTION PARAMETER
64. • If water bodies stratified at least two
samples must be taken, one at the mid point
of the epilimnion ( above the thermocline or
Chemocline) and one at mid point of the
hypolimnion( below the thermocline or
Chemocline)
• For stream less than 1000ft wide but more
than 100 ft wide three equally spaced
sampling points are prescribed across the
cross section
• For wide rivers or lakes ( wider greater than
1000ft at lest five equally spaced sampling
points are suggested
INDRODUCTION TO WATER
POLLUTION PARAMETER
66. SSIITTEE LLOOCCAATTIIOONN FFOORR LLAAKKEE
• At a place where principle feeder tributary
meets the lake
• At a central place of lake
• At a place from where water is pumped for
water supply for major city
• At a place from where water is discharged
from lake
INDRODUCTION TO WATER
POLLUTION PARAMETER
67. WWaatteerrsshheedd PPrroobbaabbiilliissttiicc SSaammpplliinngg
• Objectives:
– Sample randomly selected
sites throughout major river
basins to assess and
characterize overall water
quality through the integration
of chemical, physical, and
biological parameters.
INDRODUCTION TO WATER
POLLUTION PARAMETER
68. LLOOCCAATTIIOONN OOFF SSAAMMPPLLIINNGG PPOOIINNTTSS
INDRODUCTION TO WATER
POLLUTION PARAMETER
IINN LLAAKKEESS
For lakes or reservoirs of 10 m depth or more it is
essential, therefore, that the position of the
thermocline is first investigated by means of
regularly-spaced temperature readings through the
water column (e.g. metre intervals).
• 1 m below the water surface,
• just above the determined depth of the thermocline,
• just below the determined depth of the thermocline,
and
• 1 m above the bottom sediment (or closer if this can
be achieved without disturbing the sediment).
69. AANNAALLYYTTIICCAALL MMEETTHHOODDSS FFOORR
WWAATTEERR QQUUAALLIITTYY MMOONNIITTOORRIINNGG
Test Principle
Colour Platinum–cobalt method, spectrophotometer,
Total, Suspended
Dissolved and Fixed
Solids
INDRODUCTION TO WATER
POLLUTION PARAMETER
Gravity Method
Turbidity Turbidity meter, Nephlo meter (NTU), Jackson turbidity
meter (JTU)
Alkalinity, Acidity Titration method using Methyl Orange
Hardness EDTA method
Choride Titration method using silver nitrate solution and potassium
chromate indicator
Oil and grease Partition gravimeteric method by extracting with trichloro tri
fluoro ethane, petroleum ether or hexane.
70. AANNAALLYYTTIICCAALL MMEETTHHOODDSS FFOORR
WWAATTEERR QQUUAALLIITTYY MMOONNIITTOORRIINNGG
Test Principle
Dissolved oxugen Wrikler method using MnSO4
BOD Mercury free BOD analyzer
COD Reflux method with potassium dichromate and silver sulphate
catalyst in strong sulphuric acid. HACK COD analyzer
TOC TOC analyzer based on methane, CO2
Coliforms Membrane filter method (coliform per 100 ml), multiple tube
fermentor method (MPN)
AOX/TOX, EOX and
POX
AOX analyzer
Sulphate Titrimetric method (Barium ions)
Sodium Flame photometry, Zinc uranyl acetate method
Fluoride Selective ion electrode method, SPADNS method, Fluoride
distillation
INDRODUCTION TO WATER
POLLUTION PARAMETER
71. AANNAALLYYTTIICCAALL MMEETTHHOODDSS FFOORR
WWAATTEERR QQUUAALLIITTYY MMOONNIITTOORRIINNGG
Test Principle
Phosphorus wet oxidation with potassium peroxydisulphate
Nitrogen, ammonia titration or colorimetrically using Nessler’s reagent
Nitrogen, Kjeldahl sulphuric acid and a catalyst, alcohol coupled with Photometry
Nitrogen, nitrite Spectrophotometric method using sulphanilamide, N-(1-naphthyl)-
ethylenediamine dihydrochloride to form an intensely red-coloured
azo-compound
Nitrogen, nitrate Phenol di sulphnoic method, UV spectrophtometer
Sulphite Precipitation cadmium acetate method, iodometeric method
Heavy metals Spectrophotometeric method, AAS, ICP-MS etc.
Selenium Fluorometric Method, photometric diaminobenzidine method
Mercury Mercury analyzer by converting all forms of mercury to metallic
mercury, ICP-MS
Phenols Colurimeteric method using 4-amino antipyrine, spectrophotometer
in UV range, chloform extraction method.
Pesticides Chromotographic method (FID), HPLC
INDRODUCTION TO WATER
POLLUTION PARAMETER
72. INDRODUCTION TO WATER
POLLUTION PARAMETER
AANNAALLYYSSIISS
• Analysis
– Analytical Technology
– Sample Preparation
– Monitoring (Air, Water, and Waste)
– Quality Assurance & Method Development
– Endocrine Disrupting Chemicals
– Dioxin & PCBs
– Pesticides
– Future Trend on Monitoring Technique
73. AANNAALLYYTTIICCAALL TTEECCHHNNOOLLOOGGYY FFOORR
EENNVVIIRROONNMMEENNTTAALL MMOONNIITTOORRIINNGG
• Electrochemical analysis
• Absorption spectroscopy
• Atomic absorption spectroscopy
• ICP emission spectroscopy
• Ion chromatography
• Liquid chromatography.
• Gas chromatography.
• Mass Spectrometry
• Immunoassay
• Biological Monitoring of pollutants.
INDRODUCTION TO WATER
POLLUTION PARAMETER
74. TYPES OF IINNSSTTRRUUMMEENNTTAALL MMEETTHHOODDSS
CHARECTERSTIC INSTRUMENTAL
PROPERTIES METHODS
Emission radiation Emission spectroscopy(x-ray,
INDRODUCTION TO WATER
POLLUTION PARAMETER
uv, visible,
electron, Auger), fluorescence,
phosphorescence and luminescence
(x-ray,uv,and visible),
Absorption of radiation spectrophotometry and phoometry
( X-ray, uv, visible, IR),
photoacoustic,
spectroscopy, nuclear magnetic
resonance and electron spin
resonance spectrscopy.
75. TTYYPPEESS OOFF IINNSSTTRRUUMMEENNTTAALL MMEETTHHOODDSS
CHARECTERSTIC INSTRUMENTAL
PROPERTIES METHODS
Scattering of radiation Turbidimetry, nephelometry,
INDRODUCTION TO WATER
POLLUTION PARAMETER
Raman spectroscopy.
Refraction of radiation Refractometry, interferometry.
Diffraction of radiation X-ray and electron diffraction
methods.
Rotation of radiation Polarimetry, optical rotary
dispersion, circular dichroism.
76. TTYYPPEESS OOFF IINNSSTTRRUUMMEENNTTAALL MMEETTHHOODDSS
CHARECTERSTIC INSTRUMENTAL
PROPERTIES METHODS
Electrical potential Ppotentiometry, chronpotentiometry.
Electrical charge coulometry .
Electrical current Amperometry,polarography
Electrical resistance conductometry.
Mass gravimetry.
Mass to charge ratio Mass spectrometry.
Rate of reaction kinetic methods.
Thermal chracteristics thermal gravimetry
Radioactivity Activation and isotope dilution methods.
INDRODUCTION TO WATER
POLLUTION PARAMETER
77. UUVV//VVIISSIIBBLLEE MMOOLLEECCUULLAARR
AABBSSOORRPPTTIIOONN SSPPEECCTTRROOMMEETTRRYY
• Absorption spectroscopy based upon
electromagnetic radiation in the
wavelength 170-780 nm.
• Measurement of Transmittance T or
Absorbance A.
• Used for the analysis of wide variety of
pollutants organic, inorganic, etc.
INDRODUCTION TO WATER
POLLUTION PARAMETER
78. PPOOTTEENNTTIIOOMMEETTRRYY
• Based on the measurement of the potential
of electro chemical cells in the absence of
appreciable current.
– Reference electrode
– Indicator electrode.
– Potential measuring devices.
• Electrodes- Silver/silver chloride, membrane
Indicators.
• Ion selective membranes
– Permits the rapid and selective determination of
numerous cations and anions by direct
potentiometric measurement.
INDRODUCTION TO WATER
POLLUTION PARAMETER
79. CCHHRROOMMAATTOOGGRRAAPPHHYY
Gas chromatography Liquid chromatography
Mobile phase :
- gas vaporization of sample
- m.w. < 500
- heat stability
Separation : chemical affinity
and diff. In b.p. of mixtures on
stationary phase
INDRODUCTION TO WATER
POLLUTION PARAMETER
Mobile phase :
- liquid solubility of sample
- wide range of mol. wt.
- near to room temp.
Separation : affinity diff. of
mixtures between stationary
phase and mobile phase
80. GGAASS CCHHRROOMMAATTOOGGRRAAPPHHYY
• What Does the Basic Gas Chromatographic
System Look Like?
Flow
Control
COLUMN
- GAS CHROMATOGRAPH
Gas Filters
INDRODUCTION TO WATER
POLLUTION PARAMETER
Sample
Intro-
Duction
System
OVEN
DETECTOR
Carrier
Gas
Sample
Injected
Here
Qualitative &
Quantitative
Data
Integrator/
Data System
82. HHIIGGHH PPRREESSSSUURREE LLIIQQUUIIDD
CCHHRROOMMAATTOOGGRRAAPPHHYY ((HHPPLLCC))
• HPLC is widely used because of sensitivity,
ready adaptability, suitability for separating
nonvolatile species or thermally fragile ones.
• Mobile phase is Liquid.
• Partition chromatography- Liquid-Liquid bonded
phase
• Adsorption chromatography- best suited for non-polar
compounds. MW < 500
• Ion exchange (IC) chromatography –
Anion/cation exchangers.
INDRODUCTION TO WATER
POLLUTION PARAMETER
83. INDRODUCTION TO WATER
POLLUTION PARAMETER
HHPPLLCC
• Mobil phase
• Injector
• Column (separation mode, RT.,
Capacity factor, Selectivity,
Resolution)
• Detector : RI, UV/VIS, FL., EC,
Conductivity
84. Mobile Phase
Reservoir
Pump
Gradient
Device
Pressure
Gauge
Pulse
Damper Injector Column Detector Fraction
Collector
INDRODUCTION TO WATER
POLLUTION PARAMETER
Data
System
HHPPLLCC SSyysstteemm
85. MMOOLLEECCUULLAARR MMAASSSS SSPPEECCTTRROOMMEETTRRYY
Provide information about
• The elemental composition of sample of matter.
• The structure of inorganic, organic and biological
molecules.
• The quantitative/qualitative composition of
complex mixtures.
• The structure and composition of solid surfaces.
• Isotopic ratio of atoms.
INDRODUCTION TO WATER
POLLUTION PARAMETER
86. MMAASSSS SSPPEECCTTRROOMMEETTRRYY
• Ionization process
– Ionization
– Fragmentation
– Electron ionization
– Chemical ionization
INDRODUCTION TO WATER
POLLUTION PARAMETER
87. • Inductively Coupled Plasma Mass Spectrometry
(ICPMS)
• Magnetic Sector Mass Spectrometry (MSMS)
• Quadrupole Mass Spectrometry (QTMS)
• Ion Trap Quadrupole Mass Spectrometry (ITMS)
• Time of Flight Mass Spectrometry (ToFMS)
• Ion Cyclotron Resonance Mass
Spectrometry(ICRMS)
• Ion Mobility Mass Spectrometry(IMMS)
• Isotope Ratio Mass Spectrometry(IRMS)
INDRODUCTION TO WATER
POLLUTION PARAMETER
88. HHYYPPEERRNNAATTEEDD TTEECCHHNNOOLLOOGGYY BBEETTWWEEEENN GGCC,,
HHPPLLCC && SSPPEECCTTRROOSSCCOOPPYY
Chromatography Spectroscopy High Sensitive Analytical Instrumen
INDRODUCTION TO WATER
POLLUTION PARAMETER
(hypernated analytical instrument)
+
GC
GC
ICP-MS(AED)
IR
GC/MS
GC/ICP-MS(AED)
GC/IR
HPLC(IC)
MS(APCI, ESI)
ICP-MS
IR
HPLC(IC)/MS
HPLC(IC)/ICP-MS
HPLC(IC)/IR
NMR HHPPLLCC((IICC))//NNMMRR
Research Stage
89. Water Quality Monitoring Instruments DDeevveellooppeedd aanndd//oorr
INDRODUCTION TO WATER
POLLUTION PARAMETER
MMaannuuffaaccttuurreedd iinn IInnddiiaa
Instrument Pollutants/
parameters
Principles of operation, range and
accuracy
Water-quality
monitor/water
analysis kit
pH, dissolved
oxygen, ORP,
temperature,
conductivity
Electrochemical analyzer, sensor
using glass, AG/age polarographic,
thermistor plantized or induction or
potentiometric
Digital pH meter pH Glass electrode
0-14 pH ± 0.02 pH units
Water sampler Sample effluent
collection
Automatic collection of 20 hours
water samples of desired volume,
primary source
Direct recording
spectrophotomete
r/colorimeter
Particulate and
dissolved impurities
Absorption spectroscopy
350-700 nm
Direct recording
polarograph
Various elements
and diverse types
organic substances
Polarography
sensitivity 0.003-1.5ma/mg in 20 steps
Specific ion
electrode (water)
Specific elements
for spot check
Specific ion reference and
measuring electrode 0.5 ppm
Turbidity meter Suspended solids Detection of scattered lights
Gas
Elements/compound
chromatography
s
equipment
Gas chromatography with various
detectors, electron capture, flame,
thermal conductivity sensitivity 10-12
g
90. WATER QUALITY MMOONNIITTOORRIINNGG IINNSSTTRRUUMMEENNTTSS
DDEEVVEELLOOPPEEDD AANNDD//OORR MMAANNUUFFAACCTTUURREEDD IINN IINNDDIIAA
Instrument Pollutants/
parameters
INDRODUCTION TO WATER
POLLUTION PARAMETER
Principles of operation, range and
accuracy
Mercury analyser Conversion and
absorption
UV absorption
Water surface
follower
For slowly varying
water levels
Charge or resistance monitored,
servo principle used to keeping the
sensor at 0.2 mm in water
Minicurrent meter
for water flow rate
Water flow rate Propeller in jewel bearings
Water level
recorder
Water level Change of resistance between rods,
set value of water level indicated
Wave height
recorder
Wave height and
wave level
Using variable capacitance sensors,
range 20 cms.,
Accuracy 5%
20-channel data
logger
(a) Simultaneous
temperature
measurement
(b) Water speeds at
various
locations
Thermistor probes
Automatic printer
Five vane, 15-mm diameter
propeller, signal conditioner and
loggers
91. CCOONNCCLLUUSSIIOONN
• Water is often regarded as an essentially free
resource. However, it is not free, each drop of the
water costs to society, nation, and world in totality.
Global water consumption increased 6 times in the
past century.
• The wars of the next century will be over water – not
oil or politics and it is feared that the growing water
scarcity is causing interstate tension which may
explode into violent conflicts over the earth’s
fundamental water resources.
• With increasing demand and depleting water
resources it is our prime duty to control pollution of
water and save each drop of water.
INDRODUCTION TO WATER
POLLUTION PARAMETER