Introduction sanitary engineering by Prof. Dhaval. S. Shah

Introduction
For safe disposal of the sewage generated from a locality efficient
collection, conveyance, adequate treatment and proper disposal of
treated sewage is necessary. To achieve this, following conditions
should be satisfied:
1. Sewage should not pollute the drinking water source, either surface or
groundwater, or water bodies that are used for bathing or recreational
purposes.
2. The untreated sewage during conveyance should not be exposed so as to have
access to human being or animals and should not give unsightly appearances
or odour nuisance, and should not become a place for breeding flies.
3. It should not cause harm to public health and adversely affect the receiving
environment.

Systems of Sanitation
Water-Carried System
• More hygienic
• Sewage passes through
sewers
• Human excreta is washed
away & no bad smell
• Do not occupy floor area
• allows construction of
latrines bath-rooms
together, occupy lesser
space, compact design,
helpful in multistoried
rooms
Conservancy system
• Not Hygienic
• Waste products are
underground
• Entire days human
feces are collected &
disposed of in
morning, once a day
• open road side
drains. road side
crains are abused by
people/children for
passing their stools.

Types of Sewerage Systems
The sewerage system can be of following three
types:
Combined system:
• In combined system along with domestic
sewage, the run-off resulting from storms is
carried through the same conduit of sewerage
system.
• In countries like India where actual rainy days
are very few, this system will face the problem of
maintaining self cleansing velocity in the sewers
during dry season, as the sewage discharge
may be far lower as compared to the design
discharge after including storm water.

Combined System
Advantages
• In an area where rainfall is spread throughout a year,
there is no need of flushing of sewers, as self cleansing
velocity will be developed due to more quantity because
of addition of storm water.
• Only one set of pipe will be required for house plumbing.
• In congested areas it is easy to lay only one pipe rather
than two pipes as required in other systems.

Combined System
Disadvantages
• Not suitable for the area with small period of rainfall
in a year, because dry weather flow will be small due
to which self cleansing velocity may not develop in
sewers, resulting in silting.
• Large flow is required to be treated at sewage
treatment plant before disposal, hence resulting in
higher capital and operating cost of the treatment
plant.
• When pumping is required this system is
uneconomical.
• During rains overflowing of sewers will spoil public
hygiene.

Separate System
• In separate system, separate conduits are used;
one carrying sewage and other carrying storm water
run-off.
• The storm water collected can be directly
discharged into
the water body since the run-off is not as foul as
sewage and no treatment is generally provided.
• Whereas, the sewage collected from the city is
treated adequately before it is discharged into the
water body or used for irrigation to meet desired
standards.
• Separatesystem is advantageous and economical
for big towns.

Separate System
• Advantages
• As sewage flows in separate pipe, hence the quantity to
be treated at sewage treatment plant is small, resulting
in economy of treatment.
• This system may be less costly as only sanitary sewage
is transported in closed conduit and storm water can be
collected and conveyed through open drains.
• When pumping is required during disposal, this system is
economical due to less flow.
• Disadvantages
• Self cleansing velocity may not developed at certain
locations in sewers and hence flushing of sewers may be
required.
• This system requires laying two sets of pipe, which may
be difficult in congested area.
• This system will require maintenance of two sets of
pipelines and hence maintenance cost is more.

Partially separate system
• In this system part of the storm water
especially collected from roofs and paved
courtyards of the buildings is admitted in
the same drain along with sewage from
residences and institutions, etc.
• The storm water from the other places is
collected separately using separate storm
water conduits.

Partially separate system
• Advantages
• Economical and reasonable size sewers are required.
• Work of house plumbing is reduced as rain water from
roofs, sullage from bathrooms and kitchen, etc. are
combined with discharge from water closets.
• Flushing of sewers may not be required as small portion
of storm water is allowed to enter in sanitary sewage.
• Disadvantages
• Increased cost of pumping as compared to separate
system at treatment plants and intermediate pumping
station wherever required.
• In dry weather self-cleansing velocity may not develop in
the sewers.

CONSIDERATIONS FOR THE
TYPE OF SYSTEM
Following points are considered before finalizing the type of
collection system.
The separate system requires laying of two sets of
conduits whereas in combined system only one bigger
size conduit is required.
Laying of two separate conduits may be difficult in the
congested streets.
In combined system sewers are liable for silting during
non-monsoon season, hence they are required to be laid
at steeper gradients.
Steeper gradients for the sewers may require more number
of pumping stations, particularly for flat terrain, which
may make the system costly.
Large quantity of wastewater is required to be treated
before discharge in case of combined system. Hence,
large capacity treatment plant is required.

CONSIDERATIONS FOR THE
TYPE OF SYSTEM
In separate system, only sewage is treated before it is
discharged into natural water body or used for irrigation.
No treatment is generally given to the rainwater collected
before it is discharge in to natural water body.
In case of separate system pumping is only required for
sewage. Pumping can be avoided for storm water lines,
as they are not very deep and normally laid along the
natural slopes. In combined system large capacity
pumping station is required to safely handle the flow that
is likely to be generated during highest design storm
considered.
Based on site conditions the economy of the system
needs to be evaluated and selection is made
accordingly.

Elements of Sewage Management
System
1.Source of sewage
2.On-site processing
3.Collection of sewage
4.Transmission of sewage
5.Treatment of sewage
6.Disposal of sewage

Requirements of Sewage
Management System
• No health hazard resulting from various
works of the system
• High degree of destruction of pathogens
• Harmfull chemicals are removed &
Neutralised
• system should be such that it may be
operated with minimum cost
• The system should have minimum
possible capital & operational cost

Assignment No.1
14/07/16
• 1)State the importance of providing sanitation facility.
• 2)Enlist the elements of sewage management system. Discuss each
element briefly.
• 3)State the importance/necessity of sewage treatment.
• 4)Describe conservancy & water-carriage systems. Enlist the relative
advantages &
• disadvantages of the two system.
• 5)Discuss the relative merits of separate & combined system of sewage, &
give the
• Conditions favourable for the adoption of each one of them.
• 6)Differentiate between
• I) Domestic sewage, Industrial sewage & Sanitary sewage;
• II) Sewage & Drainage
• 7)Enlist the requirements of a sewage management system.
• 8)Define:-
• Refuse, Garbage, Rubbish, Sullage, Sewage, Night Soil, Outfall sewer,
Trunk sewer, Sewerage, Sewerage systems.
Prof. D.S.Shah

Introduction sanitary engineering by Prof. Dhaval. S. Shah

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