by
1.
POTABLE
WATER:
Water
which has been filtered cleaned or treated to meet the standards of drinking
water and is reasonably clear for contaminants and harmful bacteria are
considered as potable water.
Potable water access is crucial and
people in developed countries may not worry where they get potable water from.
They may simply turn ON their taps and get potable water. But the people in
developing countries have very limited access to potable water.
Most non-potable water will be raw
and untreated, which may contain unknown contaminants. It is possible for
non-potable water to taste normal but carry health risks.
2.
STANDARDS
FOR POTABLE WATER IN INDIA
According
to BIS (Bureau of Indian
Standards, 2012) potable water is water intended for human consumption for
drinking and cooking from any source. The following table shows the parameters,
their upper limit as per BIS and
possible impacts on health.
TABLE – 1: SHOWING PARAMETERS, THEIR APPROVED UPPER
LIMITS AS PER BIS AND
POSSIBLE HEALTH HAZARDS (as per BIS
water quality standards, 2012)
parameters
|
upper
limits as per
|
possible
health risks
|
total dissolved solid
|
200 mg/L
|
GI irritation, Bad
taste
|
pH
|
6.5 - 8.5
|
affects mucous
membrane, bitter taste
|
alkalinity
|
600 mg/L
|
boiled rice turns
yellowish
|
hardness
|
600 mg/L
|
poor lathering with soap,
skin irritation, boiled meat/food becomes poor quality
|
Ca
|
200 mg/L
|
deteriorates clothes,
pipe incrustation
|
Mg
|
100 mg/L
|
deteriorates clothes,
pipe incrustation
|
Fe
|
1.0 mg/L
|
cloth staining, bitter
taste
|
Mn
|
0.3 mg/L
|
poor taste, staining
of clothes
|
0.2 mg/L
|
neurological
disorders, Alzheimer disease
|
|
Cu
|
1.5 mg/L
|
liver damage
|
Zn
|
15 mg/L
|
vomiting, abdominal
pain
|
Ammonia
|
NIL
|
indicates pollution
|
Nitrite
|
NIL
|
forms nitrosoamine
which is carcinogenic
|
Nitrate
|
100 mg/L
|
blue baby disease
|
Sulphate
|
400 mg/L
|
GI irritation,
laxative effect
|
Chloride
|
100 mg/L
|
corrosive to
alimentary cannal
|
Fluoride
|
1.5 mg/L
|
dental and skeletal
disorders
|
Hg
|
0.001 mg/L
|
minamata disease
|
Cadmium
|
0.01 mg/L
|
itai itai disease
|
Lead
|
0.05 mg/L
|
bioaccumulation,
neurological disorders
|
Chromium
|
0.05 mg/L
|
Carcinogenic
|
Pesticides
|
0.001 mg/L
|
affects CNS
|
detergents
|
NIL
|
undesirable foaming
|
3. SOURCES
OF POTABLE WATER:
As
per the Indian Census, 2011 the potable water sources in India
TABLE 2: SHOWING VARIOUS SOURCE OF POTABLE WATER AND THEIR PERCENTAGE SHARES IN TOTAL HOUSEHOLD
POTABLE WATER CONSUMPTION (as per the Indian Census Report, 2011)
SOURCE
|
PERCENTAGE
SHARE
|
Tap
water
|
43.5
|
Well
|
11.0
|
Hand
pump
|
33.5
|
Tube
well
|
8.5
|
Spring
|
0.5
|
River
|
0.6
|
Pond/Lake
|
0.8
|
Other
sources
|
1.5
|
4. METHODS
OF PURIFICATION OF POTABLE WATER AT DOMESTIC LEVELS
A. BOILING:
It is a satisfactory method of purifying water for
house hold purposes. While using this method, the water must be brought to a
'rolling' boil. Boiling should be done for 5-10 minutes. Boiling destroys all
forms of disease producing organisms usually found in water. When the water is
boiled, the container becomes sterilized or the water should be boiled
preferably in the same container.
B. SEDIMENTATION
AND DECANTATION:
It is a natural method of water purification. In this
method water is collected from the source and stored in a jar or container. The
water if allowed to remain for some time in container, the impurities (e.g.
stone, sand, chalk, mud, etc.) will settle down at the bottom. We will be able
to pour out the water without disturbing the impurities. This process of water
filtration is called sedimentation and serves the following purpose:
The solid matter in suspension falls to the bottom by
gravity and is called sediment.
C. SAND
FILTERATION:
This is also called the filtration of water by four
pitchers system. It is old fashioned filter system. In this method, the four
pitchers are placed one above the other on a wooden stand. All the vessels
except the last one have small pores at the bottom. The upper most vessel
contains thick layer of charcoal which is filled with water and which
percolated through a hole made at its bottom, along with a piece of cloth
plugged into the hole of the second pitcher.
The second pitcher contains
a layer of sand, and the third contains gravel. Water drips into each of these
vessels. The last or fourth pitcher contains filtered water.
Nowadays one can buy a manufactured filter from the
market. The principle of these filters is that water is made to pass through
porous 'candle' and in doing so it is purified.
D. CHLORINATION:
Water is most essential for the maintenance of life but
it is also a vehicle for infection and responsible for severe and wide spread
water borne diseases. In such a context, bacteria, helminthic, protozoal
and other pathogenic infection causing cholera, diarrhea, typhoid, worm,
dysentery, gardenias can be caused. It is essential to make the water safe for
drinking from whatever source it is obtained. In this regard, one of the most
widely used disinfectants for treating drinking water is chlorine and when it
is added to water in proper proportion, it is effective in killing pathogenic
organism.
E. DISTILLATION:
In the process of distillation water is heated and
evaporation takes place, whereby water changes back to water when cooled; this
process is called condensation. The condensed water is the purest form of
water, free from microbes, and impurities.
But it loses its taste and odor. Through aeration or
passing oxygen through it the water becomes consumable.
This method is quite expensive and time - consuming.
But in place like laboratories, on sea-ships or places where pure water is not
available, this method is found to be very useful.
F. FILTRATION:
Different varieties of filters are used to purify the
water at domestic level. Filter rods (candies) are installed in the upper
chamber. These rods are made of china porcelain and it is porous and hollow
from the centre. When water is filled in the upper chamber it purifies and
drips in the lower chamber. This water is free of any suspended matter but
still has microbes in it
G. CHEMICAL
METHODS OF PURIFICATION
(a) Aluminum Sulphate (b) Chlorine
(c) Potassium Permagnate purification by Ultra-Violet
Rays
In a school where a large number of students and
teachers depend on the water supplied by the local civic bodies, extra measures
to ensure good quality of water are needed especially when it is routed through
drinking water coolers.
These water collars should be cleaned at regular
periodicity and should be pilferage free. Besides, ultra-violet rays may be
used for destroying micro- organism from the water without any chemical change.
It has the following advantages: -
(a) Ultraviolet rays destroy all kinds of bacteria and
virus, which produce diseases.
(b) Besides the boiling method, this method is safe
and water can immediately be used. There is no chance of any contamination in
storing it for 48 hours. Water stored in ordinary filters and pitchers provide
a breeding place for the microbes.
(c) Water is purified in its natural form; there is no
chemical change in it.
(d) The quality of water remains intact.
(e) It has an electronic method for water
purification, which is more reliable
*the data and notes have been collected from books and online contents
