Module+02+-+Water+and+Water+Supply+System.pdf

Transcript

Module 02
Water and Water Supply Systems
Introduction
This module discusses the fundamental concepts and
principles on Water as an important resource and Surface Tension
element of plumbing and Water Supply Systems as The ability of liquids to stick to itself and pull itself
an essential system in a building. together. Water possesses an extremely high amount
of surface tension, as molecules cling together so
Water is the most basic and fundamental component tightly that it can support objects heavier than itself.
of life on Earth as significant part of life depends on
it. Approximately 75 percent of the earth’s surface is Capillarity
covered by water. It is part of the hydrosphere and is The ability of water to climb up a surface in defiance
distributed in different forms such as ocean, rivers,
lakes, streams, groundwater, reservoir, etc. Water
plays a key role in the biological processes that
sustain cellular life, such as the metabolic breakdown
of essential molecules (which include proteins and
carbohydrates), called hydrolysis.
In recent years, the preservation of groundwater has
become an issue central to the field of water supply
systems. While groundwater is an accessible source
for supplying daily needs, it is also a source
susceptible to contamination. Once a source of of the pull of gravity.
groundwater is compromised, it may take decades for
the resource to recover. As human consumption Dissolving Ability
places greater demands on these reservoirs of Water possesses the ability to dissolve almost any
groundwater, their preservation and care becomes substance, thus it is considered a universal solvent.
increasingly important.
Definitions of Terms
Water Cycle
Natural Water
Readily found in nature, as impounded from
precipitation. Often contains impurities (physical,
chemical, bacteriological, or radiological).

Purified Water
Water that has undergone treatment (either physical,
biological, or chemical) to improve water quality.
Purification is an artificial means of obtaining
chemically pure water.
Hydrologic cycle, hydrological cycle or simply
water cycle is the process in which water undergoes Contaminated Water
continual change in form: liquid, solid (ice) and gas Water with any substance or material that affects the
(vapor). It involves several physical processes quality of water and in turn affects the health of an
namely: evaporation, condensation, precipitation, individual.
infiltration, surface run-off and sub-surface flow.
Water cycle as a matter of meteorological principle Polluted Water
affect climate. Water with the presence of any foreign substance
Properties of Water (organic, inorganic, radiological, biological) which
tends to degrade the overall quality so as to impair
Heat Capacity the potability of the water, and constitute a hazard to
Water has the ability to absorb heat without health.
becoming much warmer itself. It has greater heat
capacity than any other substance except ammonia.
Important Notice: This module is purposely prepared by Ar. Rafael C. Alli, of the Building Technology (BT) and Building Utilities
(BU) course cluster for the exclusive use of the students of the College of Architecture (CA), University of Santo
Tomas (UST). Any unauthorized reproduction, use, sale or distribution of this material is strictly prohibited and
any violation thereof shall be dealt with accordingly.
Hard Water Long before large-scale land transportation had been
Water with presence of elements such as Calcium established, mankind had already made forays into
(Ca), Magnesium (Mg), Iron (Fe), and Aluminum (al) the use of bodies of water as mediums of transport.
which causes hardness. This is characterized by the Waterways were developed for facilitating the
difficulty of producing lather from detergents and the passage of water-faring vessels in transporting large
presence of scale deposits in pipes and quantities of goods and passengers.
heaters/boilers. 5. Cooling Medium
Water possesses a remarkable amount of cooling
Soft Water properties, such as readily storing heat, dispersing
Water without the presence of elements such as large quantities of heat upon evaporation, and
calcium and magnesium. This is characterized by the vaporizing readily at temperatures commonly found
ease in producing lather from detergents and the upon the surface of human skin. As such, it is used in
absence of scale formation in boilers, heaters, and some devices that require the easy and efficient
pipes. removal of heat.

Grey Water 6. Aesthetic or Architectural Element
Water from laundries, washbasins, sinks, showers, Water becomes a point of interest in the field of
and bathtubs. landscaping. Key aesthetic applications of water in
design include its reflectivity, which creates a
Black Water powerful visual tool that delineates itself from
Water plus human waste flushed out of toilets and botanical and ground materials in gardens, its
urinals. liquidity, which generates unique sounds as it moves,
and the life-sustaining potential water possesses,
Storm Water which can be used in incorporating waterborne plants
Rain and surface runoff. and animals in a garden.

Uses of Water 7. Protective Uses
Water has long served a vital part in the field of fire
prevention and safety. The vast quantities of water
1. Nourishment or Life Sustenance
potentially required for firefighting must be delivered
Majority of the human body is comprised of water.
immediately, necessitating pipes of great water
By itself, water alone cannot sustain a person – it is
pressure regulated by very powerful valves. Despite
the nutrients and minerals suspended within that
its size and ubiquitous presence in public spaces, very
provide the nourishment a person requires. As such,
rarely is a firefighting water supply system integrated
the amount of absolutely “pure” water required for
visually into aesthetic design.
the human body is rather minimal, at only 3 g/cd.
8. Sports and Recreational Uses
2. Cleansing and Hygiene
The recreational benefits of bodies of water are many
Water is a nearly-ideal medium for the dissolution
and varied, ranging from the simple pleasure of the
and transport of organic waste, and its high heat
pool to the high-energy excitement of competitive
storage capacity makes the attainment of comfortable
water sports. Boating and fishing also number among
temperatures for bathing easy. Larger quantities of
these entertaining activities, from adventurous
water are utilized in cleaning in comparison to
voyages into uncharted waters to lazily drifting in the
nourishment.
peace of a lake. Public bathing also numbers among
these leisurely entertainments, as evidenced by
3. Ceremonial Uses
ancient Roman baths and modern Japanese onsen
Due to its associations with cleansing and hygiene,
(hot springs).
water acquired a ceremonial significance that remains
particularly evident in religious services across the
9. Therapeutic or Medical Application
world. Some notable examples include the use of a
One cannot underestimate the healing power of
font of holy water in Catholic and Protestant
water. Pure water is required to sanitize hospitals as
baptismal services, pools in the forecourts of
well as prepare sterilized treatments. Water also
mosques, and Shinto purification rituals. The
assists in helping people suffering muscular atrophy
opportunities for esthetic expression are particularly
regain sensorimotor functions in their limbs through
rich in these ceremonial applications.
the gentle environment of a pool, wear the strain
upon one’s limbs is lessened within a body of water.
4. Transportation Uses
10. Power Generation other pollutants associated with waste in the
Certain types of manmade infrastructure such as water.
hydroelectric dams and mills take advantage of large
quantities of water flowing at rapid rates to generate 2. Chemical Characteristics
power required for their purposes, such as generating Groundwater is particularly susceptible to
power or milling grains. chemical alteration because as it moves
downward from the surface, it slowly dissolves
11. Industrial Applications minerals contained in rocks and soil. A chemical
The many industrial applications of water are varied analysis is usually necessary for testing
in their purpose and utility, ranging from those that individual water sources. These analyses usually
are life-sustaining in nature to those that support the indicate the following: (1) possible presence of
economy. Irrigation plays a vital role in sustaining harmful/objectionable substances, (2) potential
human agriculture, which in turn sustains human for corrosion within the water supply system, (3)
food supplies for growing populations. Raising fish and the tendency for water to stain fixtures and
for food supply requires massive bodies of water to clothing.
create safe habitats for them to multiply. The use of
water as a means of transportation is also an 2.1. Alkalinity
economical means of quickly transporting goods to Caused by carbonate, bicarbonate, or
places in need of these supplies. hydroxide components. Testing for these
components of water alkalinity is key to
deciding which forms of water treatment to
Water Quality use.
1. Physical Characteristics
Water from surface sources (roof runoff, 2.2. Hardness
streams, rivers, lakes, ponds, etc.) is particularly Hardness is a relative term. Hard water
subject to physical pollutants. inhibits the cleaning action of soaps and
detergents and deposits scales on the insides
1.1. Turbidity of hot water pipes and cooking utensils, thus
Turbidity is caused by the presence of wasting fuel and rendering utensils
suspended materials (such as clay, silt, other unusable. This is caused by calcium and
forms of inorganic material, plankton, or other magnesium salts and can be classified as
finely divided organic materials). either temporary (carbonate) or permanent
(bicarbonate). Temporary hardness can be
1.2. Color temporarily removed by heating, but it still
Often caused by dissolved organic matter, forms scales.
such as decaying vegetation. Some of the
contaminants responsible for altering the color 2.3. Toxic Substances
of water include organic matter and These are occasionally present in water
microorganisms. Similar to turbidity, such supplies. Authorities have established
changes in water color does not always information about the concentration of these
constitute a threat to health, but often pose a toxic substances, which include arsenic
psychological aversion. (As), barium (Ba), cadmium (Cd), cyanides
(CN), fluoride (F), lead (Pb), selenium (Se),
1.3. Taste and Odor and silver (Ag).
Caused by organic compounds. Can only be
treated after a chemical analysis has identified 2.3.1. Chlorides
what source is responsible. Chlorides can enter water as it passes
through geological deposits formed by
1.4. Temperature marine sediment, or as a result of
In general, water supplied between 50o – 60o F contamination from pollution from sea
(10 – 16o C) is preferable. water, brine, or industrial wastes.

1.5. Foamability 2.3.2. Copper
Usually caused by detergent concentration. Copper can enter water through natural
While the foam itself does not pose a serious deposits, or copper piping that contains
health threat, it may indicate the presence of corrosive water.
 2.3.3. Iron Nonliving packs of proteins that infect
Iron is frequently present in groundwater. biological systems and cause diseases.
Corrosive water in iron pipes will also
contribute to iron deposits in water. 4. Radiological Characteristics
The mining and usage of radioactive materials in
2.3.4. Manganese industry and power plants produces pollution in
Manganese can both produce a some water supplies. Since radioactive effects
psychological threat are cumulative, concentrations of radioactive
2.3.5. Nitrates material should be kept low.
At high levels of concentration, nitrates Water Sources
pose a threat to infants, as one of the
causes of blue baby syndrome Surface Water
(methemoglobinemia), wherein the Surface water can be a mixture of surface run-off and
amount of oxygen in the blood is severely groundwater. Surface sources include rivers, lakes,
limited. In shallow wells, nitrate ponds, and impounding reservoirs.
concentrations can indicate seepage from
deposits of livestock manure.
Groundwater
The portion of rainwater that has percolated into the
2.3.6. Pesticides
earth and formed underground deposits called
These pose a growing threat to water
aquifers (water-bearing soil-formations). As a source
supplies and are particularly common in
of water, groundwater can by extracted in many
wells near homes that have been treated
different ways.
for termite infestations. It is important to
avoid the use of pesticides near wells. Wells
Wells are holes in the earth from which a fluid may
2.3.7. Sodium be withdrawn using manual or mechanical means,
Sodium primarily poses a threat to those such as a draw bucket, a pump, etc.
with heart, kidney, or circulatory ailments.
For a low-sodium diet, the sodium in 1.0 Water Wells
water must not exceed 20 mg/l. Water that flows into
wells is called
2.3.8. Sulfates groundwater. This water
Possess laxative effects. Sulfates can enter comes from rain that is
groundwater through natural deposits of absorbed into the ground
salts. and slowly filtered
through the different
2.3.9. Zinc layers of the ground and
Sometimes enters groundwater in areas into groundwater
where it is in abundance. While not a reservoirs known as aquifers. The top part of this
major health threat, at concentrations zone is called the water table, the level at which
above 5 mg/l, it can induce an undesirable water stands in a well that is not being pumped.
taste.
1.1. Dug Wells
3. Biological Characteristics
Potable water must be kept as free as possible
from disease-producing organisms such as
bacteria, protozoans, and viruses.

3.1. Bacteria
Primarily E. coli bacteria pose a threat to
health.
3.2. Protozoa
Little microorganisms that may contaminate
water.

3.3. Viruses These can be constructed with hand tools or
power tools, and can be dug to a depth of about
 15 meters (50 feet) and can have the greatest in the removal of particles of earth, which are
diameter that a space may allow. then brought to the surface. After the drill pipe is
withdrawn, a casing is lowered into position.
1.2. Driven Wells Another method is the down-the-hole
These are the pneumatic (air) hammer, which combines the
simplest and usually percussion effect with the rotary drill bit.
the least expensive.
A steel drive-well
point is fitted on one End
end of the pipe
section and driven
into the earth. The
drive point is usually
1 ¼ in. to 2 inches
(32 – 51 mm) in
diameter. The point
may be driven into
the ground to a depth of up to 15 meters (50
feet).

1.3. Bored Wells
Dug with earth
augers, are usually
less than 30 meters
(100 feet) deep.
These are used
when the earth to
be bored is free of
boulders and will
not cave in. The
diameter ranges
from 2 to 30
inches. The well is
lined with either
metal, vitrified tile, or concrete.

1.4. Drilled Wells
These require more
elaborate types of
equipment,
depending on the
geology of the site.
As such, these can
measure up to 300
meters (984 feet).
The Percussion (or
Cable Tool) Method involves the raising and
dropping of a heavy drill bit and stem. Having
thus pulverized, the earth being drilled is mixed
with water to form a slurry which is periodically
removed. As drilling proceeds, a casing is also
lowered (except when drilling through rock).

Rotary Drilling (Either Hydraulic or
Pneumatic) utilizes a cutting bit at the lower end
of the drill pipe; a drilling fluid (or pressurized
air) is constantly pumped to the cutting bit to aid