Midterm Lesson 1 - Sources of Water PDF

Summary

This document provides an overview of water sources, quality analysis, and treatment methods. It covers surface water, groundwater, and various waterborne issues. Useful for learning about water resources and environmental science in a secondary school context.

Full Transcript

SOURCES , QUALITY OF
WATER AND TREATMENT
 Learning Content
A. Sources of Water
B. Water Quality Parameters
C. Water Testing and Impurities
D. Water Treatment Process
E. Water Conservation
 Sources of Water
1. Surface Water - Is the rain that runs off the surface of the
ground into streams, rivers, and lakes
2. Groundwater - Is water
found below the surface of the earth. It is water that has percolated
through porous soil until it reaches an impervious stratum,
upon which it collects.
 Water Potability
Potable Water - is clean water that is suitable for human drinking. It
must be available for drinking, cooking, and cleaning.

Non – Potable Water - Nonpotable
water may be used for flushing water closets (toilets), irrigating
grass and gardens, washing cars, and for any use other than drinking,
cooking, or cleaning. An abundant supply of potable water
that is easily distributed is vital to a prosperous economy.
 SURFACE WATER
Readily provides much of the water needed by
cities, counties, large industry, and others. However, this source
is dependent on recurring rain. During a long period of drought,
the flow of water may be significantly reduced
Reservoirs hold surface water during periods of high run-off and
release water during periods of low runoff. Surface water is typically
treated to provide the potable water required. Where nonpotable
water may be used, no treatment of the water is necessary.
 Cisterns
Surface water can be collected in a storage tank called a
cistern. A cistern can fill with rainwater as it drains from the
roof of a building or a more elaborate collection system. Collected
water is then pumped into the supply line of the building
for use. The need for water is so important
on certain islands that the government has covered part of the
land surface (usually the side of a mountain or a hill facing the
direction from which the rains usually come) with a plastic film
so rain can be collected and stored for later use.
Lay-out of a Cistern
 Groundwater
Groundwater seeps through the soil and is trapped on impervious
stratum, a layer of soil or rock that water cannot pass
through. The water collects in pores of permeable stratum;
a layer of porous earth that water can pass through such as
sands, gravels, limestone, or basalt. Saturated permeable stratum
capable of providing a usable supply of water is known as
an aquifer.
 GROUNDWATER
Groundwater can be captured at many layers below a
building site—that is, there may be several aquifers at different
depths. Very deep-lying groundwater can remain undisturbed
for thousands or millions of years. However, most groundwater
lies at shallower depths. An aquifer can serve as an underground
reservoir with almost unlimited capacity. However, if
water is removed from the aquifer at too rapid a rate, the water
level may drop so drastically that groundwater can no longer be
reached.
 Water Table
The level of groundwater is referred to as the water table.
The distance from the ground surface to the water table is referred
to as the water table depth. Depth of a shallow water
table can vary considerably. Generally, shallow water table
depth will vary with amount of rain. During a long dry spell,
the water table depth will usually drop and during the rainy season
it will likely rise. Depth of a water table can also change artificially
by seepage from a nearby stream, lake, reservoir, or
irrigation ditch.
 Groundwater Potability
Groundwater may require treatment to be potable, but
often it does not. When treatment is required, it is generally
less treatment than is required when making surface water
potable.
Water Quality
 Chemical Quality
pH, hardness, presence of a selected group of chemical parameters,
biocides, highly toxic chemicals, and B.O.D are estimated. pH is a
measure of hydrogen ion concentration. It is an indicator of relative
acidity or alkalinity of water.
 Physical Quality
The physical parameters include color, taste, odor, temperature,
turbidity, solids, and electrical conductivity. On the other hand,
chemical parameters can include pH, acidity, alkalinity, chlorine,
hardness, dissolved oxygen, and biological oxygen demand.
 Biological Quality
Bacteria , Viruses , Protozoans , Phytoplanktons , zooplankton ,
insects, plants and fish
 Common Water borne - infections
Amoebiasis - Gastroenteritis (gastro) can be a problem for travellers to
countries with poor sanitation. Amoebiasis, a type of gastro, is a cause
of diarrhoea among travellers to developing countries. It is caused by a
parasite known as Entamoeba histolytica that infects the bowel.
Amoebiasis most commonly affects young to middle-aged adults.

Proper handwashing helps prevent the spread of amoebiasis. When
travelling overseas, especially to developing countries, remember to
‘cook it, peel it or leave it’.
 IMPURITIES IN WATER
Chemicals and toxins can contaminate the water source:
1. Agricultural runoff – pesticides and herbicides
2. Industrial runoff – metals and mine tailings
 IMPURITIES IN WATER

Surface water generally contains larger quantities of turbidity (cloudiness) and bacteria than
groundwater. As surface water runs over the ground, it may pick up various organic substances -
algae, fungi, bacteria, vegetable matter, animal decay and wastes, fertilizer, garbage wastes, and
sewage.
Groundwater generally contains higher concentrations of dissolved chemicals. As groundwater
percolates down through the soil, it dissolves minerals such as calcium, iron, silica, sulfates,
fluorides, and nitrates, and may also entrap gases such as sulfide, sulfur dioxide, and carbon
dioxide
Seawater contains high concentrations of dissolved chemicals and some microscopic organisms.
 WATER TESTING
Chemical analysis of the water
- indicates the parts per million (ppm) of each chemical found in the
water.
Bacteriological quality of the water
- provides an estimate of the density of bacteria in the water supply.
The presence of any coliform organisms indicates that the water supply
may be contaminated with human or animal wastes (perhaps seepage
from a nearby septic tank field or animal pasture).
 WATER TREATMENT
FUN FACT: Potable water can have an objectionable odor and taste and
even be cloudy and slightly muddied or colored in appearance.
Although the odor, taste, or appearance of potable water may not
mean you want to drink it, it is still safe to drink.
 Methods to Improve Water Quality
1. Problems with undesirable taste and odor are overcome by use of
filtration equipment or by aeration of the water.
2. Bacteria are destroyed by the addition of a few parts per million of
chlorine. The taste of chlorine is then removed with sodium sulfite.
3. Suspended organic matter that supports bacterial life and suspended
mineral matter are removed by the addition of a flocculating and
precipitating agent, such as alum, before settling or filtration.
4. Excessive hardness, which renders the water unsuitable for many
industrial purposes, is reduced by the addition of slaked, or hydrated,
lime or by an ion exchange process.
 Fluoridation and Desalination
Fluoridation of public water
- is an established method of reducing tooth decay in children.
Desalination process
- saline (salt) is removed from water (e.g., seawater) thereby making
the water potable. This process is used in areas where seawater is the
only source of water available or where groundwater is high in saline.
Desalination plants provide much of the potable water in arid countries
such as Kuwait, United Arab Emirates, and Qatar.
 Water Conservation
Potable water is not an infinite resource. As population and demand for
water grows, it is in short supply and is becoming more expensive,
particularly in arid and semiarid climates and in all regions during
periods of long drought.
 Conservation Techniques
Flow Restrictors - on all water outlets (such as sinks and showers), can
reduce the amount of water used by 50%, depending on the type installed
Water Saving Toilets - Originally, the water tank used to flush a toilet bowl
was mounted high on the wall so the water would gain enough velocity to
flush away the waste. This could be accomplished with between 1 and 1½ gal
(3.8 to 5.7 L) of water
Gray Water System - involves the processing of household wastewater for
reuse. In the design of the gray-water system, the water from the bathtub or
shower and the washing machine is run into a collection tank instead of
going into the sewer lines. From the collection tank, the water is filtered and
chlorinated and then reused as water to flush the toilets. This water reuse
system cuts water consumption by about one-half.