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Detailed Project Report For Water Supply (Nanded – South)
Upgradation of Water Supply, Sewerage and Storm Water Drainage System for Nanded Waghala City
Municipal Corporation Maharashtra
TamilNadu Water Investment Company
Chennai
AUGUST 2006
Salient Features
1. Name of the town: Nanded (South)
2. Area: 20.42 Sq. km
3. Present Water Supply: Supply InstalledCapacity
CIDCO Treatment Plant: 10 Mld 12Mld
4. Present Per Capita Supply: 185 lpcd
5. Existing Source: Vishnupuri
Present Allocation: (1.5) MCM
6. Population: 2023 2038
2.89 lac 6.87 Lac
7. Proposed Per Capita Supply at consumer end: 135 lpcd
8. Gross Demand (Mld): 2023 2038
50.3 119.7
(Water availability at
source to be Checked)
9. Proposed Source: Vishnupuri Dam
10. Proposed Elevated Service Reservoirs: 7 Nos.
11. Proposed Transmission Pipe Length (km): 12.85 km for 2038
Rehabilitation of Work: .
Rehabilitation of Existing Water
Treatment Plant of 12 Mld
12. Estimated Cost of the Project: 39.98 Crore Rupees
13. Proposed Scheme: Exhibit No. 2, 3, 4
14. Proposed Water Treatment Plant with Mld
Clear Water Pump (Mld) 35
Page1 of 5
CONTENTS
Sr. No. Title Page No.
1. Introduction
1.1 Background 1
1.2 Sources 1
1.3 Justification of Project 1
1.4 Project Area 2
1.5 Population 2
1.6 Authorization 3
2. Existing Water Supply System
2.1 Raw Water Pump House 1
2.2 Raw Water Transmission System 1
2.3 Water Qualities and Water Treatment Plant 2
2.4 Reservoirs 2
2.5 Water Distribution System 3
2.6 Electrical System 3
2.7 Mechanical System 4
3. System Planning Criteria
3.1 General 1
3.2 Population 1
3.3 Water Demand 1
3.4 Inlet Mains to Service Reservoirs and Trunk Mains 1
3.5 Local Distribution System 1
3.6 Hazen William C-Value 2
3.7 Peak Factor 2
3.8 Local Distribution Network Analysis 2
3.9 Residual Pressures in the Distribution System 3
3.10 Minimum Diameter of the pipes 3
3.11 Miscellaneous Considerations 3
Page2 of 5
3.12 Structural Design Criteria for Elevated Service Reservoirs 4
3.13 Design Criteria for Electrical System 8
4. Pipe Material Selection Aspect
4.1 General 1
4.2 Pipe Material 1
4.3 Selection of Pipes 7
5. Proposed System
5.1 Source 1
5.2 Raw water conveyance from Vishnupuri 1
5.3 Treatment Plant at Asadvan Village 2
5.4 Proposed pumping Station 7
5.5 Proposed Transmission System 7
5.6 Service Reservoir 7
5.7 Distribution System 7
5.8 Proposed Rehabilitation 7
5.9 Proposed Rehabilitation for Electrical System 7
5.10 Proposed Rehabilitation for Mechanical System 9
5.11 Environmental and Social Impact Assessment 10
5.12 Summary of Proposed Works 13
6. Project Implementation Schedule
6.1 Implementation Schedule 1
7. Cost Estimate
7.1 Cost Basis for Proposed Work 1
7.2 Cost Basis for Water Supply System 1
8. Appendix 1-Population and Water Demand
9. Appendix 2- Implementation Schedule
10. Appendix 3-Alternatives for Transmission system
11 Appendix 4-Detailed Cost Estimates
12. Exhibits
Page3 of 5
LIST OF FIGURES
Figure No. Title Page No.
III.1 Mass Curve Chapter 3
Page 13
III.2 Consumption Curve Chapter 3
Page 13
V.1 Schematic Flow Diagram for the proposed water treatment plant
at Kabranagar
Chapter 5
Page5
Page4 of 5
LIST OF TABLES
Table No. Title Page No.
I.1 Present Water Supply
Chapter 1
Page 1
I.2 Adopted Population
Chapter 1
Page 2
II.1 Details of Raw Water Pumping mains
Chapter 2
Page 1
II.2 Details of Water Treatment Plant
Chapter 2
Page 2
III.1 Hazen William C-Values for different pipe materials
Chapter 3
Page 2
III.2 Assessed Mass Curve (Inflow/Outflow vs. Time)
Chapter 3
Page 12
IV.1 Characteristics of different types of pipe materials
Chapter 4
Page 4
IV.1a Analytical Results (Kabranagar )
Chapter 5
Page 3
IV.1 b Analytical Results (New Pump house)
Chapter 5
Page 4
IV.3 Possible Environmental and Social Issues in Urban Infrastructure
Projects
Chapter 5
Page 10
IV.4 Summary of Mitigation Measures
Chapter 5
Page 11
Page5 of 5
LIST OF EXHIBITS
Exhibit No. Title
1 Map showing Location of Nanded city in Maharashtra State
2 Layout showing Transmission Main, Proposed Storages and Proposed zone
boundary
3 Layout of water distribution network for Asarjan, Fattejangpur ,Kavatha and
Vasarni
4 Layout of water distribution network for Asadvan and Waghala
5 Typical details of Valve Chamber
6 Typical shape of ESR for staging height of 15m
ABBREVIATIONS
CDP
CI
CIDCO
CPHEEO
CWPH
CWPS
IL&FS
DI
DPR
DSR
ESR
LPCD
MBR
MJP
ML
Mld
MS
NWMC
OHT
RCC
TWIC
WTP
W + S
City Development Plan
Cast Iron
City and Industrial Development Corporation
Central Public Health & Environmental
Engineering Organisation.
Clear Water sump and pump house
Clear Water Pumping Station
Infrastructure Leasing & Financial Services
Ltd.
Ductile Iron
Detailed Project Report
District Schedule of Rates
Elevated Service Reservoir
Liters per Capita per Day
Master Balancing Reservoir
Maharashtra Jeevan Pradhikaran
Million Liters
Million Liters per Day
Mild Steel
Nanded-Waghala Municipal Corporation
Over Head Tanks
Reinforced Cement Concrete
Tamilnadu Water Investment Company
Water Treatment Plant
Working and Standby
Page1 of 3
CHAPTER - I
INTRODUCTION
1.1 BACKGROUND
Nanded City is well connected by train as well as by road to Mumbai, Delhi, Hyderabad.The
River Godavari in Nanded almost bisects the city and it runs in a west to east direction.
Nanded (south) is the new added area to erstwhile Nanded Municipal Council forming
Nanded-Waghala Municipal Corporation. Nanded city is famed for its pilgrim, tourism
offerings and education facilities. Nanded ( South) has growth potential for planned
development of residential and educational facilities (Refer Exhibit-1 for location of Nanded
City in Maharashtra State)
Nanded Waghala City Municipal Corporation (NWMC) is the organization for development
of plans to prepare a long-term perspective plan for Water Supply, Sewerage and storm water
services in the city. Present water supply to the city as given in Table I.1 is 10 Mld for
population of 54,905 souls as per 2001 census. NWMC intends to implement water supply
scheme on priority to improve the water supply in the Nanded(South). NWMC therefore
invited Consultancy services from reputed consulting firm for preparation of long term
perspective plan & detailed project report for water supply scheme, which would form part of
perspective plan.
Table I.1: Present Water Supply
WTP Clear water available in
(Mld)
CIDCO 10 (12.6 Mld)
1.2 SOURCES
Raw Water Pumping Station (CIDCO jack well)
The source was first developed in the year 1985 for supply of 12 MLD. River Godavari is a
source of water for Nanded (South)Waghala Municipal Corporation. A Dam is constructed
across river Godavari at Vishnupuri. Jack well of 8.0 m diameter is located at distance of
about 500.0 m of dam on riverbank (North). A intake well is located at distance of 22.0 m in
river bed from the bank and connected to jack well by 600 mm diameter Reinforced Concrete
pipe.
1.3 JUSTIFICATION OF THE PROJECT
Nanded (South) obtains its daily supply of 12 Mld of water from river Godavari. The present
population in the NWMC area is 94000 souls and is projected to increase to 2.89 lakhs by the
year 2023. The present gross water demand is correspondingly expected to increase to about
44.0 Mld for the year 2023.
Nanded (North) is area heading towards the saturation. Hence Nanded (South) is
newly added area in Nanded Waghala City Municipal Corporation (NWCMC). Area
includes mainly six villages and CIDCO ( 1.91 sq.km.) area. Nanded ( South)
particularly has lack infrastructure facilities. New hospitals, institutions are coming
up in the area. In October 2008, a event of tri centenary function of Gur ta Gaddi
would be celebrated at Nanded. Obviously 25 lac pilgrims is expected to mark their
presence for the event.. As part of Infrastructure Development, Government of
Page2 of 3
Maharashtra and NWMC are planning to upgrade the Water Supply system of
Nanded (South) on priority .
1.4 PROJECT AREA
The project area comprises of the Nanded (South) admeasuring 31.14 sq.km. The project area
is under the jurisdiction of Nanded Municipal Corporation. It comprises of Vasrani, Kautha,
Asarjan, Fatehjangpur and Asadvan. Though CIDCO area is part of project area, the water
supply in this area couldn’t review due to non availability of data
CLIMATE
The climate of the city is generally dry except during southwest monsoon season. The average
annual rainfall in the city is about 901 mm and temperature range is in between 46 0C
(maximum) to 18 0C(minimum).
GEOGRAPHY & TOPOGRAPHY
Nanded (South) situated on the bank of river Godavari at an altitude 489 m above mean sea
level. It is located approximately at the intersection of 18O30’ N latitude and 77
O10’ E
longitude. The total area of Nanded south and North City (NWMC) is 51.76 sq.km. The city
is divided in two parts i.e. Old Nanded Town (20.62) Sq kms located North of the Godavari
and Waghala area along with newly merged 6 villages (31.14 Sq. Kms) in the South. Nanded
South and North of Godavari slope towards the river. Ground levels vary from 405.0 m to
355.0 m near the river.
GEOLOGY
Nanded (South) Municipal Corporation area generally has sandy soil.
1.5 POPULATION
After formation of Nanded Waghala city Municipal Council, 2001is the first census taken
place for population. The total population of the project area was about 54000 soul in the year
2001. The present population is about 94000 souls.
Population projection has been given in City Development Plan (CDP) prepared by IL&FS.
The annual growth rate of 4% is considered in CDP by ILFS. The same annual growth rate is
considered to obtain the population for the year 2038. Following projected population has
been adopted.
Table I.2: Adopted Population
Year Populations
2001 54,905
2006 94,054
2023 289,334
2038 687951
Page3 of 3
1.6 AUTHORISATION
Tamilnadu Water Investment Company (TWIC) has authorised TCE Consulting Engineers
Limited to review available Master Plan and D.P.R.. In absence of such information, a fresh
DPR are prepared for Nanded(South). A water supply augmentation project for Nanded
Municipal Corporation(South area) has been prioritized for the year 2023.
TCE wishes to thank TWIC for entrusting the task of review of Master plan & Detailed
project Report and also acknowledges the full co-operation offered by officials of NWMC for
collection of data and drawings required for the same. Also thanks are due to officials of
Maharashtra Jeevan Pradhikaran (MJP) for making available relevant data required for the
project.
Page1 of 6
CHAPTER - II
EXISTING WATER SUPPLY SYSTEM
Nanded Waghala City Municipal Corporation (NWCMC) manages the water supply and
sewerage system for the Nanded (North) and Nanded (South) city in addition to its other
functions. River Godavari is identified as the surface water source. Nanded (South) comprises
of City and Industrial Development CIDCO, HUDCO area and six villages. In Nanded
(South) only CIDCO area (1.91sq. km) is covered with regular water supply schemes in the
year 1985. Rest of the area has got supply from local source. The details of the system for
CIDCO area is as follows:
CIDCO system consists of following components:
i) Raw Water Pump house (RWPH)
ii) Raw water transmission main (RWTM)
iii) Water Treatment Plant (WTP)
iv) Clear Water sump and pump house (CWPH)
2.1 RAW WATER PUMP HOUSE
There is one raw water pump houses in a system located at Vishnupuri
Raw Water Pump House (Jack well-CIDCO):
The jackwell was constructed in the year 1985 as part of water supply system for CIDCO area
of Nanded city. Pump house consists of jack wells of 8.0 m diameter. Jackwell is located at
500.0 m upstream of Vishnupuri dam on the right bank of Godavari River. Water is drawn
from inspection wells with opening of 600 mm fitted with mild steel wire mesh to protect the
entry of debris into jackwell. Bed of the river is 343.0m. Drawal is of water is at 340.0 m
through intake well at 41.5 m distance into bed from jackwell. Overall capacity of jack well is
for 12 Mld water supply. There are two pumps (1W+1S) in the jackwell with 100% stand by
arrangement. Jackwell has spare capacity to accommodate two more pumps.
2.2 RAW WATER TRANSMISSION SYSTEM
Raw water from the jack well is pumped to the inlet of water treatment plant. The details of
the raw water mains are as follows:
Table-II.1: Details of Raw Water pumping mains
Sr.
No.
Location
of
Jackwell
WTP Diameter
(mm)
Length
(meter) Material
1 Vishnupuri CIDCO WTP 450 4500 Cast Iron (CI)
Page2 of 6
2.3 WATER QUALITY AND WATER TREATMENT PLANT (WTP):
Presently raw water is treated at various treatment plants. All the existing water treatment
plants are of conventional type having aeration, clarification and filtration as main units. All
the treatment plants are functioning to their design standards. The treated water quality is
within the limits of the CPHEEO drinking water standards. The capacity and their area of
coverage is given in table II.2. Civil structures of the WTP are in Reinforced Cement Concrete.
All treatment unit are Structurally in good condition. However the shutter of steel windows of
filter house and chemical are corroded condition and requires replacement. Size of windows
for filter house and chemical house is 2 nos.18.0mx2.0m and 2 nos.15.0mx2.0m respectively
Table II.2: Details of Water Treatment Plant
Sl.
No. Source
Allocated
Quantity
from the
source
(MLD)
Installed
Capacity
(MLD)
Current
Water
Drawl
(MLD)
Reservoirs
coverage
3 Vishnupuri 4.0 12.0 10.0 CIDCO township
Clear Water Pumping stations, Sump and pump house:
Treated water is then pumped directly to sump and from the sump; water is pumped to
elevated service reservoir. The clear water pump house is located within the water treatment
premises.
i) Clear water pump house at CIDCO water treatment plant
Sump and Pump house
There are two-sump and pump house in CIDCO area. They are in Reinforced Cement
Concrete material. Civil works are structurally in good condition. The sump and pump house
is within the ESR premises. The technical details of the same are not available. First sump
and pump house is at about 300-meter distance from WTP. Three pumps are housed in the
pump house with 2 working and 0 standby (under repair). Second sump and pump house is at
1.0 km distance from WTP. Four pumps are housed in the pump house with 2 pumps working
and two standbys. The details of the pumps aren’t available. Hence the details of pumps aren’t
given in this report.
Clear water Transmission System
Water from WTP sump is pumped to two sumps at different locations. Transmission system
is shown in Exhibit 2. Cast iron pipes are used in the transmission system.
Clear water from WTP is pumped to at sumps through 450 mm CI main with braches to
sumps of 250 mm diameter. Length of pumping main is 1.0 km approximately.
2.4 RESERVOIRS
There are two sumps and two Elevated Service Reservoirs in CIDCO area., Capacity of
sumps are 1.30 Ml and 1.20 Ml. and ESR capacity of related sumps at each location is 1.2 Ml.
Existing storage is about 40% of treatment capacity.
Page3 of 6
2.5 WATER DISTRIBUTION SYSTEM
Details for distribution system are not available with NWCMC.
2.6 ELECTRICAL SYSTEM
Power Supply Arrangement
2.6.1 CIDCO Raw Water Pumping Station
Existing System
The pumping station gets 11kV supply from MIDC substation which is 5kM away and its not
a dedicated feeder.
The incoming 11kV line is terminated on a two pole structure consisting of CT-PT metering
set, disconnector and drop-out fuse with outgoing connected 1 nos 11kV / 0.433kV , 315kVA
transformer. The secondary of transformer is connected 250kVA Voltage stabilizer to correct
voltage fluctuations.
The MCC is having 1000A ACB as incomer and two numbers outgoing feeders for starter
panels of 160 kW Motors and SFU feeders for fixed capacitors.
Observation
They have voltage fluctuation problem so pump starting is a problem.
The MCC is totally in bad shape
There is no proper cable management system
The point wiring has been done using MS conduit and has completely rusted has to be totally
replaced
There is no proper lighting inside the machinery area.
2.6.2 CIDCO 12mld Water Treatment Plant And Clear Water Pumping Station
Existing System
The pumping station gets 11kV supply from Waghala substation which is 2.5kM away and its
not a dedicated feeder.
The incoming 11kV line is terminated on a two pole structure consisting of CT-PT metering
set, disconnector and drop-out fuse with outgoing connected 1 nos 11kV / 0.433kV , 150kVA
pole mounted transformer. The secondary of transformer is connected 125kVA Voltage
stabilizer to correct voltage fluctuations.
The CWPS MCC is having incomer 200A MOCB and SFU outgoing star-delta feeders to
45kW motors and on feeder to WTP.
The WTP has 5.5kW Floculator, 4.5 kW Clarifier bridge, 15kW Air compressor.
Observations
Page4 of 6
They have voltage fluctuation problem so pump starting is a problem.
The CWPS MCC and WTP MCC is bad shape.
There is no chlorination system.
There is no proper cable management system
The point wiring has been done using MS conduit and has completely rusted has to be totally
replaced
There is no proper lighting inside the machinery area
2.6.3 CIDCO 35mld New Water Treatment Plant and Clear Water Pumping
Power Supply Arrangement
The location of 35mld WTP and Clear water pumping station is located 1 kM away from
existing WTP. The nearest substation is Waghala Grid Substation which is approximately
4kM away from proposed site, 11kV dedicated feeder will be installed from Waghala grid
substation to New WTP Site.
2.7 MECHANICAL SYSTEM
2.7.1 CIDCO RAW WATER PUMPING STATION
Existing System:
The pumps at this pumping station were installed and commissioned in 1985 and pump raw
water to CIDCO WTP. There are two pumps in the pump house (one working + one standby)
each having a capacity of 580 m3/hr and head of 52 mtr.
Individual pump delivery pipe is connected to discharge header inside the pump house. One
non-return valve and one manual sluice valve is provided on delivery pipe.
Pressure gauges are installed on the pump delivery but are not in working condition.
A 5 Ton manual Crane installed for the purpose of pumping unit maintenance.
Observations:
It is observed that the pumping units are very old and excessive heating is observed.
There is no level, flow measurement instrument provided.
2.7.2 CIDCO WATER TREATMENT PLANT
Existing System
The Raw water to the treatment plant is fed from CIDCO Raw Water Pumping Station. The
treatment scheme consists of a Cascade aerator, flash mixer, 2 no. Clariflocculator, three
Gravity sand filters. Also, the water treatment plant consists of Alum handling cum dosing
Page5 of 6
system, Lime handling cum dosing system and Chlorine handling cum dosing system. This
WTP of 12 Mld was installed and commissioned in the year 1985-86.
The raw water inlet from the cascade aerator is through Parshall flume with flow meter. The
flow meter is not working.
Presently due to Algae problem, bleaching powder is dosed just after the Cascade Aerator.
Alum solution is added after the parshall flume in the WTP with a constant head dosing tank
located in the inlet channel just before the flash mixer. Flash mixer is provided for mixing
alum solution with raw water. The flash mixer is in working condition. Three tanks are
provided for preparation of alum solution with one mixer in each tank. The mixers are
corroded and need replacement. The piping and valves for the alum tanks are corroded and
need refurbishment/replacement.
Clariflocculator is provided for WTP for sedimentation. The clariflocculator are reported not
in proper working condition and breaks down frequently. The clarifier scrapers are partly
corroded.
Two tanks are provided for preparation of lime solution with one mixer in each tank. The
mixers are not in working condition. The piping and valves for the lime tanks are corroded.
Presently lime is not dosed.
The clarified water from the clariflocculator is then filtered by Three (3) gravity sand filters
each filter has an inlet isolation gate which are corroded and difficult to operate. The filter
bed valves are leaking badly. It is reported that pressure drop across the bed is very high due
to poor quality of sand media. The loss of head meter and rate of flow meter on the filter beds
are not working. The valves in the filter beds are not functioning properly and majority of the
valves are leaking from the gland and flange joints. The two Air blowers installed for back
wash of filters are in completely bad shape. One of them is not in service. Back wash is
carried out by water from the overhead backwash tank. Pure water is stored in the backwash
tank and used for backwashing of the filters.
Post-chlorination system though provided but is now completely out of service. Presently
chlorine is directly dosed from the cylinder into the pure water header. Safety kit items are not
in proper order.
Observations:
Most of the mechanical systems in the plant are non operational and thereby affect the quality
of water produced.
No proper chemical dosing is being carried out due to non existent measuring and control
system.
The chlorine is dosed in a crude way, thereby creating a very hazardous situation.
Filters are not properly backwashed, thereby reducing their output in terms of both quality
and quantity.
2.7.3 PURE WATER PUMPING STATION – CIDCO
Page6 of 6
The pumping station is designed for a configuration of 1W+1S system with each pump
capable of pumping 6 Mld of pure water. Presently both the pumps are in operation. The
pumps are vertical turbine pumps. These pumps were installed in the year 1989.
Individual pump delivery pipe is connected to a main header discharge header inside the
pump house. One non-return valve and one manual sluice valve are provided on delivery
pipe.
Two horizontal centrifugal pumps of 26 m3/hr with a discharge head of 30 m are installed to
meet the requirement of engineering college.
A manually operated overhead hoist of 5T capacity is provided for handling of equipment
located in side the pump house.
Pressure gauges are installed on the pump suction and delivery. None of the pressure gauges
are in working condition.
No flow-measuring, level measuring instrument is provided in the system
Observations:
The pumps are quite old and break down frequently and need replacement.
Flow measuring and level measuring instrument need to be installed for proper monitoring of
water pumped and for protection of the pumps.
Page1 of 13
CHAPTER – III
SYSTEM PLANNING CRITERIA
3.1 GENERAL
This Chapter discusses the basis for identifying Design Parameters to be used in the design of inlet
mains to service reservoirs and the components of distribution system covered under the project.
Design horizon has been considered on the basis of year of Gur-ta Gaddi on September, 2008.
Accordingly horizon year would be as 2023 and 2038.
3.2 POPULATION
Population figures would be used as given in City Development Plan (ILFS). The population for
the year 2038 is obtained by extending the graph given in CDP. The population for Nanded (South
of Godavari) for the year 2023 and 2038 are given in Appendix 1 Table1.
3.3 WATER DEMAND
Water demand projections are carried out with per capita rate of 135 lpcd at consumer end and
losses up ward for gross demand projections as per CPHEEO manual. Demand is given in
Appendix 1 Table-.3
3.4 INLET MAINS TO SERVICE RESERVOIRS AND TRUNK MAINS
Flow Rate
The inlet mains to service reservoirs and trunk mains will carry water for 22 hours. To cater for
emergencies, these mains are designed for 1.1 times the daily average flow. A minimum residual
head of 2.0 m is considered over the full level of the reservoir. The full supply levels of the
existing reservoirs proposed to be used in the system. The proposed reservoirs are marked on the
Exhibit-2. The inlet main system would be in the form of a tree network of pipelines supplying
water to various reservoirs. The design of the trunk system is done using Environmental
Protection Agency (EPA) net software. The inlet mains to the service reservoirs are designed to
cater projected flows for the year 2038 and are checked for intermediate (2023) flow conditions.
3.5 LOCAL DISTRIBUTION SYSTEM
Service Storage
Storage in the service reservoirs have to be provided considering balancing of inflows and
outflows and emergency including water for fire fighting. The service storage in the horizon year
2023 is worked out presuming a 22-hour water supply. A 22-hour consumption pattern based on
assessment of water consumption every hour under local conditions has been synthetically
developed and presented in Figure III.1. The cumulative inflow and outflow for a service reservoir
are depicted in Table-III.2. From this curve, the balancing storage works out to 33 percent of the
daily water supply. The total storage to be adopted for design is considered as 33 percent
including emergencies and fire fighting requirements. These figures are taken from sample studies
carried out under this assignment.
The existing storage and proposed reservoirs in NWCMC area is given in Appendix 1, Table 2.
The storage required for this satisfaction would be for about 8 hours or about 33 percent of supply,
which is for 6 hours of supply.
Page2 of 13
3.6 HAZEN-WILLIAMS C-VALUE
In existing distribution system, Cast iron pipes have been widely used in the past. As the soil strata
is black cotton soil which is of corrosive nature, recently, internal mortar lined ductile iron pipes
have been laid in NWCMC area for trunk distribution mains and local distribution mains to take
care of corrosion of pipes.
Due to corrosion, carrying capacity of cast iron pipes reduces. The deterioration of C- value with
ages for cast iron pipes would be considered as in the table given below:
The design of transmission system is carried out by considering C value of 130 for Ductile Iron
(DI) and Mild Steel (MS).
Based on material and age of the pipe, following C-values would be adopted for design of
distribution system.
Table III.1: Hazen William C -Values for different pipe materials (Distribution Pipes)
Material
Age (years)
C value
Cast iron (CI) New 100
10 90
15 80
Ductile iron (DI) New & old 120
Mild steel (Mortar lined) New & old 120
Proposed pipes
All the proposed pipelines upto 750 mm is of DI material and pipelines above 750 mm are of
mortar lined MS pipes.
3.7 PEAK FACTOR
The peak factor with the twenty-two hours consumption pattern as shown in Fig.III.2-, which is
referred earlier, will be about 2.5. This peak factor would be used in the design.
3.8 LOCAL DISTRIBUTION NETWORK ANALYSIS
Distribution System
The proposed distribution zones are planned considering coverage of the existing distribution
network of the nearby existing reservoirs. In addition to this following points have been
considered while rezoning:
i. Geographical features and ground profile
ii. Population densities
iii. Location of existing reservoirs
iv. Availability of land to build additional reservoir at existing reservoir site and at new locations
v. Feasibility of laying additional mains
vi. Manmade barriers like railways, major roads etc.
Page3 of 13
There is a large variation in demand for the year 2023 and 2038. Therefore laying of pipes now for
the year 2038 is not advisable. Hence water distribution would be design for the requirement for
the year 2023. However transmission system is designed for the year 2038 as it is to be laid once
on major roads.
3.9 RESIDUAL PRESSURES IN THE DISTRIBUTION SYSTEM
Presently the houses in the Nanded Waghala Municipal Corporation area are in the range of
Ground to Ground+1 Storied. Therefore system is designed for minimum residual pressure of 12
m at nodal points.
3.10 MINIMUM DIAMETER OF THE PIPE
The minimum proposed diameter of pipes considered in the analysis is 100 mm and no service
connections would be given from a pipe more than 200 mm dia. Wherever there is single pipeline
on a road of size above 200mm, a parallel line of 100 mm is proposed for giving consumer
connections.
3.11 MISCELLANEOUS CONSIDERATIONS
Bulk Flow Meters
After a careful study of the system’s requirements, bulk flow meters have been proposed at 12
strategic points in the system such as water treatment plants, service reservoirs and pumping
stations to monitor the quantum of water being handled at these places. Magnetic type full-bore
flow meters have been recommended
A provision is also made for bulk meter at existing stand post for measurement of flow. About 40
no 100 mm size meters are proposed in the system.
Pressure Gauges
Monitoring of the water supply system would include monitoring of the pressures and flows in the
field.
For monitoring pressures in the local distribution network in the field, it is proposed that pressure
points be made and kept ready at all important road junctions and at critical points as sudden dips
or humps. Whenever required, pressures could be monitored easily at these points.
In every zone about 5 points are anticipated. A total of 30 points are proposed.
Level Indicators
During studies conducted for identification of rehabilitation measures for service reservoirs in the
system it was noted that level indicators at many of these locations were either not in working
condition or missing. A provision is now made to have float type level indicators at all these
locations. Level indicators are proposed for all the new reservoirs.
Valves
For operation and maintenance of any intermittent supply system a minimum number of valves are
necessary. Ideally in a continuous supply system every branch should have a valve to enable
isolation of lines in stretches.
Now that NWCMC is planning for leak detection work on a large and continuous basis, the system
should have adequate number of valves to isolate the pockets.
Page4 of 13
3.12 STRUCTURAL DESIGN CRITERIA FOR ELEVATED SERVICE RESERVOIRS
Standards And Codes
The following codes (latest edition) are applicable for the design of various structures.
a) IS 456: Code of Practice for Plain and Reinforced Concrete.
b) IS 800: Code of Practice for General Construction in steel.
c) IS 875: Code of Practice for Structural Safety of Buildings – Loading Standards.
d) IS 1893: Criteria for Earthquake resistant design of Structures. (Refer 4.4 also
e) IS 3370: Code of Practice for Concrete Structures for the Storage of Liquids (Part I to IV).
.
Geotechnical Data
Detailed geotechnical investigation is proposed to be carried out at the site. From the report of a
preliminary geotechnical investigation carried out earlier, the safe soil bearing capacity for the
design and cost estimating of the ESRs can be taken as 100 KN/sq m. The detailed report and the
recommendations of the geotechnical investigation agency, after review, regards Safe Bearing
capacity, type of foundation, ground water table and other related matters, will be followed in the
design of foundations.
Loads
The ESRs for this project would be designed for the following loads –
Dead Loads
Dead loads would include the weight of all permanent construction including walls, staging,
floors, finishes, roof and staircase
The dead loads of materials would be as per IS 875 Part 1. The minimum dead loads of frequently
used materials in the design of ESRs would be considered as follows:
(a) Weight of water: 9.81 kN/m3
(b) Weight of soil (irrespective of strata
available at site and type of soil used
for filling, etc.). However, for checking
stability against uplift actual weight of
soil as determined by field test would
be considered: 20.00 kN/m3
(c) Weight of plain concrete: 24.00 kN/m3
(d) Weight of reinforced concrete: 25.00 kN/m3
(e) Weight of plaster to masonry 18.00 N/m2 per mm thickness
surface:
Live Load
Live Load would include the superimposed loads due to the use/maintenance of the ESRs not
including dead, wind or earthquake load. The live loads would be as per IS 875 Part 2. The
minimum live loads on floors for different uses frequently required in design would be as follows:
(a) Live load on roofs 1.50 kN/m2
(b) Live load on all other floors,
Page5 of 13
Walkways and platforms 5.00 kN/m2
(c) Live load on stairways 5.00 kN/m2
.
Wind Load
Wind load on ESRs would be as per IS: 875 (Part 3). Basic Wind Speed (Vb) for Nanded is 39
m/sec. For calculation of Design Wind Speed (Vz) the following coefficients would be adopted:
K1 = Probability Factor for a return period of 50 years = 1.0
Terrain, height and structure size factor (determined from Table 2 of IS: 875 Part 3)
Topography Factor =1.00 for sites on level ground. For sites on sloping grounds, K3 would be as
per Appendix C of IS 875 Part 3.
Vz = K1 * K2 * K3
and Design Wind Pressure
Pz = 0.06 Vz2
Where Pz = Design wind pressure in N/m2 at height Z
Seismic Load
Seismic loads would be computed according to IS 1893 -1984 for the ESRs.
As per IS 1893 – 2002, Nanded falls in Zone II of Seismic map of India. The importance factor to
be considered for design of ESRs would be taken as 1.5.
Combination of Load Cases
A judicious combination of the loads specified above keeping in view the probability of:
a) Their acting together and
b) Their disposition in relation to other loads and severity of stresses or deformations caused
by combinations of the various loads is necessary to ensure the required safety and
economy in the design of the ESRs.
Keeping the above aspect in view, the following load combinations, whichever combination
produces the most unfavorable effect in the ESRs, foundation or structural member concerned will
be adopted.
a) DL
b) DL + LL
c) DL + WL/EL
d) DL + LL + WL/EL
Where DL = dead load
LL = live load
WL = wind load and
EL = seismic load
DESIGN REQUIREMENTS FOR RCC ELEVATED SERVICE RESERVOIRS (ESRs)
i. All non-water retaining concrete members would be designed as per limit State Method of IS 456.
All water retaining concrete members would be designed as per IS 3370 Parts I, II and IV.
Page6 of 13
ii. ESRs would have a circular container with a domed roof. The base would be flat supported on
beams.
iii. The staging supporting the ESR would consist of RCC columns and tie beams at intermediate
levels. The columns would be circular in shape.
iv. Minimum grade of concrete for staging and foundations would be M25 and for the container
including roof would be M30. For grade slabs, the concrete grade would be M15
v. Minimum cement content for M25 & M30 grade concrete would be respectively 350 kg / cum and
400 kg / cum.
vi. Cement of grade 43 conforming to IS 8112 would be used for the staging and of grade 53
conforming to IS 12269 for the water container. Sulphate resisting cement conforming to IS 12330
would be used if sulphate content in ground water and/or soil is high.
vii. Blinding and leveling concrete would be PCC of minimum 75 mm thick of mix 1:4:8.
viii. Water cement ratio would not be more than 0.45. Plasticizers of reputed makes may be used to
reduce the water cement ratio up to 0.40.
ix. Minimum dimensions for the concrete members would be as below
(a) Circular Column 400 mm
(b) Container Wall 200 mm
(c) Container bottom slab 150 mm
(d) Container dome slab 100 mm
(e) Parapets / Walkways 100 mm
(f) Column footings / raft 300 mm
(g) Beams 230 mm
x. The minimum cover to the main reinforcing bars for different members would be as follows unless
stated otherwise
For non water retaining members / surfaces:
a) Slab (Floor, roof, Staircase) 30 mm
Beams (Sides, bottom & top) 40 mm
Columns 50 mm
Pedestals (in contact with earth) 50 mm
Foundations 50 mm
For water retaining members / surfaces:
a) Face in contact with water 45 mm
Page7 of 13
b) Face away from water and not
in contact with earth 30 mm
c) Face away from water and
in contact with earth 40 mm
d) Soffit of roof slab 45 mm
e) Foundations 50 mm
xi. Maximum 40mm aggregate size would be used for footings and rafts and with a maximum 20mm
aggregate size for all other structural members. Selected aggregates of proper sizes would conform
to IS 383.
Reinforcing Steel:
(a) Reinforcing bars and wires would be Thermo Mechanically Treated type conforming to grade Fe
415 or plain round bars conforming to IS 432 Grade I. Reinforcing bars higher than 32 mm
diameter would be avoided. Welding of laps for bars higher than 32 mm diameter (if required as
per design) would be done as per IS 2751.
(b) Minimum reinforcing steel would be as per IS 3370 for water retaining members and as per IS 456
for non-water retaining members.
(c) Maximum spacing of main reinforcement in slab or walls would not be more than 150 mm c/c.
The spacing of distribution steel or vertical bars in column would not be more than 300 mm.
x. The safe bearing capacity of the founding stratum, type and depth of foundations would be as per
3.0 above.
xi. Foundations would be designed to have a factor of safety of 1.5 against sliding and 2.0 against
overturning.
xii. Permissible deflections for concrete members would be as per IS 456 clause 23.2.
xiii. At the floor level of the ESRs, a cast iron or stainless steel grate would be provided over the
supply outlet and scour outlet. The grates will be of 20 mm x 20 mm with square frames.
xiv. The overflow outlets would not be connected to the distribution system. The overflow outlet will
always be left open.
a. Approved quality waterproofing compound would be added during concreting of all liquid
retaining structures in the proportions specified by manufacturer or 2% by weight of cement,
whichever is higher.
b. Two coats of Bitumen paint would be applied on the soffit of roof slab of the ESRs.
c. Water tightness testing of container of the ESRs would be done in accordance with IS: 3370,
Part I.
d. Curing period for water retaining members would be minimum 15 days.
Miscellaneous Steel Structures
General
The requirements for design, material and fabrication including connections of pipe supports and
miscellaneous structural steelwork like ladders, hand railing etc. are covered in this section.
Page8 of 13
Unless otherwise specified, steel for hot rolled structural sections and plates would conform to IS
2062. Steel tubes for structural purpose would conform to IS 1161.
Design Method
All designs and details would be in compliance with IS 800. Working stress method will be
adopted. The allowable stresses and slenderness ratios would be as per IS 800
Connections
All shop connections would be welded (minimum structural weld 4mm throat thickness). Welders
will be certified before they are allowed to work.
Miscellaneous Structures
Ladders
Mild steel Ladders would be 450 mm wide and would not exceed 9m of straight run. A safety
cage would be provided for ladder higher than 6 m. For reservoirs, the ladders would be painted
with epoxy paint.
Platforms and Walkways
The minimum width of platforms and walkways would be 1000 mm.
Hand railing
Hand railing would be provided on both sides (on one side for spiral staircase) of all stairways,
platforms and walkways. Hand railing would consist of 32 mm dia (light) G.I. tubular member as
top rail, mid rail, lower rail and posts. Posts would be at 1.5 to 2.0m center to center
approximately. Height of handrail would be 1.0m.
3.13 GENERAL DESIGN CRITERIA FOR ELECTRICAL SYSTEM
All electrical equipment will be rated for 50°C designed ambient temperature. The installation will
generally conform to Indian Standards / IEC.
The following assumptions shall be made to arrive at the load
a) Load Factor
i) Main motor : 0.9
ii) Auxiliary load, gate valve motors, etc. : 0.9
iii) Lighting load : 1.0
b) Diversity Factor
i) Main motor : 1.0
ii) Auxiliary load, gate valve motors, etc. : 1.5
iii) Lighting load : 1.2
c) Power factor of Motors shall be as per manufacturer’s catalogue
d) Efficiency of Motors shall be as per manufacturer’s catalogue
e) Energy efficient, high performance motors are proposed for main pump motors for optimize
utilization of energy.
Page9 of 13
Protections:
The following protections are proposed for switchboard, motors and other plant feeders.
a) 11kV Switchgear Main Transformer Feeders
i) IDMT over current, Instantaneous over current and Instantaneous earth fault
protection
ii) Transformer differential Protection only for ratings above 5 MVA.
iii) Transformer auxiliary protection (e.g. WTI, OTI, Bucholz, etc.)
Incomer and Outgoing Feeders i) IDMT over current, Instantaneous over current and Instantaneous earth fault
protection
b) LV switchboard
i) The ACB feeders shall be provided with electronic releases for IDMT Short circuit,
over current and earth fault.
ii) The ACB bus coupler feeders shall be provided with electronic releases for IDMT
short circuit and over current.
iii) The MCCB feeders shall be provided with Thermo magnetic releases for IDMT Short
circuit, over current and earth fault.
c) LV Motors
i) For motor ratings less than or equal to 132kW shall be provided with overload
protection by thermal (bimetal) relays in all the three phases to trip with single phase
preventer (SPP)
ii) For motor ratings above 132kW shall be provided electronic comprehensive motor
protection relay consisting of following protection thermal overload, locked rotor,
short circuit, negative sequence and earth fault.
Metering The following metering shall be provided.
a) 11 kV Incomer
i) Ammeters with ammeter selector switch
ii) Voltmeter with voltmeter selector switch
iii) kW meter
iv) Power factor meter
v) Kilowatthour meter
iv) Frequency meter
b) 11 kV Outgoing Feeders: Ammeters with ammeter selector switch
c) LV Incomer
i) Ammeters with ammeter selector switch
ii) Voltmeter with voltmeter selector switch
iii) kW meter
Page10 of 13
iv) Power factor meter
v) Kilowatthour meter
v) Frequency meter
d) Indication
i. 11kV Incomer feeders: Circuit breaker ON, OFF & TRIP, spring charged, control
supply healthy and trip circuit healthy.
ii. LV Incomer: Mains ON (red, yellow & blue)
iii. LV Motor Feeders: Motor ON, OFF & Trip indication (Red, green & Amber)
The capacity of the transformers shall be decided based on 100 % standby (redundancy) i.e. in the
event of outage of any one of the transformer, other transformer can supply the complete load.
Here since the main motors are H.T and auxiliary motors L.T separate transformers are provided
for H.T and L.T.
L.T motor up to and equal 5.5kW shall be provided with DOL starters, motor ratings above 5.5kW
up to or equal to 250kW shall be provided with Star delta starters and all motor above 250kW shall
be provided with FCMA soft starters.
If motor ratings go beyond 250kW then H.T motors shall be used with voltage supply
3.3kV/6.6kV. The method of starting shall be either DOL or FCMA soft starter such that voltage
dip during shall be with in 15%.
The main LV switchboard is proposed with 'Form-4' enclosure as per the Indian Standards. All
indoor boards/panels and motors are proposed with a degree of protection of IP 54, while all
outdoor equipment will be with a degree of protection of IP55. Necessary metering, protections
and indications will be provided on the LV switchboard.
All power cables shall be sized based on continuous current capacity, permissible voltage drop and
short circuit current rating. The voltage drop will be limited to 2.5 % at rated equipment current
rating. The other rating factors for variation in ground temperature, variation in ambient air
temperature, grouping of cables, depth of laying, etc. shall also be considered for cable sizing.
All LV power cables up to 6 sq.mm shall have stranded copper conductors and above that it
shall be stranded aluminum conductor. Power cables shall be XLPE / PVC insulated, extruded
inner and outer sheaths and galvanized flat/wire armouring.
The main L.V cable from transformer secondary to the incomer of main L.V switchboard, which is
laid directly in ground, shall be XLPE insulated.
The outgoing cables from main L.V switchboards and Sub distribution boards, which are laid on
cable trays and trenches, shall be PVC insulated.
Control cables will be with stranded copper conductor, PVC insulation, extruded inner and outer
sheaths and galvanised flat/wire armouring
The illumination levels for various areas shall be considered as follows:
Area Illumination level (Lux)
Pump House 200
Office Room 300
Switchboard Room 200
Cable Galleries 150
All other indoor areas 150
Outdoor plant area and Road 10 – 20
Page11 of 13
The earthing shall be carried out as per IS 3043. The material of earthing conductor will be GI.
The values of fault level for designing the electrical system shall be based on transformer capacity,
its impedance and system fault level. Fault clearing time for sizing of earth conductor will be taken
as one second.
While sizing the buried earth conductor, a corrosion allowance of at least 20 % shall be taken.
Plant earthing system shall be designed such that the overall earthing grid resistance is maximum
one ohm.
Main earthing conductors outside and inside the building shall be planned in such a manner
various equipment are connected to earthing system by two connections in a reliable manner.
Earth leakage Circuit Breaker (ELCBs) shall be provided at the incomer of Lighting panels.
Compliance to Standards:
The electrical safety and clearances will be maintained as per Indian Electricity Rules and CBIP
guidelines. The equipment selection and electrical installation will generally conform to the latest
edition of Indian Standards (IS) and the International Electro-technical Commission (IEC).
Page12 of 13
Table III. 2: ASSESSED MASS CURVE (INFLOW/OUTFLOW vs. TIME)
Time Consumption
Rate (%)
Inflow
Rate (%)
Cumulative
Inflow (%) (%)
Difference
(Cum. Inflow-
Cum. Outflow)
Time
MID NT. 0.00 0.00 0.00 0.00
1 AM 0.00 0.00 0.00 0.00 0.00 1 0.00
2 AM 0.00 4.55 4.55 0.00 4.55 2 0.00
3 AM 0.00 4.55 9.09 0.00 9.09 3 0.00
4 AM 5.00 4.55 13.64 5.00 8.64 4 1.20
5 AM 11.38 4.55 18.18 16.38 1.81 5 2.73
6 AM 11.38 4.55 22.73 27.75 -5.02 6 2.73
7 AM 11.38 4.55 27.27 39.13 -11.85 7 2.73
8 AM 11.38 4.55 31.82 50.50 -18.68 8 2.73
9 AM 5.00 4.55 36.36 55.50 -19.14 9 1.20
10 AM 0.00 4.55 40.91 55.50 -14.59 10 0.00
11 AM 0.00 4.55 45.45 55.50 -10.05 11 0.00
NOON 0.00 4.55 50.00 55.50 -5.50 12 0.00
1 PM 0.00 4.55 54.55 55.50 -0.95 13 0.00
2 PM 0.00 4.55 59.09 55.50 3.59 14 0.00
3 PM 0.00 4.55 63.64 55.50 8.14 15 0.00
4 PM 0.00 4.55 68.18 55.50 12.68 16 0.00
5 PM 8.00 4.55 72.73 63.50 9.23 17 1.92
6 PM 8.00 4.55 77.27 71.50 5.77 18 1.92
7 PM 8.00 4.55 81.82 79.50 2.32 19 1.92
8 PM 8.00 4.55 86.36 87.50 -1.14 20 1.92
9 PM 8.00 4.55 90.91 95.50 -4.59 21 1.92
10 PM 4.50 4.55 95.45 100.00 -4.55 22 1.08
11 PM 0.00 4.55 100.00 100.00 0.00 23 0.00
MID NT. 0.00 0.00 100.00 100.00 0.00 24 0.00
100.00
Total 100.00 100.00
STORAGE
REQD.
>>>>>
Storage
capacity 31.82 %
Page13 of 13
Fig. III.1: Mass Curve
Mass Curve
0.00
20.00
40.00
60.00
80.00
100.00
120.00
MID
NT.
2 AM
4 AM
6 AM
8 AM
10 A
M
NOON
2 PM
4 PM
6 PM
8 PM
10 P
M M
ID N
T.
Time
'% C
um
ula
tive
flo
w
Cumulative inflow
Cumulative outflow
Fig. III.2: Consumption Curve
Consumption curve
0.00
2.00
4.00
6.00
8.00
10.00
12.00
2 4 6 8 10 12 14 16 18 20 22
Time (hr)
Co
nsu
mp
tio
n in
%
Consumption rate in %
Inflow rate
1 of8
CHAPTER – 4
PIPE MATERIAL SELECTION ASPECTS
4.1 GENERAL
This study assesses the suitability of pipes of different materials for use in water supply
systems for Nanded. Two groups of pipelines as given below have been considered.
(a) Trunk Mains/Transmission Mains (mostly 300 mm and above) between water
treatment plants and service reservoirs and
(b) Local distribution Lines (mostly 100 mm to 400 mm) down stream of service
reservoirs.
The materials covered are:
• High density polyethylene (HDPE)
• Medium density polyethylene (MDPE)
• Polyvinyl Chloride (PVC)
• Asbestos Cement (AC)
• Glass fiber reinforced plastics (GRP)
• Cast Iron (CI)
• Mild Steel (MS)
• Electrically welded steel (EWS)
• Ductile Iron (DI) and
• Prestressed concrete (PSC)
The main parameters which have been discussed are available sizes and lengths, applicable IS
codes, basic cost economics, weight, flexibility, available working pressure ratings, tensile
strength, impact strength, ease of tapping and repair, general availability in India, availability
of plant and skilled manpower for manufacturing, laying and maintenance, availability of
corrosion control techniques, ease of locating underground pipes, special bedding
requirements, laying speed and performance experience . Table-I-list the parameters of
various pipe material.
Major characteristics of various pipe materials are brought out as follows.
4.2 PIPE MATERIALS
HDPE
HDPE pipes are available in sizes up to 630 mm OD but they are commonly used up to 315
mm OD. The material is light, has very good impact strength, flexibility and corrosion
resistance. The jointing can be done by butt-welding, insert jointing or by flange jointing and
requires skilled manpower. HDPE pipes are tough and resilient and conform to the
topography of land when laid above ground or in trenches. They can bend to some extent
thus reducing use of specials like bends, elbows etc., there by reducing installations costs.
HDPE pipes are easy to carry and install because of their lightness. Metallic tags could be
fixed at regular intervals for ease in locating the pipe with a pipe locator. These pipes have
been used in India for pipeline laid under backwaters. The pipe has a very high C-value,
which does not deteriorate much with age. The bedding material has to be free and sharp
edges. Fine sand or screened excavated material is ideal. It is the costliest material as
compared to other pipes available in its range.
2 of8
MDPE
MDPE pipes are available in sizes from 20 mm to 110 mm. MDPE belongs to family of
plastic pipes. A wide range of injection moulded fittings, including toes, elbows, reducers,
caps, pipe saddles, inserts and threaded adapters are available. Metallic tags need to be fixed
at regular intervals for locating the pipe. They have a smooth surface and hence the Hazen
Williams roughness co-efficient ‘C’ is high. Thus the carrying capacity is not reduced with
age. Special care needs to be taken about the bedding material, which should be either fine
sand or screened excavated material. If laid over ground they should be adequately supported
to prevent sagging. Also, storing of the pipes needs extra care. These pipes are ideal for
service connections. Tapping of service connections can be given through a saddle only.
Smaller diameter mains are coil able and can be easily bent during installation, eliminating
the use of specials like bends, elbows etc. thereby reducing fitting and installation costs.
They are lighter in weight and can be carried to heights as on hills. They can withstand
movement of heavy traffic. This would not cause any damage to the pipes because of their
flexural strengths. They have non-adherent surface, which reject any foreign materials,
which would impede the flow.
PVC
This is available in sizes up to 250 mm. The material is light, has fairly good impact strength,
high corrosion resistance and a high C-value. The pipes are easy to carry and install because
of their lightness. They need however be protected from high temperature and ultra-violet
light and require proper handling and storage facilities. It is advisable not to lay PVC pipes
above ground to prevent discoloration, surface cracking and brittleness. PVC pipes are also
prone to rodent attack. Tapping requires saddles but requires skilled manpower. Metallic
tags at regular intervals can be provided for ease in locating the pipe with the pipe locator.
The bedding material has to be free from sharp edges. Fine sand or screened excavated
material is ideal. PVC is cheaper than CI and HDPE but more expensive than AC for sizes
available in its range.
AC
This is available in sizes of 80 mm to 600 mm. However it is commonly used in sizes of 100
mm to 600 mm. It is light, has very good corrosion resistance and a high C-value. It is the
cheapest available material. It has low impact strength. It can be drilled and tapped easily.
Provision of saddles at the point of service connections is necessary to avoid possible
leakages near connections. The pipe material is prone to attack by sulfate bearing soils. For
heavy traffic, a cover of at least 1.25 m is desirable on top of the pipe. For locating AC pipes
by a pipe locator, it is desirable to provide metallic tags on pipes at a fixed distance.
GRP
This is available in sizes of 400mm – 2400mm and has been introduced in India a few years
back. The commonly used sizes range from 400 mm to 2000 mm. These pipes have been in
use abroad for many years with satisfactory performance. The pipe is light, has good impact
strength and has a very good corrosion resistance. The bedding of these pipes has to be
formed using granular material compacted to a specific Proctor Density. This can be
achieved with proper supervision and control during laying. Jointing methods consist of
double bell coupling, flanged jointing, mechanical coupling and butt strapping which is
satisfactory but requires skilled manpower. It has a superior C-value; it is more or less on par
3 of8
with internally coated and externally gunited MS for 500 mm and larger sizes. The pipe has
greater durability and high resistance to internal and external corrosion unlike CI and MS
which would require coatings to resist corrosion. Cost of GRP pipe is about 30-40 percent
more than MS pipe with internal mortar lined and external gunited.
CI
This is available in sizes of 80 mm – 1000 mm though the commonly used range is 100mm –
1000 mm. It is widely used in water supply systems in India because of its longer life. There
are examples of cast iron mains in India, which continue to give service even after a century
of use though with reduced carrying capacity. CI pipes can be used in soils and waters of
slightly aggressive character. It would be preferable to have inside mortar lining for CI pipes
if water is aggressive. This will also improve its C-value. They are brittle materials.
Breakage's are expected in transport of pipes. They aren't available with internal mortar
lining.
MS
This can be manufactured from mild steel plates for required sizes. The material has high
impact strength due to high ductility. Specials of all kinds can be fabricated without
difficulty. Due to elasticity, MS pipes adopt themselves to changes in relative ground level
without failure and hence are suitable for laying in ground liable to subsidence. Here MS
pipe with flexible joints provides additional safeguard against failure. MS pipes being
flexible are best suited for high dynamic loading. Because of its low resistance to corrosion,
MS mains need protection from corrosion internally and externally. The internal coating
would improve the C-value. Skilled manpower is available for laying and jointing of MS
pipes. Tapping and repairs are easy. When a pipeline has to be laid over waterway or
railway, MS pipes are most suitable due to their flexibility and their light weight compared to
CI/PSC pipes. When internally coated and externally gunited it marginally differs in cost as
compared to internally coated CI pipe.
EWS
Electrically welded steel pipes (EWS) are readily available from manufacturers. The
characteristics are similar to MS pipe as discussed above. Basic cost it is slightly cheaper
than MS. However, transportation cost (from manufacturer to city & then to site) of large
diameter pipes is higher than MS pipes.
4 of8
TABLE IV.1
Pipe Material Sr
No.
Parameters
HDPE PVC AC GRP CI MS/SWS DI PSC
1. Available Sizes(mm) 20-530 16-250 80-600 400-2000 80-1000 150-2000
for EWS AS
Required
for MS
80-1000 400-1800
2. Lengths (M) 5-20 5-9 3-5 6-12 3-4 3-5
for EWS
Required
for MS
2.75-6 4-6
3. Applicable I.S codes
for Manufacture Laying
and jointing, Fittings
4984 7328
7634
4985 7634 1592 6530 12709 1536 1537
1538 6163
7181
3114
3589
5822
8329 784 1343
783
4. Weight Light Light Light Light Heavy Medium Medium Heavy
5. Flexibility Maximum Medium Rigid Medium Rigid Medium Medium Rigid
6. Available Working
Pressure Range Kg/Cm2
6. 2-10 Class
1 to 5
2.5-10 Class
to10
2.5-12.5
Class 5 to
25
3-15 Class
LA,A,B
6-12 As Required 16-25 As Required
7. Tensile Strength 2.4 5-6 N.A Longitudinal
102-
1054 KN/m
and Hoop
120-9000
KN/m
depending
upon size
15 40 42 N.A
8. Impact Strength Very good Moderate Nil Good Nil Very good Very good Nil
9. C-value 130-150 130-140 130-140 135-150 100-130 100-130 110-120 100-130
10. Corrosion Resistance Very Good Very Good Normally
good but
Very Good Low in cor
soils and water
Good More
Resistance with
Good
5 of8
Pipe Material Sr
No.
Parameters
HDPE PVC AC GRP CI MS/SWS DI PSC
prone to
attack by
soils with
Sulphates
internal lining
and outside
guniting than
C.I
When
Fabricated
with
Quality
Control
11.
Jointing Methods Butt welded
joint,
flanged
joint, insert
joint
Socket joint AC coupling
joint, CI
detachable
joint
Double Bell
coupling
joint,
mechanical
coupling
joint Butt
strap joint
Spigot &
Socket Joint
with Rubber
ring, flanged
joint
Welded
joint,
Flanged joint
Spigot &
Socket joint
with Rubber
ring, Flanged
joint
Spigot &
Socket
Rubber ring
joint,
confined or
Roll on type
12. Ease of tapping and
repair
Saddles
required
expensive
Saddles
required
expensive
Saddles
required
expensive
Saddles
required
expensive
Easy Easy Easy Difficult
13. General Availability Available in
India
Available in
India
Available in
India
Available in
India
Freely
Available in
India
Freely
Available in
India
Available in
India
Available in
India
15. Availability of corrosion
control techniques
N.A N.A N.A N.A Cathodic
protection can
be carried out
Mortar lining
from inside
necessary for
corrosive
water
Inside mortar
lining outside
guniting
practiced,
cathodic
protection can
be carried out
In very
aggressive
soils Cathodic
protection
needed
N.A
16. Ease of location for Not easy Not easy Not easy Not easy Easy Easy Easy Easy
6 of8
Pipe Material Sr
No.
Parameters
HDPE PVC AC GRP CI MS/SWS DI PSC
underground pipe
17 Special bedding requiremeFine sand or
screened
excavated
material
Fine sand or scr
excavated mater
Nil Granular
material
compacted to
specific
proctor density
Nil Nil Over 700 mm
design being of
a thin wall
special care
needed in
bedding &
backfilling
Nil
18. Laying speed Fast Fast Slow Fast Slow Slow Slow Slow
19. Pipe performance experienGood with
reputed
contractors
with unskilled
contract-ors
leakage at
joints
observed.
Does not
deteriorate
with time
Good with
reputed
contractors
with unskilled
contract-ors
leakage at
joints
observed.
Does not
deteriorate
with time
Good liable
to fracture,
if not
handled
carefully
Less
experience in
India
Very good Very good
corrodes
rapidly and
fails if not
protected,
repairs are
easy
No experience
in India Needs
protection from
corrosion
With
unskilled
contractors
manufacturin
g defects,
leakage at
joints and
failure
observed .
Performance
of reputed
contractor is
good.
20. Basic cost Economics
as compared to MS
1100-2000 mm
N.A N.A N.A Costlier than
MS
N.A 100 for MS
and 81 to 91
for EWS
NA Cheaper
than MS
7 of8
DI
Ductile Iron, also called nodular iron or spheroidal graphite iron has superior mechanical
characteristics. Ductile iron differs from cast iron by its greater tensile strength and by its
significant proof stress and elongation after yield. For protection from corrosion, inside and
outside linings are provided. Cement mortar lining material is typically applied. A seal coat
of asphalt material can also be applied over the cement mortar lining. Polyethylene internal
linings and epoxy coatings and linings are also used for special applications. Thus it has the
durability of CI and the ductile strength of MS. However it needs proper bedding and
backfilling for sizes 700 mm and above due to its thin wall design. DI has edge over the CI
pipes though they have 10 percent more cost. They are available with internal mortar lining .
As the pipes are internal mortar lined , they posses higher C-value. Therefore they have more
hydraulic capacity than CI pipes of the same diameter. It has good impact strength. Due to
this, breakages are absent in transportation. They are more corrosion resistant. Laying ,
jointing, and operation, maintenance and ease of connection is similar to CI pipes.
PSC
In India, Prestressed Concrete pipes are manufactured in sizes bewteen 300 mm and 1400
mm though at few places in size of 1800 mm has also been manufactured. The range of 400
mm – 1200 mm is most common. These pipes are used for trunk distribution mains and not
commonly used in the local distribution lines due to difficulty in tapping. The C-value of
PSC pipe is higher than that for CI. Its attraction lies in the fact it is a cheaper material as
compared to CI. It needs high degree of quality control during its manufacture. Laying of
these pipes with proper bedding and rubber rings also calls for skilled expertise and
supervision. This expertise is available only with reputed contractors. Rubber rings have to
be of good quality and storing the same without exposure to light is necessary. In addition to
producing pipes of standard specifications, reputed manufacturers can produce PSC pipes as
per the specifications of the customer. It is necessary to pre-qualify the contractors for
manufacturing and laying of PSC pipes to keep out contractors with unsatisfactory past
records of laying of PSC pipelines.
4.3 SELECTION OF PIPES
GENERAL
Final selection of pipe material depends upon the type of use it is going to be subjected to and
the cost economics. Various related aspects are covered in the ensuing paragraphs. Granular
bedding would be required for HDPE, PVC and GRP. Costs are worked out accordingly. It
is also necessary to compare the costs on a carrying capacity basis because the ‘C’ values
vary for different materials. For local distribution lines the candidate materials are HDPE,
PVC, AC, CI, MS/EWS, DI and PSC while for trunk mains the candidate materials are AC,
GRP, CI, MS/EWS, DI and PSC while for trunk mains the candidate materials are AC, GRP,
CI, MS/EWS, DI and PSC.
LOCAL DISTRIBUTION LINES
Local distribution lines are defined as the pipelines from the various service reservoirs to the
consumers. The sizes of these lines range from 100mm to 1200mm. The materials available
in this range are HDPE, PVC, AC, CI, MS/EWS, DI and PSC. Cost of AC pipes is the
lowest followed by PVC, PSC, MS and CI. AC pipes can be drilled and tapped easily leading
to unauthorized connections. The life of AC pipes is comparatively less, especially due to
8 of8
alternate wet and dry conditions the life gets shortened and the pipe suffers from frequent
bursts. The same, therefore, are not recommended. PSC pipes are available from 400mm
size but it is difficult to provide branch lines in PSC pipes and hence are not recommended
for local distribution. PVC pipes can lead to leakage losses due to rodent attack. They can be
easily tapped and encourage unauthorized consumer connections. The life of PVC pipes is
comparatively less. They are not therefore recommended. The DI pipes are recommended,
since the pipes have better hydraulic capacity, though it has marginal higher cost. DI has
merits such as its good performance record, availability of reputed manufacturers and skilled
manpower for laying, jointing and operation and maintenance and the ease of making
connections. In local distribution system, DI pipes are preferable because in general their
performance is satisfactory. DI pipes are therefore recommended in local distribution
network up to 700mm diameter. For higher diameter mains internally mortar lined and
externally gunited MS pipes are recommended.
TRUNK DISTRIBUTION LINES
The pipes carrying treated water from MBR’s to various reservoirs are defined as trunk
distribution lines, the sizes of these lines normally range from 300mm to 1200mm. The
materials available in this range are HDPE (300 to 400), AC (300 to 600), GRP (400 to
1200), CI (300 to 1000), MS/EWS (300 to 1200), PSC (300 to 1200) and DI (300 to 1200).
AC pipes are the cheapest, however downtime and cost of repairs of AC pipes would be on a
higher scale with the resultant disruption of water supply in trunk mains. They have various
disadvantages as listed above. The same are therefore not recommended. The next cheapest
are PSC pipes, but in recent years, because of bad workmanship of unqualified agencies,
there are cases of failure of these pipelines.
PSC pipes could be relied upon only if vendors are prequalified before they are allowed to
quote. This will filter out unqualified contractors. It would be necessary to prepare stringent
specifications for manufacturing and laying of PSC pipes. Cradle bedding may be laid
through out the length of PSC lines to prevent settlement. NWCMC will have to carefully
monitor the operation during manufacturing and execution stages. PSC pipes are therefore
recommended for gravity. They are not recommended for places where black cotton soil
exists. MS pipes with internal mortar lining and external guniting are recommended here.
For pumping mains MS with internal mortar ling and external guniting is recommended, as
MS pipes with welded joints are better suited to withstand water hammer than PSC pipes
because of better flexibility. Hence they are recommended. The stretches of trunk
distribution lines under roads and where reversal of flow will be taking place as per the
phased programme of laying of these lines will be of MS.
Over 700 mm size MS pipelines are proposed because PSC pipes aren’t suitable for laying in
soil strata where soil is black cotton.
Page1 of 13
CHAPTER - V
PROPOSED SYSTEM
Nanded (South) is the added area to erstwhile Nanded Municipal Council (original) forming
Nanded Waghala Municipal Corporation. Existing infrastructure of added area is lack of
infrastructure. such as Water Supply, Sewerage, Storm Water, Roads needs to be improved.
As part of Infrastructure Development, Government of Maharashtra and NWCMC are
planning to upgrade the whole infrastructure of Nanded (South) on priority.
Presently CIDCO (1.91km) area has only infrastructure facilities. Therefore the Detailed
Project Report for augmentation augmentation of Water Supply in other part of Nanded
(South).
5.1 SOURCE
Nominal capacity of this storage dam across Godavari is stated to be about 80.79 Mm
3 as per
Irrigation Department’s data. Presently some17 Mm3 storage has been earmarked for Nanded
Municipal Corporation (NWCMC) for its drinking water needs.
NWCMC has proposed to utilize this storage for its projected additional demand for drinking
water to the tune of 175 Mld. On an annual basis the additional requirements work out to
about 63 Mm3.With the present allocation of 17 Mm
3 for NWCMC already in force,
additional requirement of 63 Mm3 will require the full live capacity of Vishnupuri dam
(80.79Mm3) to be earmarked for NWCMC’s drinking water purposes.
Increasing the yield for water supply from the existing Vishnupuri storage which has been
serving vital irrigation needs, appears infeasible and impracticable given that first user rights
for irrigation has been established since long. However it can be examined whether the
present storage can at least meet the partial needs of drinking water for NWCMC. In this
context the following review is called for:
i. Review the irrigation releases pattern vis a vis agricultural demands as of present to cut
down on wasteful usages.
ii. Review the reservoir operation for the previous years.
iii. Establish the reliable yields for irrigation and water supply.
iv. Establish operation rules for “Normal” “Sub normal” and “Draught” years and identify
cutbacks on irrigation and water supply releases.
Gross water requirement for Nanded North is 50.0 Mld Water demand for the year
2023(Refer Appendix 1). It is considered that the losses in WTP and Raw Water
Transmission would be 3% each. With deduction of losses for WTP, total out put from WTP
would be 47.30 Mld. With deduction of existing treated water (50.0-12.0)=35 Mld additional
WTP would be required at Nanded (South) in the year 2023. 5.2 RAW WATER CONVEYANCE FROM VISHNUPURI
Economical analysis for pumping main diameter has been carried with 6 % interest
rate and 8% escalation rate for 2038 flows. Appendix-3 gives the details of analysis. A new raw water main of 900 mm diameter mild steel internal lined and external guniting is
proposed in addition to existing raw water main of 450 mm diameter cast iron for CIDCO
area. The proposed main would follow the alignment of existing raw water main (CIDCO) up
to Latur road, beyond; it would follow the proposed road towards Asadvan village.
Page2 of 13
Drawal of raw water for CIDCO WTP and proposed WTP at ASADVAN from
upstream of Vishnupuri dam-Jackwell:
Existing jackwell at Vishupuri would be used for pumping raw water to proposed WTP plant
Existing 600 mm Reinforced Cement Concrete (RCC) inlet pipe to jack well for raw water is
adequate to draw of 50 Mld raw water from the reservoir. For drawal of raw water(12.75Mld)
for CIDCO WTP, existing two number pumps would be replaced with same capacity of new
pumps. Additional pumps 3 nos.(2+1) would be housed in the same jackwell to pumped 38.0
Mld raw water to proposed Water Treatment plant at ASADVAN village
5.3 TREATMENT PLANT AT ASADVAN VILLAGE
The Existing Water Treatment Plant after rehabilitation will cater to the water requirement of
year 2006. Then onwards New Water Treatment Plant would be required to cater future
demand. Hence proposed Water Treatment Plant (35 Mld) would be planned for the water
requirements of year 2023.
Economical analysis for different alternative for location Water Treatment has been
considered to evaluate the appropriate location of WTP. Finally WTP at Asadvan village
would be considered.
Two alternatives are considered while locating proposed WTP at Asadvan village and
Fattejanpur Economics analysis is carried out to identify the economical site for WTP (Refer
Appendix-3
Appendix-3 indicates that net present value with 6% interest and escalation rate of 8% per
annum would be less by 30 crores when WTP selected at ASADVAN village.
Existing Water Treatment Plant at CIDCO township consist of following treatment units.
1. Prechlorination
2. Aeration
3. Alum dosing
4. Clarification
5. Filtration
6. Post chlorination.
The same treatment process shall be adopted for the proposed Water Treatment plant at
Asadvan village.
Schematic flow diagram of the proposed water treatment plant at Asadvan is given in fig V.1.
Godavari Raw Water Analysis Report is enclosed Table V.1 a & b. However, seasonal
variations are not available. In the dry season the raw water is likely to be quite clear due to
natural settling in the Basin of Godavari River. However, in monsoon the water is likely to
become turbid. With silting in the river stretch increasing over a period of time, the water will
become more turbid. The water treatment plant shall be designed to suit range of raw water
quality given in Table V.1 a
Page3 of 13
Table V.1.a: Water Quality
Date of collection: 6.06.2005 Date of receipt: 6.06.2005 Date of examination: 6.06.2005 &
onwards.
Sr.
No.
Source: Raw water from
Vishnupuri, Nanded
Water Standards
Parameter: mg/l (except for
turbidity and pH)
mg/l (except for
turbidity and pH)
1. Physical Appearance Slightly Turbid Water
2. Odour No Smell Unobjectionable
3. Turbidity (as N.T.U.) 9.7 NTU 1 NTU
4. PH 7.9 7.0 – 8.5
5. Chloride (as Cl) 33.00 200
6. Free & Saline Ammonia (as N) Not Detected
7. Albuminoidal Ammonia (as N) Not Detected
8. Nitrates (as NO3) 1.28 45
9. Nitrites (as N) Nil
10. Total Hardness (as CaCO3) 160.00 200
11. Permanent Hardness (as CaCO3) 2.00
12. Total Dissolved Solids 340.00 500
13. Oxygen absorbed in 5 minutes Not Detected
14. Oxygen absorbed in 4 hrs. @ 37 0C Not Detected
15. Iron (as Fe) 0.05 0.1
16. Fluoride (as F) 0.3 1
17. Other Tests (if any) Alkalinity 158.00 200
Page4 of 13
Table V.1.b Water Quality
Report on chemical examination of water for drinking purpose
Date of collection: 13.06.2006 Date of receipt: 13.06.2006 Date of examination: 13.06.2006
& onwards
Analytical Result in mg/litre (except pH and Turbidity)
Source: 1) Raw water from New
Pump House, Nanded
2) Filter water from
New Pump House,
Nanded
Parameter:
Physical Appearance Faint Yellowish Colour Clear, Colourless.
Odour No Smell. No Smell.
Turbidity (as N.T.U.) 28.00 NTU 3.32 NTU
pH 8.01 7.59
Chloride (as Cl) 68.00 58.00
Free & Saline Ammonia (as N) Not Detected Not Detected
Albuminoidal Ammonia (as N) Not Detected Not Detected
Nitrates (as NO3) 26.58 17.72
Nitrites (as N) Nil Nil
Total Hardness (as CaCO3) 202.00 200.00
Permanent Hardness (as
CaCO3)
26.00 18.00
Total Dissolved Solids 350.00 340.00
Oxygen absorbed in 5 minutes Not Detected Not Detected
Oxygen absorbed in 4 hrs. @
37 0C
Not Detected Not Detected
Iron (as Fe) 0.05 0.04
Fluoride (as F) 0.2 0.2
Other Tests (if any) Alkalinity Not Detected Not Detected
Fig. V.1: Schematic Flow Diagram for the proposed water treatment plant at Asadvan
Page6 of 13
Treated Water Analysis
The treated water shall meet the quality of drinking as enclosed in Table V.2a. The treated
water turbidity specified should be less than 1 NTU as against 2.5 JTU specified in CPHEEO
manual, in view of the latest technological advances.
A pneumatically operated butterfly valve shall be provided on the 1200 mm raw water inlet to
treatment plant to ensure constant flow to treatment plant. In order to prevent wastage of
water, this valve will be closed on power supply failure.
Pre-chlorination
In order to keep the treatment plant units in disinfected condition and also to kill the algae in
the raw water, it is proposed to provide pre-chlorination at a dose of 3 mg/lit. Two
Chlorinators (1w + 1s) each of capacity 5 kg/hr are proposed.
Aeration
The raw water contains traces of Iron. It will get removed aeration process. Cascade Type
aerator is recommended.
Alum Dosing
In the absence of jar test results, the alum dosing plant shall be sized, for a dose of 50 mg/lit.
to water with a solution concentration of 10% in alum dosing tank. Dosing shall be by
gravity dosers. 100% standby plant shall be provided.
Clarification
The various types of clarifiers being offered today are conventional radial flow
clariflocculator, conventional sludge blanket clarifiers (hopper bottom or flat bottom) and
pulsators. The rise rate varies from 1.5 m/hr to 4 m/hr.
In order to get the best cost effective technology, it is proposed to give freedom to the Bidder
to offer his technology. In order to prevent very high surface rate the dosing of
polyelectrolyte shall not be permitted.
Filtration
The filtration rate shall be between 1.5 - 2 mm/sec. The number of filters shall be selected by
Bidders. Three – (3) nos. standby Filters shall be provided. (One under draining, one under
washing & one under maintenance). Backwashing by air and water shall be provided.
Post-Chlorination
Post-Chlorination shall be done in the filtered water conduit. The chlorine dose will be
provided to dose 1 mg/lit of chlorine. Two (1w + 1s) nos chlorinators each of capacity 1.5
kg/hr are proposed.
Chlorine Contact Tank cum Treated Water Reservoir
A reservoir minimum of 30 minutes storage shall be provided to serve the dual purpose of
chlorine contact time and treated water storage.
Page7 of 13
5.4 PROPOSED PUMPING STATION
The proposed Water Treatment Plant (Capacity-35 Mld) would be provided with proposed
clear water sump (Capacity-1.0 Ml), pumping station and Master Balancing Reservoir (MBR)
(Capcity-2.5 Ml) within the WTP complex. Proposed pumping would house two set of
pumps. One set would be for pumping water to MBR and the other for pumping water to near
by zonal reservoir
5.5 PROPOSED TRANSMISSION SYSTEM
Handed (South) is undulating between the levels fro 405.00m to 353.00 m at river bank.
Treated water would be pumped to MBR at WTP complex. Water would flow by gravity to
proposed Elevated Service Reservoirs. Clear water transmission system is shown in Exhibit-2.
Diameters of the pipe lines in the transmission system rages from 250 mm to 900mm. Total
length of the pipe line would be 12845m.
.
5.6 SERVICE RESERVOIRS
6 nos of reservoirs are proposed, which ranges from 1.5 ml to 2.5ml capacity. Appendix 1
gives the details of the proposed reservoirs. The proposed reservoirs will get water from
Pumping Station at Asadvan WTP.
Typical section of proposed ESR is shown in Exhibit-6.
List of Proposed Reservoirs with F.S.L. are given in Appendix 1,
5.7 DISTRIBUTION SYSTEM
Presently a area of CIDCO (1.91 Sq.km.) is only covered in Water Supply. The existing
CIDCO zone would continue as it is. Rest of the area of Nanded (south) would be covered
with proposed water supply pipe lines. For the proposed system, Zoning for Water
Distribution is done freshly with due considerations to ground topography and the natural
obstruction. Proposed distribution zones are shown in Exhibit 3 and 4 The proposed
distribution system is designed using Environmental Protection Agency (EPA) computer
program.
5.8 PROPOSED REHABILITATION
CIVIL WORKS
Prior to the implementation of proposed works for the year 2023, it is mandatory to improve
the efficiency of the existing works and rehabilitate the existing works. Presently the existing
works related to existing Water Treatment Plants require rehabilitation. Following works have
been identified for the rehabilitation for existing treatment for Nanded (North) Water Supply
System.
1. Replacement of filter sand at CIDCO Water Treatment Plant
2. Replacement of shutter of doors and windows.
3. Installation of electromatic full bore bulk Flow meter at strategic points (12 locations).
5.9 ELECTRICAL SYSTEM AT VARIOUS SITES 5.9.1 CIDCO Raw Water Pumping Station
Its proposed to install express 11kV feeder from new 33kV / 11kV Vishnupuri Substation
which is having 5 MVA transformer. This substation is with 2kM radius of pumping station.
Page8 of 13
Provisional sum allocation shall be made in tender and payment shall be made to MSEB for
developing the overhead line up to pumping station premises.
Single indoor VCB panel shall be installed which will be located at mezzanine floor in pump
house consisting of one incomer and outgoings as follows,
�� 2 Nos for 11kV / 415V, 750kVA transformers.
�� 1 Nos for spare.
Existing Transformer will be replaced by 2Nos of 11kV / 415V, 750kVA capacity which
provides 100% stand by.
New 415V MCC shall be provided consisting of two incomer, bus coupler and out going
feeders as follows,
�� 2 Nos Star-delta feeders for 132kW motors
�� 3 Nos Star-delta feeders for 200kW motors
�� 2 Nos feeder for existing capacitor bank with APFCR.
�� 1 Nos feeder for Sub-distribution board
The Sub-distribution board shall have incomer from MCC and outgoing feeders as follows,
�� 5 Nos DOL starter feeder for 1.5kW motors
�� 1Nos feeder for Lighting panel
�� 1 Nos feeder for welding socket
Wall mounted Lighting panel shall be provided, existing light fittings shall be replaced HPSV
medium bay fitting and overall conduit wiring shall be replaced.
Overall cabling shall be replaced, cable carrier system shall be upgraded using proper cable
trays and supports.
D.C power supply system with Ni-Cd battery, battery charger and D.C distribution board.
Power earthing shall be provided with Internal external earth grids and treated earth pits.
5.9.2 CIDCO 12mld Water Treatment Plant And Clear Water Pumping Station
Its proposed to install express 11kV feeder from Wagala Grid Substation. This substation is
within 2.5kM radius of WTP. Provisional sum allocation shall be made in tender and payment
shall be made to MSEB for developing the overhead line up to WTP premises.
The New MCC for CWPS which having following feeders,
�� 3 Nos Star-delta feeders New pumps.
�� 1 Nos feeder on each bus for APFCR panel with Capacitor.
�� 1 Nos feeder for WTP MCC
The New MCC for WTP which having following feeders,
�� 2 Nos Star-delta feeders compressors.
�� 9 Nos DOL starter feeders.
�� 1 Nos feeder for Lighting panel
Wall mounted Lighting panel shall be provided, existing light fittings shall be replaced HPSV
medium bay fitting, and internal road lighting and overall conduit wiring shall be replaced.
Overall cabling shall be replaced, cable carrier system shall be upgraded using proper cable
trays and supports.
Page9 of 13
Power earthing shall be provided with Internal external earth grids and treated earth pits.
5.10 PROPOSED REHABILITATION FOR MECHINCAL SYSTEM AT VARIOUS SITES 5.10.1 CIDCO Raw Water Pumping Station
Both the pumping units (Pump + Motor) shall be replaced with new units.
New Pressure gauges, Level measurement system and flow measurement system shall be
provided.
5.10.2 CIDCO Water Treatment Plant ( 12 Mld)
The open channel flow meter is not in working condition and same shall be replaced with a
new unit.
To over come the algae problem it is proposed to install a new pre chlorination plant of 0 - 2.5
Kg/Hr .
All the three Agitators in Alum preparation tank shall be replaced with new units. The
existing Alum piping ( 40%) shall be replaced with new along with the damaged / leaking
valves.
Both the flocculators shall be replaced and clarifier bridge and scrapper mechnisum shall be
rehabilitated.
The lime mixing system shall be rehabilitated and brought back to service. The damaged part
of the existing lime piping shall be replaced with new, along with the damaged / leaking
valves.
All the filter valves and gates shall be refurbished and reinstalled. Both the existing air blower
unit shall be replaced with new units. Rate of flow/loss of head indicator shall be replaced.
The existing post chlorination system shall be replaced with a new system of 0 – 1 kg/hr
chlorination system including complete safety kit.
.
5.10.3 Clear Water Pumping Station
The existing pumping unit shall be replaced with new unit; all the Pressure gauges shall also
be replaced.
Flow measuring system on the discharge header shall to be installed to measure the actual
quantity of pure water being pumped. The pure water sump level measuring system shall be
installed.
Page10 of 13
5.11 ENVIRONMENTAL AND SOCIAL IMPACT ASSESSMENT
The impacts due to various pre constructions, during construction and post construction
activities are identified and appropriate measures are recommended in this chapter.
Effect of the project on the environment depends both on the type of project and surrounding
environmental setting.
Table –V.3
Possible Environmental And Social Issues In
Urban Infrastructure Projects
Project 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Water Supply
1. Laying of Pipes + - - - - - - + +
2. Water treatment Plants ++ - - - + + -
3. ESR + - + +
4. Pumping stations ++ - - + +
1. Land use 6. Noise 11. Urban Aesthetics
2. Hydrology and Drainage
Patterns
7. Solid Waste 12. Public Health and Safety
3. Surface and Ground Water
Quality
8. Destruction of habitat/
Vegetation
13. Smell and Smoke
4. Water Logging 9. Disturbance to other services 14. Hazards due to handling of
toxic chemical
5. Air Quality 10. Urban Congestion 15. Resettlement and
Rehabilitation
NOTES
Major Negative Impact - -
Minor Negative Impact -
Major Positive Impact + +
Minor Positive Impact +
Page11 of 13
Table – V.4
Summary of Mitigation Measures
Water Supply Components
Project
Component
Activities Impacts Phase of
Construction
Mitigatory measures
Earthwork
excavation
Dust pollution Construction
stage
Construction site & access roads
should be sprinkled/washed with
water, where there is substantial
dust pollution
Road blockage
& traffic
diversion.
Construction
stage
Adequate & safe measures for
diverting of traffic will be
provided. Restrict timing of
operations. Liase with police &
Highway authorities.
Pipe laying
Laying of pipes
Construction of
valve chambers
Water
pollution
Construction
stage
Adequate clearance between
water mains & sewer lines shall
be maintained. Lateral clearance
= 3m, vertical clearance =0.5m
between invert of water Main
& top of sewer line. Water
supply lines will be laid above
the sewers.
Earthwork
excavation &
filling
Dust pollution Construction
stage
Construction site & access roads
should be sprinkled/washed with
water where there is substantial
dust pollution.
Noise pollution Post
construction
Stage
Frequent lubrication, periodic
inspection & proper use of spare
parts.
Pumping mains
& Pumping
Stations
Operation of
pumping
systems
& diesel
generator
sets Water
pollution
Post
construction
stage
Water should not get
contaminated due to usage of
fuel & lubricants
Earthwork
excavation,
Dust pollution Construction
stage
Construction site & access roads
should be sprinkled/washed with
water
Filling,
Embankment
Formation There is substantial dust
pollution.
Construction of
Water Treatment
Water
pollution
Construction
stage
Adequate facilities for disposal
of sludge to be provided
Plant
Water
Treatment Plant
Page12 of 13
Project
Component
Activities Impacts Phase of
Construction
Mitigatory measures
Proper operation of WTP by
undertaking preventive
maintenance, corrective
maintenance with prompt
repairs, good house keeping,
process monitoring &
Operation of
water Treatment
Plant
Odour
pollution
Post
construction
stage
Proper documentation of
operation &
Maintenance activities shall be
maintained.
Filling up of
excavated
Dust pollution.
Marginal
Construction
stage
Construction site & access roads
should be sprinkled/ washed
with water.
Areas ( Plying of
trucks)
increase in
levels
of oxides
Construction equipments and
vehicles should be kept well
tuned.
Nitrogen &
Sulphur.
ESR Earthwork
excavation,
Dust pollution Construction
stage
Construction site & access roads
should be sprinkled/washed with
water where
Filling,
Embankment
Formation There is substantial dust
pollution.
Construction of
ESRs
Construction
stage
Adequate provision for drainage
of water and disposal of sludge
arising from periodic cleaning
Page13 of 13
5.12 SUMMARY OF THE PROPOSED WORKS
1. Water treatment plant of 35 MLD capacities at Asadvan.
2. Additional clear water pumps at Asadvan
3. 7 service reservoirs with capacities from 1.5 MLD to 2.5 MLD.
4. Inlet mains to reservoirs, DI pipes of dia. 150 mm to 600 mm @ 10 km length.
5. Distribution pipelines.
6. Rehabilitation of Pumping Stations and WTP.
Page1 of 1
CHAPTER - VI
PROJECT IMPLEMENTATION SCHEDULE
6.1: IMPLEMENTATION SCHEDULE
The implementation schedule for the project is envisaged component wise in following six
packages.
The first package will be of installation of additional pumping machinery at Vishnupuri and
clear water pumping station at CIDCO WTP. The implementation period is 10 months from
the award of contract and one month for testing and commissioning. The period of
preparation of bid documents, submission of documents by bidder, evaluation and award of
tender is estimated to take about 4 months.
The second package will be of rehabilitation of existing 12 Mld Water Treatment Plant
equipment. The period is 10 months from the award of contract and one month for testing and
commissioning. The period of preparation of bid documents, submission of documents by
bidder, evaluation and award of tender is estimated to take about 4 months.
The third package will be Clear Water Transmission Main of about 12.85 km length to
proposed elevated service reservoirs. The work is planned to be completed in one year. The
period of preparation of bid documents, submission of documents by bidder, evaluation and
award of tender is estimated to take about 4 months.
The fourth package will be of construction of 7 elevated service reservoirs, which is planed to
be completed within 10 months from the award of project. The period of preparation of bid
documents, submission of documents by bidder, evaluation and award of tender is estimated
to take about 4 months.
The fifth package will be of distribution system pipes, which is planed to be completed within
10 months from the award of project. The period of preparation of bid documents, submission
of documents by bidder, evaluation and award of tender is estimated to take about 4 months.
The sixth package will be of New WTP at Asadvan which would be planned to be completed
within 10 months from the award of project. The period of preparation of bid documents,
submission of documents by bidder, evaluation and award of tender is estimated to take about
4 months.
The bar chart of the proposed system is given in Appendix 2.
Page 1 of 2
CHAPETR - VII
BASIS OF COST ESTIMATE
7.1 COST BASIS FOR PROPOSED WORKS Project cost is estimated based on Schedule of Rates (SOR), Maharashtra Jeevan Pradhikaran
(MJP) for the year 2005 – 06 Public Works Department, Government of Maharashtra. Also
the data available on soil characteristics and physical data such as ground level, location of
road, waterways etc. are considered. It is essential to undertake detailed soil investigation and
survey prior to detail engineering. The total cost estimate at present may have a small
variation at a later stage, which could be covered under physical contingencies.
7.2 WATER SUPPLY SYSTEM
PROPOSED WATER TREATMENT PLANTS
Cost of the proposed treatment plant is arrived on Mld basis. MJP DSR Cost of 35Mld WTP
is 2.76 Crores, which works out to be 7.88 Lacs per Mld. MJP’s per Mld cost seems to be on
lower side. As per TCE’s experience in similar projects (Nagpur Municipal Corporation), the
cost of 100 Mld Treatment Plant including Clear water pumping station is 14.5 Crores as per
the work (Year 2004) awarded cost, which works out to be Rs. 14.00 lacs Per Mld. This forms
the basis of cost estimates of WTP. This cost includes electrical components and mechanical
component of the WTP.
SERVICE RESERVOIRS IN THE CITY
Quantity estimates is prepared for elevated service reservoir. Unit rate for concrete is referred
from SOR. Reinforcement is considered as per norm of Indian standard specifications.
Detailed cost estimation for each reservoir has been worked out for various capacities of the
reservoirs on the basis of structural design and analysis done in STAAD.Pro. The estimates of
the ESRs have been given in Appendix 4.
Based on the estimates per litre ESR cost works out to be Rs.3. For the similar work of ESRs,
the awarded per litre ESR cost was Rs. 4. Hence provision of cost for the ESR s is made in
cost estimates on the basis of Rs. 4.00 per litre.
TRUNK SYSTEM
D.I/MS. pipe is proposed for the additional / proposed pipes required in the transmission
system and distribution system within the city. DI pipes are internal lined and MS pipes are
with mortar internal lined and external gunited.
Cost per meter length is inclusive of following components.
• Ex factory cost of pipe
• All taxes (central & local)
• Freight
• Unloading from train
• Loading into truck
• Transport to site
• Unloading
• Stacking
Page 2 of 2
LAND ACQUISITION
Presently land for all proposed 6 elevated service reservoirs, proposed WTP is not in
possession of NWCMC. Requirement of land for reservoir would be one hecture/reservoir.
For WTP, land of 4 hectares would be required However the NWCMC has indicated that the
land would be made available for construction of elevated reservoirs and WTP. Therefore no
cost provision is made for land acquisition.
DISTRIBUTION SYSTEM
The existing distribution system is reorganised into existing and proposed zones. The analysis
has been carried out for the equi-distribution of water.
For the cost estimates of the pipes, 100% soil is considered for excavation. Clear cover of 1m
is considered for excavation.
Cost of special is considered on weight basis. The valves cost is estimated on the basis of
actual number basis in the system. (Refer Table 7.4 Appendix 4)
EXISTING WATER TREATMENT PLANT AND PUMPING STATION
Cost of Rehabilitation of existing WTP & Pumping Station are calculated on the basis
quotation called from the reputed vendors for Urban Water Supply and Environmental
Improvement in Madhya Pradesh Project and Maharashtra Jeevan Pradhikaran ‘District
schedule of rate’ for Aurangabad region.
REINSTATEMENT OF ROADS
After pipes are laid in position, the road is required to restore in original position. Item of road
reinstatement is considered for all pipes bitumen material. Rate analysis is carried out for road
reinstatement by bitumen l. (Refer Table 7.8 Appendix 4)
INCIDENTAL COST FOR WATER SUPPLY ARRANGEMENT FOR PILGRIMS
Tri cenetarity function of Guru Govind Singhji (Gur-ta Gaddi) would be celebrated in
September 2008. Large numbers of pilgrims are expected to attain this function. The water
supply arrangement would be required to provide the water. Hence cost provision of 2 Crore
is made.
The Detail Costs are given in Appendix 4.
Table 1Population Estimation for Nanded City
(South of Godavari)
Ward No Total Ward Area(Ha.)
1 59 464.5 14940 19759 71970 1724812 60 834.0 18229 24108 87812 2422763 61 20.8 12486 14564 14564 145644 62 12.2 8712 8712 8712 87125 63 15.9 11434 11434 11434 114346 64 18.1 11301 13182 13182 131827 65 676.7 16952 22419 81660 225301
Total 2042 94054 114177 289334 687951
Ward wise PopulationSr. No. Ward and Area Details
Year2006
Year2008
Year2023
Year2038
Job No.:4904A Page 1of1
Table 2
ESR Details for Nanded City
(South of Godavari)
S1 60 43.33%
S2 60 50.61%
59 38.00%
60 6.06%
59 37.00%
65 18.00%
61 100.00%
62 100.00%
63 100.00%
64 100.00%
59 25.00%
S6 65 53.00%
S7 65 29.00%
Total
S3
S4
Zone No. Ward No. % of ward area
S5
(Served by
Existing 12
Mld WTP)
2038
LocationCapacity
(ML)
MWL (m)
FSL (m)
Capacity
(ML)
2.01 5.56 Near Asarjan 2378
3832 and 1.6
2.35 6.49 Kavatha 2.5377
3822 no 2.00
2.29 6.32 Asadvan 2400
4052 no 2.00
1.25 3.46 Asadvan 1.5415
4202.25
11.83 31.60 12.5 20.60
2023 2038
Proposed Reservoir
(Mld)
2023
385
390
390
395
Vasarni
Near Latur
Road
2 2 no 1.50
2.5 2.15 and 1.6
1.73 4.25
2.19 5.53
Reservoir Capacity Required
(Ml)
Job No.:4904A Page 1of1
Table3
Zonal Demand Calculation for Nanded City
(South of Godavari)
S1 60
S2 60
59
60
59
65
61
62
63
64
59
S6 65
S7 65
Total
S5
(Served by
Existing 12
Mld WTP)
Zone No. Ward No.
S4
S3
2006 2008 2023 2038
361.37 1.25 1.66 6.04 16.67
422.09 1.47 1.94 7.06 19.47
358.65 1.43 1.89 6.87 18.97
196.24 0.78 1.03 3.76 10.38
2042 14.9 18.1 46.0 109.3
8.39 10.46 14.45183.16 7.57
Total area of the
Zone (Ha.)
Toal Zonal Water Demand
(Mld)
Considering 15%
Distribution Losses
293.67 1.36 1.80 6.56 16.58
227.05 1.08 1.42 5.19 12.74
Job No.:4904A Page 1of1
Sl. No. Task Name1 Modification of existing pumping machinery at
CIDCO Pumping Station (Vishnupuri)
Preparation of tender document
Preparation of expression of interest issue inpaper and evaluation of expression of interest
Issue of tender documents pre bid meeting andissue of addendum
Submission of bid document Technicalevaluation of bids, Clarification from biddersSubmission of technical evaluation reportSubmission of financial evaluation reportFinalisation of the bidder and award of contract
Aug Sep Oct Nov Dec Jan Feb Mar2006
Task Milestone
TCE CONSULTING ENGINEERS LTD.
APPENDIX 2 TAMILNADU WATER INVESTMENT COMPANY
NANDED WAGHALA MUNICIPAL CORPORATIONPREPARATION OF D.P.R. FOR WATER & SEWERAGE SYSTEM
BAR CHART FOR PROJECT IMPLEMENTATION SCHEME (NANDED - SOUTH WATER SUPPLY SYSTEM)
Revision No. - P0 Dated: 11/08/2006 1 of 5 Job No. - TCE.4904A
Prepared by: Checked by: Approved by:
Sl. No. Task Name2 Tender for Rehabilitation of existing water treatment
plant
Preparation of tender document
Preparation of expression of interest issue inpaper and evaluation of expression of interest
Issue of tender documents pre bid meeting andissue of addendum
Submission of bid document Technicalevaluation of bids, Clarification from biddersSubmission of technical evaluation reportSubmission of financial evaluation reportFinalisation of the bidder and award of contract
Aug Sep Oct Nov Dec Jan Feb Mar2006
Task Milestone
TCE CONSULTING ENGINEERS LTD.
APPENDIX 2 TAMILNADU WATER INVESTMENT COMPANY
NANDED WAGHALA MUNICIPAL CORPORATIONPREPARATION OF D.P.R. FOR WATER & SEWERAGE SYSTEM
BAR CHART FOR PROJECT IMPLEMENTATION SCHEME (NANDED - SOUTH WATER SUPPLY SYSTEM)
Revision No. - P0 Dated: 11/08/2006 2 of 5 Job No. - TCE.4904A
Prepared by: Checked by: Approved by:
Sl. No. Task Name3 Tender for Trunk Distribution
Preparation of tender document
Preparation of expression of interest issue inpaper and evaluation of expression of interest
Issue of tender documents pre bid meeting andissue of addendum
Submission of bid document Technicalevaluation of bids, Clarification from biddersSubmission of technical evaluation reportSubmission of financial evaluation reportFinalisation of the bidder and award of contract
Aug Sep Oct Nov Dec Jan Feb Mar2006
Task Milestone
TCE CONSULTING ENGINEERS LTD.
APPENDIX 2 TAMILNADU WATER INVESTMENT COMPANY
NANDED WAGHALA MUNICIPAL CORPORATIONPREPARATION OF D.P.R. FOR WATER & SEWERAGE SYSTEM
BAR CHART FOR PROJECT IMPLEMENTATION SCHEME (NANDED - SOUTH WATER SUPPLY SYSTEM)
Revision No. - P0 Dated: 11/08/2006 3 of 5 Job No. - TCE.4904A
Prepared by: Checked by: Approved by:
Sl. No. Task Name4 Tender for R.C.C. ESRs
Preparation of tender document
Preparation of expression of interest issue inpaper and evaluation of expression of interest
Issue of tender documents pre bid meeting andissue of addendum
Submission of bid document Technicalevaluation of bids, Clarification from biddersSubmission of technical evaluation reportSubmission of financial evaluation reportFinalisation of the bidder and award of contract
Aug Sep Oct Nov Dec Jan Feb Mar2006
Task Milestone
TCE CONSULTING ENGINEERS LTD.
APPENDIX 2 TAMILNADU WATER INVESTMENT COMPANY
NANDED WAGHALA MUNICIPAL CORPORATIONPREPARATION OF D.P.R. FOR WATER & SEWERAGE SYSTEM
BAR CHART FOR PROJECT IMPLEMENTATION SCHEME (NANDED - SOUTH WATER SUPPLY SYSTEM)
Revision No. - P0 Dated: 11/08/2006 4 of 5 Job No. - TCE.4904A
Prepared by: Checked by: Approved by:
Sl. No. Task Name5 Tender for D.I. Distribution system
Preparation of tender document
Preparation of expression of interest issue inpaper and evaluation of expression of interest
Issue of tender documents pre bid meeting andissue of addendum
Submission of bid document Technicalevaluation of bids, Clarification from biddersSubmission of technical evaluation reportSubmission of financial evaluation reportFinalisation of the bidder and award of contract
6 Proposed Water Treatment Plant at AsadvanCapacity 35 MLD
Aug Sep Oct Nov Dec Jan Feb Mar2006
Task Milestone
TCE CONSULTING ENGINEERS LTD.
APPENDIX 2 TAMILNADU WATER INVESTMENT COMPANY
NANDED WAGHALA MUNICIPAL CORPORATIONPREPARATION OF D.P.R. FOR WATER & SEWERAGE SYSTEM
BAR CHART FOR PROJECT IMPLEMENTATION SCHEME (NANDED - SOUTH WATER SUPPLY SYSTEM)
Revision No. - P0 Dated: 11/08/2006 5 of 5 Job No. - TCE.4904A
Prepared by: Checked by: Approved by:
APPENDIX- 3
The selection of location for water treatment site determines the number of local pumping
station, wastage treated water. Following Alternatives are considered for location of Water
Treatment Plant for economic evaluation.
Alternative-I: Location of WTP at Fattejangpur at 360.0 m level at Vishnupuri dam road
junction
Alternative-II: Location of WTP at Foot of hill at Asadvan village at 392.0 m level at
Technical details Alt-I Alt-2
1. Location Fattejangpur Asadvan
2. Lip of WTP inlet chamber(m) 368.0 398.0
3. Length of pumping main(Raw Water)(m) 3160 4500
4. Diameter of pumping main(Raw Water)(mm) 900 900
5. WTP Capacity 35 35
6. Range of pipe diameter of transmission mains 200-900 350-900
7. Total length of transmission system(m) 12845 14340
8. MBR Capacity(Ml) -- 2.50
9. Total ESR Capacity(Ml) 12.5 12.50
10. H.P. Required 1380 900
Refer cost table.
Alternative - 2
Vishnupuri- Asadvan WTP- Nanded (With MBR)
Capital Cost for 35 Mld scheme
Sl. No. ComponentsEstimated Cost
(Crores Rs.)
1New raw water pumping machinery (300 hp (2W + 2S) Horizontal
Centrifugal pumps)1.80
2 900 mm dia MS Raw water pumping main of 4.5 Km length 4.50
3 Nallah crossing, National Highway crossing and Sundry 0.10
4 35 Mld WTP at Asadvan ( 14 Lakh per Mld) 4.90
5 2.5 Ml MBR at Asadvan (22 m Staging Height, Rs. 5 per Litre) 1.25
6Clear water Pumping station Asadvan (150 Hp (2W + 1 S) Horizontal
Centrifugal pumps)0.72
7 900 mm dia MS & 450 mm dia DI K9 Clear water pumping main 0.45
8 250 mm - 800 mm dia DI K9 and MS gravity mains 4.25
Total Capital Cost 17.97
Annual Operation and Maintenance Cost
1 a) Raw water pumps 1.63
b) Staffing 0.13
c) O & M 0.09
2 a) Treatment Plant 0.05
b) Staffing 0.14
c) Chemicals 0.30
3 a) Clear water pumps 0.81
b) O & M 0.04
Total Annual Charges 3.18
Net Present Value of O&M Cost 72.18
Net Present Value for Alt-2 90.15
Note: For calculation of Net Present Value of O & M cost, inflation at 8%
and interest rate of 6% is considered.
It would be seen that capital cost and recurring cost for 30 years of alternative-II for WTP at
Asadvan is less than Alternative-II of treatment plant at Fattejangpur. Hence alternative-II is
preferred and selected.
Alternative - 2
Vishnupuri- Asadvan WTP- Nanded (With MBR)
Capital Cost for 35 Mld scheme
Sl. No. ComponentsEstimated Cost
(Crores Rs.)
1New raw water pumping machinery (300 hp (2W + 2S) Horizontal
Centrifugal pumps)1.80
2 900 mm dia MS Raw water pumping main of 4.5 Km length 4.50
3 Nallah crossing, National Highway crossing and Sundry 0.10
4 35 Mld WTP at Asadvan ( 14 Lakh per Mld) 4.90
5 2.5 Ml MBR at Asadvan (22 m Staging Height, Rs. 5 per Litre) 1.25
6Clear water Pumping station Asadvan (150 Hp (2W + 1 S) Horizontal
Centrifugal pumps)0.72
7 900 mm dia MS & 450 mm dia DI K9 Clear water pumping main 0.45
8 250 mm - 800 mm dia DI K9 and MS gravity mains 4.25
Total Capital Cost 17.97
Annual Operation and Maintenance Cost
1 a) Raw water pumps 1.63
b) Staffing 0.13
c) O & M 0.09
2 a) Treatment Plant 0.05
b) Staffing 0.14
c) Chemicals 0.30
3 a) Clear water pumps 0.81
b) O & M 0.04
Total Annual Charges 3.18
Net Present Value of O&M Cost 72.18
Net Present Value for Alt-2 90.15
Note: For calculation of Net Present Value of O & M cost, inflation at 8%
and interest rate of 6% is considered.
Table 7.1 - Project Cost
Sl. No. ItemCost in Rs.(Crores )
Remarks
1Rehabilitation of Water Treatment Plant-Civil Works
0.58 Table 7.10
2Rehabilitation of pumping Stations at- Source and WTP --Electrical Works
1.61 Table 7.11
3Rehabilitation of pumping Stations at- Source and WTP-Mechanical Works
0.73 Table 7.12
4Transmission Main from CIDCO Raw water Pump House to Asdvan WTP & from Clear Water Sump at WTP to MBR and various ELSRs
10.94 Table 7.2 and 7.3
5Elevated Service Reservoirs 11 numbers of various capacities in Distribution System
5.00 Table 7.9
6Distribution System of various sizes for a total length of 88 Km including Road restoration
13.05 Table 7.4 and 7.5
7 New WTP at Asadvan - 35 Mld Capacity 4.90
8Incidental cost for water supply arrangement for pilgrims
2.00
Total 38.82Contingencies @3% 1.16
TOTAL COST 39.98
Water Supply to Nanded (South)
Job No.:4904A Page 1 of 1
Table 7.2Cost Estimation
forTransmission System
Year 2038 for Nanded City (South)
Sl. No. Description of Items Quantity Unit RateAmount
(Rs.)Manufacturing, providing and supplying spirally welded ERW/ SAW/ Fabricated M.S. Pipes (commercial quality), including transportRatesMJP S.O.R. for the year 2005-06, Page 163Clear Water Transmission, Dia. 900 mm 925 7311.00 6762675.00
Raw Water Transmission, Dia 900 mm 4500 7311.00 32899500.00
Providing D.I. Pipes of grade D.I. K-9 with internal cement mortar lining and including all taxes, transportation, loading, unloading, stacking etc. (16% ED)RatesMJP S.O.R. for the year 2005-06, Page 58350 mm 400 2283.00 913200.00
400 mm 1810 2760.00 4995600.00
450 mm 4190 3334.00 13969460.00
500 mm 0 3863.00 0.00
600 mm 765 5121.00 3917565.00
700 mm 775 6202.00 4806550.00
750 mm 975 6073.00 5921175.00
Excavation for pipe trenches in earth, soils of alltypes, including removing the excavated materialupto a distance of 50 m, excluding backfilling
Lift 0 to 1.5 mMJP S.O.R. for the year 2005-06, Page 29
26084.25 Cu.M. 34.00 886864.50
Lift 1.5 to 3.0 mMJP S.O.R. for the year 2005-06, Page 29
3533.575 Cu.M. 37.00 130742.28
4
Filling in trenches with contractor's murum forbedding in 20 cm layers including watering andcompaction completeMJP S.O.R. for the year 2005-06, Page 33
2243.75 Cu.M. 130.00 291687.50
5
Refilling the trenches with available excavatedstuff with soft material first over pipeline and thenhard material in 15 cm layers with all leads andlifts including consolidation, surcharghing etc.completeMJP S.O.R. for the year 2005-06, Page 33
15054.55 Cu.M. 16.00 240872.80
6
Disposal of excavated earth material from worksite to a distance of 3.00 km including loading,unloading & stacking etc. completeMJP S.O.R. for the year 2005-06, Page 20
4719.15 Cu.M. 80.43 379561.23
7
Reinstatement of asphalt pavement of requiredthickness.Refer Table 7.8, Appendix 4
2152.5 Sq. M 268.00 576870.00
1
2
3
RMT
RMT
Job No.: 4904A Page 1of 4
Table 7.2Cost Estimation
forTransmission System
Year 2038 for Nanded City (South)
Sl. No. Description of Items Quantity Unit RateAmount
(Rs.)
8
Lowering laying in position to correct line andlevel including MS pipes with/without anyoutcoating, including transportation upto 500 metc. completed as specifiedMJP S.O.R. 2005-06, Page 179
5425 RMT 161.00 873425.00
9
Providing and applying with mechanicalarrangement 1:3 proportion cement sand gunite, 40 to 50 mm thick to M.S. pipe surface under 2.1kg/ sq. cm pressure to 2.80 kg/ sq. cm pressureincluding removing the loose materials andincluding scrapping the surface with wire brushes,degreasing, cleaning by compressed air andproviding fixing BRC fabric no. 14 asreinforcement, curing for 21 days, etc. complete asdirected by Engineer-in-chargeMJP S.O.R. for the year 2005-06, Page 192
15475.17 Sq. M 200.00 3095034.25
10
Providing and applying pipe coating of fibres,coaltar and solvent based rubber modifiedbituminous primer, including material coating andwrapping over the pipes, handling, preparation ofsurface, labour, material etc. completeMJP S.O.R. for the year 2005-06, Page 192
15338.83 Sq. M 541.99 8313490.37
11
Providing and making inner cement mortar liningto M.S. pipes with mechanical devices in cementmortar 1:1 proportion, including cost of allmaterials, labour, special sand required,machinery, including carrying out "C" valueperformance test of pipeline, complete job as perthe directions of the Engineer-In- ChargeMJP S.O.R. for the year 2005-06MJP S.O.R. forthe year 2005-06, Page 193
15338.83 Sq. M 160.00 2454212.18
12
Butt Welding in all positions for MS pipes, 8 mmthickMJP S.O.R. 2005-06, Page 187
5425 RMT 279.00 1513575.00
13
Hydraulic testing of MS Pipeline to specifiedpressure900 mm Dia.MJP S.O.R. 2005-06, Page 191
5425 RMT 19.64 106547.00
Job No.: 4904A Page 2of 4
Table 7.2Cost Estimation
forTransmission System
Year 2038 for Nanded City (South)
Sl. No. Description of Items Quantity Unit RateAmount
(Rs.)
Lowering laying and jointing D.I. K-9 pipes withSBR rubber gaskets including conveyance ofmaterial, cost of jointing materials and rubberrings, labour, giving hydraulic testing etc.completeMJP S.O.R. 2005-06, Page 59 & 55
350 mm 400 78.00 31200.00
400 mm 1810 92.00 166520.00
450 mm 4190 101.00 423190.00
500 mm 0 119.00 0.00
600 mm 765 159.00 121635.00
700 mm 775 206.00 159650.00
750 mm 975 253.00 246675.00
Providing and supplying ISI Standard D.I.Specials and fittings with sealing rubber gasket ofS.B.R., complete with C.I. Follower gland andM.S. nuts & bolts protected from rusting,including cost of labours etc. complete.MJP S.O.R. 2005-06, Page 64 (Weight of onefitting considered 1 kg)
350 mm 400 80.00 32000.00
400 mm 1810 80.00 144800.00
450 mm 4190 80.00 335200.00
500 mm 0 80.00 0.00
600 mm 765 80.00 61200.00
700 mm 775 80.00 62000.00
750 mm 975 80.00 78000.00
14
RMT
RMT
15
Job No.: 4904A Page 3of 4
Table 7.2Cost Estimation
forTransmission System
Year 2038 for Nanded City (South)
Sl. No. Description of Items Quantity Unit RateAmount
(Rs.)
Nallah CrossingsProviding and laying M25 grade cement concretefor RCC work in footing of RCC columnsincluding normal dewatering, form work,compaction, finishing and curing, etc, complete.Excluding MS or Tor reinforcement.MJP S.O.R. for the year 2005-06, Page 36
2 Cu.M. 2586.00 5172.00
Providing and laying M30 grade cement concretefor RCC work as per design and drawingincluding normal dewatering, centering, formwork, compaction, finishing the formed surfaceswith CM 1:3 of sufficient minimum thickness andcuring, etc, complete. Excluding MS or Torreinforcement.MJP S.O.R. for the year 2005-06, Page 36
3 Cu.M. 2850.00 8550.00
Providing and fixing in position Tor steel barreinforcement of various diameters for footings,foundations, columns etc. as per detailed designs,drawings and schedules; including cutting,bending, hooking the bars, binding with wires ortack welding and supporting as required, etc,complete
MJP S.O.R. for the year 2005-06, Page 39
0.5 Cu.M. 30840.00 15420.00
Full-Bore Electromagnetic Flow MetersMJP S.O.R. for the year 2005-06, Page 258900 mm 2 732005.00 1464010.00
450 mm 3 495967.64 1487902.92
400 mm 2 414796.00 829592.00
350 mm 1 365384.00 365384.00
Total 9.91 CroresValves, Valve Chamber & Air Valves 0.41 Crores
Total for Transmission 10.32 CroresTotal Escalated Cost for 2006-07 Rate 10.94 Crores
16
Refer Table 7.3, Appendix 4
Escalated by 6%
No.
17
Job No.: 4904A Page 4of 4
Table 7.3Bill of Quantities for Valve Chambers in Transmission System for Nanded City
(South)SL. NO.
ITEM QTY UNIT RATE AMOUNT(Rs.)
1
Providing, supplying following flanged sluicevalves, class PN-1.6, including flanged tailpieces with rubber gasket of S.B.R. at bothends, complete as per specification.MJP SOR 2005-06, Page 125
a 350 1 No. 51799.00 51800.00b 400 2 No. 66131.00 132300.00c 450 2 No. 89148.00 178300.00d 500 0 No. 107919.00 0.00e 600 1 No. 150102.00 150200.00f 700 1 No. 261502.00 261600.00g 750 1 No. 420472.00 420500.00h 800 0 No. 433170.00 0.00i 900 (Butterfly Valve) 1 No. 278375.00 278400.00
2
Lowering, laying and jointing in position andtesting the following sluice valves including alljointing materials like bolts, nuts, washers,rubber packing, dismantling pieces, tail piecesetc. complete as per specification.MJP SOR 2005-06, Page 128
a 350 1 No. 2300.00 2300.00b 400 2 No. 2570.00 5200.00c 450 2 No. 2720.00 5500.00d 500 0 No. 3020.00 0.00e 600 1 No. 3330.00 3400.00f 700 1 No. 3640.00 3700.00g 750 1 No. 4620.00 4700.00h 800 0 No. 5830.00 0.00i 900 1 No. 6040.00 6100.00
Job No.:4904A 1 of 3
Table 7.3Bill of Quantities for Valve Chambers in Transmission System for Nanded City
(South)SL. NO.
ITEM QTY UNIT RATE AMOUNT(Rs.)
Total for Valves 1503400.00
3
Excavation for foundation in earth, soils of alltypes, including removing the excavatedmaterial upto a distance of 50 m, excludingbackfilling, etc. completeLift 0-1.5 mMJP SOR 2005-06, Page 29
122.92 Cu. M 34.00 4200.00
4
Excavation for foundation in earth, soils of alltypes, including removing the excavatedmaterial upto a distance of 50 m, excludingbackfilling, etc. completeLift 1.5-3.0 mMJP SOR 2005-06, Page 29
92.55 Cu. M 37.00 3500.00
5
Excavation for foundation in earth, soils of alltypes, including removing the excavatedmaterial upto a distance of 50 m, excludingbackfilling, etc. completeLift 3.0-4.5 mMJP SOR 2005-06, Page 29
30.37 Cu. M 40.00 1300.00
6
Providing, supplying, transporting, installing,aligning, fixing in position and testing of 100mm dia double acting kinetic cast steel airvalve of approved make for pipeline with anisolating sluice valve including all accessoriesand jointing material like bolts, nuts, washers,rubber packing etc. complete as specification.MJP SOR 2005-06, Page 136
9.00 No 29590.00 266400.00
7Reinstatement of asphalt pavement of requiredthickness.Refer Table 7.8, Appendix 4
87.47 Sq.M 268.00 23500.00
8
Providing and laying reinforced concrete ofClass M20 for cast in situ and precast membersexcluding reinforcement but includingformwork, with coarse aggregate of size 20 mmdowngraded in walls, slabs, etc. includingfinishing, formwork, vibrating, curing etc.complete.MJP SOR 2005-06, Page 36
35.18 Cu. M 2425.00 1809000.00
Job No.:4904A 2 of 3
Table 7.3Bill of Quantities for Valve Chambers in Transmission System for Nanded City
(South)SL. NO.
ITEM QTY UNIT RATE AMOUNT(Rs.)
9
Providing and laying cement concrete of ClassM15 excluding reinforcement for footings,base slabs, Anchor blocks and encasement ofpipes with all other miscellaneous works. Therate shall include cost of shuttering,scaffolding, finishing, vibrating, curing etc.complete.MJP SOR 2005-06, Page 36
21.26 Cu. M 2277.00 48400.00
10
Providing and fixing in position steel barreinforcements of various diameters for R.C.C.pipes, caps, footings, foundation, slabs, beams,columns, canopies, staircases, newels, chajjas,lintels, pardies, copings, fins, arches etc.including cutting, bending, hooking the bars,binding with wires or tack welding andsupporting as required, etc. completeMJP SOR 2005-06, Page 39
Tor steel 7.39 MT 30840.00 228000.00Total for Valves 38.87 Lakh
Escalated Cost for 2006-07 Rates Escalated by 6% 41.20 Lakh
Job No.:4904A 3 of 3
TABLE 7.4COST ESTIMATION FOR PROPOSED DISTRIBUTION PIPES
Sl. No.
Description of Items Quantity Unit Rate
Providing D.I. Pipes of grade D.I. K-9 with internal cement mortar lining andincluding all taxes, transportation, loading, unloading, stacking etc. (16% ED)
Rates For Pipe DiameterMJP S.O.R. for the year 2005-06, Page 58
100 39324 580.00 22808000.00150 16100 842.00 13556200.00200 13913 1150.00 16000000.00250 4731 1520.00 7191200.00300 4400 1821.00 8012400.00350 1781 2283.00 4066100.00400 3094 2760.00 8539500.00450 2863 3334.00 9545300.00500 1887 3863.00 7289500.00600 541 5121.00 2770500.00Excavation for pipe trenches in all types of soils, including removing theexcavated material upto a distance of 50 m, excluding backfillingLift 0 to 1.5 mMJP S.O.R. for the year 2005-06, Page 29
94467.91 34.00 3212000.00
Lift 1.5 to 3.0 mMJP S.O.R. for the year 2005-06, Page 29
2219.01 37.00 82200.00
Filling in trenches with contractor's murum for bedding in 20 cm layersincluding watering and compaction completeMJP S.O.R. for the year 2005-06, Page 33
13846.11 Cu.m 130.00 1800000.00
Refilling the trenches with available excavated stuff with soft material first overpipeline and then hard material in 15 cm layers with all leads and lifts includingconsolidation, surcharghing etc. completeMJP S.O.R. for the year 2005-06, Page 33
79533.48 Cu.m 16.00 1272600.00
Disposal of excavated earth material from work site to a distance of 3.00 kmincluding loading, unloading & stacking etc. completeMJP S.O.R. for the year 2005-06, Page 20
17090.57 Cu.m 80.43 1374600.00
7 Reinstatement of asphalt pavement of required thickness.Refer Table 7.8, Appendix 4
6000.00 Sq. M 268.00 1608000.00
Lowering laying and jointing D.I. K-9 pipes with SBR rubber gasketsincluding conveyance of material, cost of jointing materials and rubber rings,labour, giving hydraulic testing etc. completeMJP S.O.R. for the year 2005-06, Page 55
100 39324 24.00 943800.00150 16100 33.00 531300.00200 13913 43.00 598300.00250 4731 56.00 265000.00300 4400 65.00 286000.00350 1781 78.00 139000.00400 3094 92.00 284700.00450 2863 101.00 289200.00500 1887 119.00 224600.00600 541 159.00 86100.00Providing and supplying ISI Standard D.I. Specials and fittings withsealing rubber gasket of S.B.R., complete with C.I. Follower gland and M.S.nuts & bolts protected from rusting, including cost of labours etc. complete.MJP S.O.R. for the year 2005-06, Page 64
100 to 300 mm dia. 15694 70.00 1098600.00350 mm and above dia. 2033 80.00 162700.00
RMT
4
8
3
2
1
RMT
Cu.m
kg
9
5
Job No.: 4904A Page 1 of 2
TABLE 7.4COST ESTIMATION FOR PROPOSED DISTRIBUTION PIPES
Sl. No.
Description of Items Quantity Unit Rate
110 Nallah CrossingsProviding and laying M25 grade cement concrete for RCC work in footing ofRCC columns including normal dewatering, form work, compaction, finishingand curing, etc, complete. Excluding MS or Tor reinforcement.MJP S.O.R. for the year 2005-06, Page 36
35 Cu.M. 2586.00 90600.00
Providing and laying M30 grade cement concrete for RCC work as per designand drawing including normal dewatering, centering, form work, compaction,finishing the formed surfaces with CM 1:3 of sufficient minimum thickness andcuring, etc, complete. Excluding MS or Tor reinforcement.MJP S.O.R. for the year 2005-06, Page 36
70 Cu.M. 2850.00 199500.00
Providing and fixing in position Tor steel bar reinforcement of variousdiameters for footings, foundations, columns etc. as per detailed designs,drawings and schedules; including cutting, bending, hooking the bars, bindingwith wires or tack welding and supporting as required, etc, complete
MJP S.O.R. for the year 2005-06, Page 39
10.5 MT 30840.00 323900.00
11.46
0.85
12.3113.05
TOTAL COST Crores of RupeesESCALATED COST FOR 2006-07 RATES (@ 6%) Crores of Rupees
Crores of RupeesTOTAL
Cost of Valves and Valve Chambers (Refer Table 7.5, Appendix 4 ) Crores of Rupees
Job No.: 4904A Page 2 of 2
Table 7.5Bill of Quantities for Valve Chambers in Distribution System
SL. NO.
ITEM QTY UNIT RATE AMOUNT(Rs.)
AMOUNT(Rs.)
1
Providing, supplying following flanged sluicevalves, class PN-1.0, including flanged tailpieces with rubber gasket of S.B.R. at bothends, complete as per specification.MJP SOR 2005-06, Page 125
a 80 0 No. 5063.00 0.00 0.00b 100 29 No. 6467.00 187543.00 187600.00c 150 18 No. 9707.00 174726.00 174800.00d 200 26 No. 15137.00 393562.00 393600.00e 250 10 No. 22099.00 220990.00 221000.00f 300 9 No. 26582.00 239238.00 239300.00g 350 4 No. 43113.00 172452.00 172500.00h 400 5 No. 55378.00 276890.00 276900.00I 450 5 No. 73171.00 365855.00 365900.00j 500 6 No. 89814.00 538884.00 538900.00k 600 4 No. 124654.00 498616.00 498700.00l 700 0 No. 237396.00 0.00 0.00
2
Lowering, laying and jointing in position andtesting the following sluice valves including alljointing materials like bolts, nuts, washers,rubber packing, dismantling pieces, tail piecesetc. complete as per specification.MJP SOR 2005-06, Page 128
a 80 0 No. 465.00 0.00 0.00b 100 29 No. 660.00 19140.00 19200.00c 150 18 No. 1030.00 18540.00 18600.00d 200 26 No. 1100.00 28600.00 28600.00e 250 10 No. 1450.00 14500.00 14500.00f 300 9 No. 1880.00 16920.00 17000.00g 350 4 No. 2300.00 9200.00 9200.00h 400 5 No. 2570.00 12850.00 12900.00I 450 5 No. 2720.00 13600.00 13600.00j 500 6 No. 3020.00 18120.00 18200.00k 600 4 No. 3330.00 13320.00 13400.00l 700 0 No. 3640.00 0.00 0.00
Job No.:4904A 1 of 3
Table 7.5Bill of Quantities for Valve Chambers in Distribution System
SL. NO.
ITEM QTY UNIT RATE AMOUNT(Rs.)
AMOUNT(Rs.)
Total for Valves 3233546.00 3233600.00
3
Excavation for foundation in earth, soils of alltypes, including removing the excavatedmaterial upto a distance of 50 m, excludingbackfilling, etc. completeLift 0-1.5 mMJP SOR 2005-06, Page 29
494.82 Cu. M 34.00 16823.83 16900.00
4
Excavation for foundation in earth, soils of alltypes, including removing the excavatedmaterial upto a distance of 50 m, excludingbackfilling, etc. completeLift 1.5-3.0 mMJP SOR 2005-06, Page 29
400.36 Cu. M 37.00 14813.20 14900.00
5
Excavation for foundation in earth, soils of alltypes, including removing the excavatedmaterial upto a distance of 50 m, excludingbackfilling, etc. completeLift 3.0-4.5 mMJP SOR 2005-06, Page 29
3.90 Cu. M 40.00 156.06 200.00
6Reinstatement of asphalt pavement of requiredthickness.Refer Table 7.8, Appendix 4
686.06 Sq.M 268.00 183865.07 183900.00
7
Providing and laying reinforced concrete ofClass M20 for cast in situ and precast membersexcluding reinforcement but includingformwork, with coarse aggregate of size 20 mmdowngraded in walls, slabs, etc. includingfinishing, formwork, vibrating, curing etc.complete.MJP SOR 2005-06, Page 36
264.78 Cu. M 2425.00 3430129.09 3430200.00
Job No.:4904A 2 of 3
Table 7.5Bill of Quantities for Valve Chambers in Distribution System
SL. NO.
ITEM QTY UNIT RATE AMOUNT(Rs.)
AMOUNT(Rs.)
8
Providing and laying cement concrete of ClassM15 excluding reinforcement for footings,base slabs, Anchor blocks and encasement ofpipes with all other miscellaneous works. Therate shall include cost of shuttering, scaffolding,finishing, vibrating, curing etc. complete.MJP SOR 2005-06, Page 36
149.88 Cu. M 2277.00 341270.27 341300.00
9
Providing and fixing in position steel barreinforcements of various diameters for R.C.C.pipes, caps, footings, foundation, slabs, beams,columns, canopies, staircases, newels, chajjas,lintels, pardies, copings, fins, arches etc.including cutting, bending, hooking the bars,binding with wires or tack welding andsupporting as required, etc. completeMJP SOR 2005-06, Page 39
Tor steel 41.20 MT 30840.00 1270557.22 1270600.00Total for Valves 84.91 Lakh 84.91 Lakh
Escalated Cost for 2006-07 Rates Escalated @6% 90.01 Lakh 90.01 Lakh
Job No.:4904A 3 of 3
Table 7.6UNIT RATE CALCULATION OF D.I. PIPES
S S Providing Depth Depth Qty.of Qty.of Qty.of Cost of Cost of Qty.of Cost of Lowering Total L I DI pipe of of earth B.fill Road exvn. Road murum murum & N Z Grade K-9 murum earth work Reinstatement B. fill. Reinstatement fill. fill. laying O E bedding work charges
mm Rs./m mm mm Cum./mCum./m Sq.m/m Rs./m Rs./m Cum./m Rs./m Rs./m Rs./m1 2 3 4 5 6 7 8 9 10 11 12 13 15
1 100 580.00 200.00 1300.00 0.91 0.76 0.70 55.03 350.00 0.14 18.20 24.00 900.002 150 842.00 200.00 1350.00 1.01 0.84 0.75 61.43 375.00 0.15 19.50 33.00 1200.003 200 1150.00 200.00 1400.00 1.12 0.93 0.80 68.33 400.00 0.16 20.80 43.00 1500.004 250 1520.00 200.00 1450.00 1.23 1.01 0.85 75.74 425.00 0.17 22.10 56.00 1900.005 300 1821.00 200.00 1500.00 1.35 1.10 0.90 83.79 450.00 0.18 23.40 65.00 2200.006 350 2283.00 200.00 1550.00 1.47 1.19 0.95 92.35 475.00 0.19 24.70 78.00 2700.007 400 2760.00 200.00 1600.00 1.60 1.27 1.00 101.43 500.00 0.20 26.00 92.00 3200.008 450 3334.00 200.00 1650.00 1.73 1.36 1.05 111.03 525.00 0.21 27.30 101.00 3900.009 500 3863.00 200.00 1700.00 1.87 1.45 1.10 121.15 550.00 0.22 28.60 119.00 4400.00
10 600 5121.00 200.00 1800.00 2.16 1.64 1.20 142.94 600.00 0.24 31.20 159.00 5800.0011 700 6598.00 200.00 1900.00 2.47 1.83 1.30 166.80 650.00 0.26 33.80 206.00 7300.00
Cost per meter for Ductile Iron Pipes
Job No.:4904A Page 1 of 1
Table 7.7UNIT RATE ANALYSIS FOR M.S. PIPES
S S ThickCost of spirally weldedCost of Cost of Depth Depth Qty.of Qty.of Qty.of Cost of Cost of Butt HydraulicLowering L I ness ERW/SAW/Fabricatedinternal guniting of of earth B.fill Road exvn. Road Welding Testing & Total N Z of MSM.S. pipes linning murum earth work Reinst- B. fill. Reinst- laying O E Plate bedding work atement bedding atement charges
mm mm Rs./m Rs./m. Rs./m. mm Cum./mCum./m Sq.m/m Rs./m Rs./m Rs./m Rs./m Rs./m1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
1 800 8 6525.00 402.12 507.68 200.00 2.00 2.80 2.02 1.40 229.14 700 279 19.64 161.00 9000.002 900 8 7311.00 452.39 570.51 200.00 2.10 3.16 2.21 1.50 259.74 750 279 19.64 161.00 10000.003 1000 8 8096.00 502.65 633.35 200.00 2.20 3.52 2.41 1.60 292.42 800 279 19.72 161.00 11000.00
Cost per meter for Mild Steel Pipes
Job No.: 4904A Page 1 of 1
Table 7.8Cost Estimation for Bituminous Pavements
for 1 lane carriagewayConsidering 7% CBR and traffic intensity of 01 MSA
No Item Unit No L B H Quantity Rate Amount
1
Providing, laying,spreading and compactingspecified graded crush stone in Granular SubBase course (drainage layer) includingpremixing the material in mechanical mixer layingin uniform layers of 75 mm (compactingthickness each) with Motor grader/ paver finisheron prepared murrum surface and compactingwith 10 T vibrating tandem roller to achieve thedensity of 98% of MDD including all material ,labour , machinery with all leads and lifts etc.complete as directed by Engineer-In-charge.
Cum 1 1000 3.5 0.15 525 206.07 108186.8
2
Providing and laying water bound macadam75mm consolidated thickness, includingconveying metal with leads upto 0.5km and liftsspreading, sectioning, compaction and spreadingblindage, includig artificial watering etc.complete. Grade II metal 63mm to 40mm(I 61/Pg 19 , MCC DSR 2001 2002)
Cum 1 1000 3.5 0.225 787.5 542.746 427412.5
Road Estimate for Bituminous Road
Job No.:4904A Page 1 of 2
Table 7.8Cost Estimation for Bituminous Pavements
3
Providing 20 mm thick premix bituminous carpetincluding supplying all material, preparing &cleaning the base, heating bitumen, mixing hotbitumen & aggregates in a bitumen mixer,layingthe carpet layers and compaction with vibratoryroller complete by using bulk asphalt (the ratedoes not include cost of tack coat and seal coat)with Bitumen 60/70 grade( I 101 Pg 248, PuneDSR)
Sqm 1 1000 3.5 3500 62.15 217525
4
Providing earthwork in embankment withapproved materials obtained from privte land,including all lifts and 50m lead laying in layers of20cm to 30cm thickness breaking clods, dressingto the required lines, curves grades and section,watering and compaction to 95% of standardProctor Density complete (I 32/ Pg 237 , PuneDSR 2005 2006 )
Cum 1 1000 3.5 0.6 2100 77.3 162330
side shoulders 2 1000 0.15 0.395 118.5 77.3 9160.05
Total Pavement Thickness 0.375 m (Rs.) 924614.3
Rate per sqm Rs. Sqm264.1755052
924614.2681
Job No.:4904A Page 2 of 2
Table 7.9.1COST ESTIMATE FOR ESR AT ASARJAN AND VASARNI
CAPACITY OF THE TANK 2.00 ML
STAGING HEIGHT 15.0 m
Item No.
Description of Item Quantity Unit Rate (Rs) Amount (Rs)
I EARTHWORK1 Earthwork in excavation including clearing away
vegetation, shrubs, etc., if any, for foundation in earth,soil of all types (ordinary/ hard soil) in both dry andwet conditions, sand, gravel and soft murum, includingdewatering, dressing of sides and ramming of bottomand transporting the excavated material beyond thebuilding area, stacking, spreading and levelling, etc.all complete as specified and as directed.For depthupto 1.5 m from GL(MJP-SOR-Year 2005-2006, page -29)
868.4 m3 34.00 29524.17
2 Earthwork in excavation including clearing awayvegetation, shrubs, etc., if any, for foundation in earth,soil of all types (ordinary/ hard soil) in both dry andwet conditions, sand, gravel and soft murum, includingdewatering, dressing of sides and ramming of bottomand transporting the excavated material beyond thebuilding area, stacking, spreading and levelling, etc.all complete as specified and as directed.For depth1.5 m to 3.0m (MJP-SOR-Year 2005-2006, page -29)
1,057.3 m3 40.00 42292.04
3 Filling above raft at all depths/ elevation withapproved excavated materials in 15 cm to 20 cmlayers including watering, ramming, compacting to95% Modified Proctor density and dressing, levellingto the required profiles, etc. complete as directed bythe Engineer.(MJP-SOR-Year 2005-2006, page -33)
1,410.7 m3 17.00 23981.99
4 Providing and laying minimum 230 mm thick dryrubble (soling) packing under floor/ grade slabs withapproved hard stone set in regular lines, handpacked, filling the interstices with small stone chipsand sand, ramming, watering and compactingcomplete. (MJP-SOR-Year 2005-2006, page -33)
230.6 m3 340.00 78390.45
TOTAL FOR EARTHWORK 174188.65
SCHEDULE OF QUANTITIESESR AT ASARJAN AND VASARNI
Job No.:4904A
Table 7.9.1COST ESTIMATE FOR ESR AT ASARJAN AND VASARNI
CAPACITY OF THE TANK 2.00 ML
STAGING HEIGHT 15.0 m
Item No.
Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASARJAN AND VASARNI
II CONCRETE AND ALLIED WORKS5 Providing and laying in situ cement concrete in
proporation 1:4:8 of trap metal for foundation andbedding, including bailing out water manually,formwork, compacting and curing etc. complete.(Bd.E-1/page-287, year 2004-05, increase 10%)
43.5 m3 1500.00 65207.68
6 Providing and casting in situ cement concrete M15 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a) Grade slab (page-38) 42.3 m3 2475.00 104645.87
7 Providing and casting in situ cement concrete M25 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a) Raft (page-36) 229.0 m3 2586.00 592251.16
b) Column (page-36) 94.0 m3 2795.00 262673.61
c) Beams and Braces (page-37) 237.4 m3 2745.00 651740.48
d) Staircase (page-38) 16.0 m3 2825.00 45084.37
8 Providing and casting in situ cement concrete M30 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a)Vertical Wall and floor slab (page-38) 331.5 m3 2870.00 951292.50
b) Dome (page-39) 44.6 m3 3110.00 138690.16
9 Providing and fixing in position HYSD bar of variousdiameters for R.C.C. pile caps, footings, foundations,slabs, beams, columns, canopies, staircases, newels,chajjas, lintels, pardies, coping, fins, arches, etc. asper detailed designs, drawings and schedules,including cutting, bending, hooking the bars, bindingwith wires or tack welding and supporting as requiredetc.complete (MJP-SOR-Year 2005-2006, page -39)
91.0 M.T 30840.00 2807535.56
TOTAL FOR CONCRETE AND ALLIED WORKS 5619121.40
Job No.:4904A
Table 7.9.1COST ESTIMATE FOR ESR AT ASARJAN AND VASARNI
CAPACITY OF THE TANK 2.00 ML
STAGING HEIGHT 15.0 m
Item No.
Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASARJAN AND VASARNI
III MISCELLANEOUS WORKS 10 Providing and fixing G.I. Pipe railing having 1.0 m
height consisting 50 x50 x6 mm M.S angle as verticalat 1.5 m c/c with 3 rows of 25 mm dia G.I. Pipes ofmedium class as horizontal and painting 3 coats of oilpaint over one coat of anticorrosive paint of approvedcolour etc. complete (MJP-SOR-Year 2005-2006, page -46)
78.5 RMT 460.00 36128.32
11 Providing and applying colour wash of approvedcolour, shade and quality in two coat to new surface,including scaffolding, brushing and brooming downetc. complete.(excluding two coats of white wash asbase coat to be paid separately)(Bd.P-2/page-412, year 2004-05, increase 10%)
3,443.8 m2 4.00 13775.13
12 Ladder LS 5000.00
13 Providing D.I. Pipes of D.I.K-9 with internal cementmorted lining and including all taxes, insurance,railway freight, unloading from railway wagon, loadinginto truck, transport to depertmental stores/site,unloading, stacking, etc. complete(MJP-SOR-Year 2005-2006, page -58)
a) Inlet 300mm dia. Pipe 25.0 RMT 1821.00 45525.00b) Outlet 400mm dia. pipe 20.0 RMT 2760.00 55200.00c) Washout 400mm dia pipe 25.0 RMT 2760.00 69000.00
14 Valve and valve chamber of dia 300mm 1.0 NO. 88000.00 88000.00
TOTAL FOR MISCELLANEOUS WORKS 312628.45GRAND TOTAL 6105938.50COST PER LITRE OF WATER Rs. 3.05
Job No.:4904A
Table 7.9.2COST ESTIMATION FOR ESR AT KAVATHA, NEAR LATUR ROAD
CAPACITY OF THE TANK 2.50 ML
STAGING HEIGHT 20.0 m
Item No. Description of Item Quantity Unit Rate (Rs) Amount (Rs)
I EARTHWORK1 Earthwork in excavation including clearing away
vegetation, shrubs, etc., if any, for foundation in earth,soil of all types (ordinary/ hard soil) in both dry andwet conditions, sand, gravel and soft murum, includingdewatering, dressing of sides and ramming of bottomand transporting the excavated material beyond thebuilding area, stacking, spreading and levelling, etc.all complete as specified and as directed.For depthupto 1.5 m from GL(MJP-SOR-Year 2005-2006, page -29)
1,069.8 m3 34.00 36373.62
2 Earthwork in excavation including clearing awayvegetation, shrubs, etc., if any, for foundation in earth,soil of all types (ordinary/ hard soil) in both dry andwet conditions, sand, gravel and soft murum, includingdewatering, dressing of sides and ramming of bottomand transporting the excavated material beyond thebuilding area, stacking, spreading and levelling, etc.all complete as specified and as directed.For depth1.5 m to 3.0m (MJP-SOR-Year 2005-2006, page -29)
1,303.1 m3 40.00 52123.03
3 Filling above raft at all depths/ elevation with approvedexcavated materials in 15 cm to 20 cm layersincluding watering, ramming, compacting to 95%Modified Proctor density and dressing, levelling to therequired profiles, etc. complete as directed by theEngineer. . (MJP-SOR-Year 2005-2006, page -33)
1,703.3 m3 17.00 28955.72
4 Providing and laying minimum 230 mm thick dryrubble (soling) packing under floor/ grade slabs withapproved hard stone set in regular lines, hand packed, filling the interstices with small stone chips and sand,ramming, watering and compacting complete.(MJP-SOR-Year 2005-2006, page -33)
286.1 m3 340.00 97267.32
TOTAL FOR EARTHWORK 214719.68
SCHEDULE OF QUANTITIESESR AT KAVATHA, NEAR LATUR ROAD
Job No.:4904A
Table 7.9.2COST ESTIMATION FOR ESR AT KAVATHA, NEAR LATUR ROAD
CAPACITY OF THE TANK 2.50 ML
STAGING HEIGHT 20.0 m
Item No. Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT KAVATHA, NEAR LATUR ROAD
II CONCRETE AND ALLIED WORKS5 Providing and laying in situ cement concrete in
proporation 1:4:8 of trap metal for foundation andbedding, including bailing out water manually,formwork, compacting and curing etc. complete.(Bd.E-1/page-287, year 2004-05, increase 10%)
53.5 m3 1500.00 80316.78
6 Providing and casting in situ cement concrete M15 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year2005-2006)a) Grade slab (page-38) 53.0 m3 2475.00 131150.41
7 Providing and casting in situ cement concrete M25 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year2005-2006)a) Raft (page-36) 318.1 m3 2586.00 822571.06
b) Column (page-36) 119.8 m3 2795.00 334864.56
c) Beams and Braces (page-37) 325.1 m3 2745.00 892437.59
d) Staircase (page-38) 20.1 m3 2825.00 56895.31
8 Providing and casting in situ cement concrete M30 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year2005-2006)a)Vertical Wall and floor slab (page-38) 409.1 m3 2870.00 1174084.77
b) Dome (page-39) 55.1 m3 3110.00 171225.44
Job No.:4904A
Table 7.9.2COST ESTIMATION FOR ESR AT KAVATHA, NEAR LATUR ROAD
CAPACITY OF THE TANK 2.50 ML
STAGING HEIGHT 20.0 m
Item No. Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT KAVATHA, NEAR LATUR ROAD
9 Providing and fixing in position HYSD bar of variousdiameters for R.C.C. pile caps, footings, foundations,slabs, beams, columns, canopies, staircases, newels,chajjas, lintels, pardies, coping, fins, arches, etc. asper detailed designs, drawings and schedules,including cutting, bending, hooking the bars, bindingwith wires or tack welding and supporting as requiredetc.complete (MJP-SOR-Year 2005-2006, page -39)
121.6 M.T 30840.00 3751018.70
TOTAL FOR CONCRETE AND ALLIED WORKS 7414564.61
III MISCELLANEOUS WORKS 10 Providing and fixing G.I. Pipe railing having 1.0 m
height consisting 50 x50 x6 mm M.S angle as verticalat 1.5 m c/c with 3 rows of 25 mm dia G.I. Pipes ofmedium class as horizontal and painting 3 coats of oilpaint over one coat of anticorrosive paint of approvedcolour etc. complete (MJP-SOR-Year2005-2006, page -46)
87.3 RMT 460.00 40174.69
11 Providing and applying colour wash of approvedcolour, shade and quality in two coat to new surface,including scaffolding, brushing and brooming downetc. complete.(excluding two coats of white wash asbase coat to be paid separately) (Bd.P-2/page-412,year 2004-05, increase 10%)
4,355.0 m2 4.00 17420.15
12 Ladder LS 5000.00
13 Providing D.I. Pipes of D.I.K-9 with internal cementmorted lining and including all taxes, insurance,railway freight, unloading from railway wagon, loadinginto truck, transport to depertmental stores/site,unloading, stacking, etc. complete(MJP-SOR-Year 2005-2006, page -58)
a) Inlet 450mm dia. Pipe 25.0 RMT 3334.00 83350.00b) Outlet 500mm dia. pipe 20.0 RMT 3863.00 77260.00c) Washout 500mm dia pipe 25.0 RMT 3863.00 96575.00
14 Valve and valve chamber of dia 450mm 1.0 NO. 214000.0 214000.00
TOTAL FOR MISCELLANEOUS WORKS 533779.84GRAND TOTAL 8163064.13COST PER LITRE OF WATER Rs. 3.27
Job No.:4904A
Table 7.9.3COST ESTIMATE FOR ESR AT ASADVAN
CAPACITY OF THE TANK 2.00 ML
STAGING HEIGHT 20.0 m
Item No. Description of Item Quantity Unit Rate (Rs) Amount (Rs)
I EARTHWORK1 Earthwork in excavation including clearing away
vegetation, shrubs, etc., if any, for foundation in earth,soil of all types (ordinary/ hard soil) in both dry and wetconditions, sand, gravel and soft murum, includingdewatering, dressing of sides and ramming of bottomand transporting the excavated material beyond thebuilding area, stacking, spreading and levelling, etc. allcomplete as specified and as directed.For depth upto1.5 m from GL(MJP-SOR-Year 2005-2006, page -29)
900.5 m3 34.00 30615.67
2 Earthwork in excavation including clearing awayvegetation, shrubs, etc., if any, for foundation in earth,soil of all types (ordinary/ hard soil) in both dry and wetconditions, sand, gravel and soft murum, includingdewatering, dressing of sides and ramming of bottomand transporting the excavated material beyond thebuilding area, stacking, spreading and levelling, etc. allcomplete as specified and as directed.For depth 1.5 mto 3.0m (MJP-SOR-Year 2005-2006, page -29)
1,096.5 m3 40.00 43858.68
3 Filling above raft at all depths/ elevation with approvedexcavated materials in 15 cm to 20 cm layersincluding watering, ramming, compacting to 95%Modified Proctor density and dressing, levelling to therequired profiles, etc. complete as directed by theEngineer. (MJP-SOR-Year 2005-2006, page -33)
1,464.5 m3 17.00 24896.05
4 Providing and laying minimum 230 mm thick dryrubble (soling) packing under floor/ grade slabs withapproved hard stone set in regular lines, hand packed,filling the interstices with small stone chips and sand,ramming, watering and compacting complete.(MJP-SOR-Year 2005-2006, page -33)
235.5 m3 340.00 80064.10
TOTAL FOR EARTHWORK 179434.49
SCHEDULE OF QUANTITIESESR AT ASADVAN
Job No.:4904A
Table 7.9.3COST ESTIMATE FOR ESR AT ASADVAN
CAPACITY OF THE TANK 2.00 ML
STAGING HEIGHT 20.0 m
Item No. Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASADVAN
II CONCRETE AND ALLIED WORKS5 Providing and laying in situ cement concrete in
proporation 1:4:8 of trap metal for foundation andbedding, including bailing out water manually,formwork, compacting and curing etc. complete.(Bd.E-1/page-287, year 2004-05, increase 10%)
45.1 m3 1500.00 67615.42
6 Providing and casting in situ cement concrete M15 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a) Grade slab (page-38) 42.3 m3 2475.00 104645.87
7 Providing and casting in situ cement concrete M25 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a) Raft (page-36) 237.6 m3 2586.00 614389.49
b) Column (page-36) 122.8 m3 2795.00 343266.71
c) Beams and Braces (page-37) 267.8 m3 2745.00 735190.28
d) Staircase (page-38) 20.1 m3 2825.00 56895.31
8 Providing and casting in situ cement concrete M30 oftrap metal for R.C.C. work as per detailed drawingsand designs or as directed, including normaldewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a)Vertical Wall and floor slab (page-38) 331.5 m3 2870.00 951292.50
b) Dome (page-39) 44.6 m3 3110.00 138690.16
9 Providing and fixing in position HYSD bar of variousdiameters for R.C.C. pile caps, footings, foundations,slabs, beams, columns, canopies, staircases, newels,chajjas, lintels, pardies, coping, fins, arches, etc. asper detailed designs, drawings and schedules,including cutting, bending, hooking the bars, bindingwith wires or tack welding and supporting as requiredetc.complete (MJP-SOR-Year 2005-2006, page -39)
96.6 M.T 30840.00 2978593.65
Job No.:4904A
Table 7.9.3COST ESTIMATE FOR ESR AT ASADVAN
CAPACITY OF THE TANK 2.00 ML
STAGING HEIGHT 20.0 m
Item No. Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASADVAN
TOTAL FOR CONCRETE AND ALLIED WORKS 5990579.38
Job No.:4904A
Table 7.9.3COST ESTIMATE FOR ESR AT ASADVAN
CAPACITY OF THE TANK 2.00 ML
STAGING HEIGHT 20.0 m
Item No. Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASADVAN
III MISCELLANEOUS WORKS 10 Providing and fixing G.I. Pipe railing having 1.0 m
height consisting 50 x50 x6 mm M.S angle as verticalat 1.5 m c/c with 3 rows of 25 mm dia G.I. Pipes ofmedium class as horizontal and painting 3 coats of oilpaint over one coat of anticorrosive paint of approvedcolour etc. complete (MJP-SOR-Year 2005-2006, page -46)
78.5 RMT 460.00 36128.32
11 Providing and applying colour wash of approvedcolour, shade and quality in two coat to new surface,including scaffolding, brushing and brooming downetc. complete.(excluding two coats of white wash asbase coat to be paid separately)(Bd.P-2/page-412, year 2004-05, increase 10%)
3,944.2 m2 4.00 15776.83
12 Ladder LS 5000.00
13 Providing D.I. Pipes of D.I.K-9 with internal cementmorted lining and including all taxes, insurance,railway freight, unloading from railway wagon, loadinginto truck, transport to depertmental stores/site,unloading, stacking, etc. complete(MJP-SOR-Year 2005-2006, page -58)
a) Inlet 300mm dia. Pipe 25.0 RMT 1821.00 45525.00b) Outlet 400mm dia. pipe 20.0 RMT 2760.00 55200.00c) Washout 400mm dia pipe 25.0 RMT 2760.00 69000.00
14 Valve and valve chamber of dia 300mm 1.0 NO. 88000.00 88000.00
TOTAL FOR MISCELLANEOUS WORKS 314630.14GRAND TOTAL 6484644.02COST PER LITRE OF WATER Rs. 3.24
Job No.:4904A
Table 7.9.4COST ESTIMATION FOR ESR AT ASADVAN
CAPACITY OF THE TANK 1.50 ML
STAGING HEIGHT 10.0 m
Item No.
Description of Item Quantity Unit Rate (Rs) Amount (Rs)
I EARTHWORK1 Earthwork in excavation including clearing away
vegetation, shrubs, etc., if any, for foundation inearth, soil of all types (ordinary/ hard soil) in both dryand wet conditions, sand, gravel and soft murum,including dewatering, dressing of sides and rammingof bottom and transporting the excavated materialbeyond the building area, stacking, spreading andlevelling, etc. all complete as specified and asdirected.For depth upto 1.5 m from GL(MJP-SOR-Year 2005-2006, page -29)
745.8 m3 34.00 25358.41
2 Earthwork in excavation including clearing awayvegetation, shrubs, etc., if any, for foundation inearth, soil of all types (ordinary/ hard soil) in both dryand wet conditions, sand, gravel and soft murum,including dewatering, dressing of sides and rammingof bottom and transporting the excavated materialbeyond the building area, stacking, spreading andlevelling, etc. all complete as specified and asdirected.For depth 1.5 m to 3.0m (MJP-SOR-Year 2005-2006, page -29)
907.8 m3 40.00 36312.96
3 Filling above raft at all depths/ elevation withapproved excavated materials in 15 cm to 20 cmlayers including watering, ramming, compacting to95% Modified Proctor density and dressing, levellingto the required profiles, etc. complete as directed bythe Engineer. (MJP-SOR-Year2005-2006, page -33)
1,245.9 m3 17.00 21179.74
4 Providing and laying minimum 230 mm thick dryrubble (soling) packing under floor/ grade slabs withapproved hard stone set in regular lines, handpacked, filling the interstices with small stone chipsand sand, ramming, watering and compactingcomplete. (MJP-SOR-Year 2005-2006, page -33)
186.7 m3 340.00 63492.25
TOTAL FOR EARTHWORK 146343.37
SCHEDULE OF QUANTITIESESR AT ASADVAN
Job No.:4904A
Table 7.9.4COST ESTIMATION FOR ESR AT ASADVAN
CAPACITY OF THE TANK 1.50 ML
STAGING HEIGHT 10.0 m
Item No.
Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASADVAN
II CONCRETE AND ALLIED WORKS5 Providing and laying in situ cement concrete in
proporation 1:4:8 of trap metal for foundation andbedding, including bailing out water manually,formwork, compacting and curing etc. complete.(Bd.E-1/page-287, year 2004-05, increase 10%)
37.3 m3 1500.00 56018.52
6 Providing and casting in situ cement concrete M15of trap metal for R.C.C. work as per detaileddrawings and designs or as directed, includingnormal dewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a) Grade slab (page-38) 31.4 m3 2475.00 77709.79
7 Providing and casting in situ cement concrete M25of trap metal for R.C.C. work as per detaileddrawings and designs or as directed, includingnormal dewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a) Raft (page-36) 171.8 m3 2586.00 444289.92
b) Column (page-36) 66.7 m3 2795.00 186333.76
c) Beams and Braces (page-37) 145.5 m3 2745.00 399313.03
d) Staircase (page-38) 11.8 m3 2825.00 33273.44
8 Providing and casting in situ cement concrete M30of trap metal for R.C.C. work as per detaileddrawings and designs or as directed, includingnormal dewatering, centering formwork, compacting,roughening the surface if special finish is to beprovided and curing etc.complete (Excluding steelreinforcement.) (MJP-SOR-Year 2005-2006)a)Vertical Wall and floor slab (page-38) 248.1 m3 2870.00 712123.12
b) Dome (page-39) 38.6 m3 3110.00 119964.30
Job No.:4904A
Table 7.9.4COST ESTIMATION FOR ESR AT ASADVAN
CAPACITY OF THE TANK 1.50 ML
STAGING HEIGHT 10.0 m
Item No.
Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASADVAN
9 Providing and fixing in position HYSD bar of variousdiameters for R.C.C. pile caps, footings,foundations, slabs, beams, columns, canopies,staircases, newels, chajjas, lintels, pardies, coping,fins, arches, etc. as per detailed designs, drawingsand schedules, including cutting, bending, hookingthe bars, binding with wires or tack welding andsupporting as required etc.complete(MJP-SOR-Year 2005-2006, page -39)
70.4 M.T 30840.00 2171238.02
TOTAL FOR CONCRETE AND ALLIED WORKS 4200263.91
Job No.:4904A
Table 7.9.4COST ESTIMATION FOR ESR AT ASADVAN
CAPACITY OF THE TANK 1.50 ML
STAGING HEIGHT 10.0 m
Item No.
Description of Item Quantity Unit Rate (Rs) Amount (Rs)
SCHEDULE OF QUANTITIESESR AT ASADVAN
III MISCELLANEOUS WORKS 10 Providing and fixing G.I. Pipe railing having 1.0 m
height consisting 50 x50 x6 mm M.S angle asvertical at 1.5 m c/c with 3 rows of 25 mm dia G.I.Pipes of medium class as horizontal and painting 3coats of oil paint over one coat of anticorrosive paintof approved colour etc. complete (MJP-SOR-Year 2005-2006, page -46)
68.8 RMT 460.00 31648.40
11 Providing and applying colour wash of approvedcolour, shade and quality in two coat to new surface,including scaffolding, brushing and brooming downetc. complete.(excluding two coats of white wash asbase coat to be paid separately) (Bd.P-2/page-412,year 2004-05, increase 10%)
2,530.6 m2 4.00 10122.59
12 Ladder LS 5000.00
13 Providing D.I. Pipes of D.I.K-9 with internal cementmorted lining and including all taxes, insurance,railway freight, unloading from railway wagon,loading into truck, transport to depertmentalstores/site, unloading, stacking, etc. complete(MJP-SOR-Year 2005-2006, page -58)
a) Inlet 300mm dia. Pipe 25.0 RMT 1821.00 45525.00b) Outlet 400mm dia. pipe 20.0 RMT 2760.00 55200.00c) Washout 400mm dia pipe 25.0 RMT 2760.00 69000.00
14 Valve and valve chamber of dia 300mm 1.0 NO. 88000.00 88000.00
TOTAL FOR MISCELLANEOUS WORKS 304496.00GRAND TOTAL 4651103.27COST PER LITRE OF WATER Rs. 3.10
Job No.:4904A
Table 7.10COST ESTIMATION FOR REHABILITATION OF CIVIL WORKS
Sl. No.
Description Quantity Rate Cost in Rs.
a Widows and doorsProviding and fixing in position cold rolled pressed steel sheet door/ window frame of size 100 x 60 x 1.25 mm. (18 B.W.G. thickness) including holdfasts, no member at bottom of frame 10 mm. thick rebate and depth of rebate after shutter thickness, hinges, holdfast etc. fitted after shutter requirement, powder coating to the frame and filling the frame with concrete or mortar etc. complete.As per Maharashtra PWD DSR Aurangabad Region, 2004-05 Cl. 302 BDT 2A 72 200 14400
Providing and fixing in position mild steel door/window shutters including mild steel
angle frame of size 25 X 25 X 5 mm. for fixing mild steel sheet 24 gauge including welding
fixing to frame and all necessary fixtures including electrostatic powder coating etc.
complete.As per Maharashtra PWD DSR Aurangabad
Region, 2004-05 Cl. 371 BD ADL-29 60 1000 60000
b Replacement of sand m3750 5300 3975000
c
Manufacture,supply and commission electromagnetic flow meter, raw water and pure water ith accuracy 0.5% of measured value & protection as per given specifications for size 100-1000mm. Including sensor, transmitter,surge arrester,25 mtr sensor/transmitter cable,GI duct of suitablensize for 25 mtr/each flow meter,including pipe cutting,levelling & installation of flow meter in pipe line with necessary tool tackles,crane etc, as may be required at site & based on technical specificationsCIDCO WTP inlet and outlet - 450 mm 2 467894 935800CIDCO ESR - 250 mm 2 242769 485600
Total Rs. 5470800
Escalated Cost for 2006-07 Rate 5799000Say Rs, 5800000
Escalated @ 6% per year
Rehabilitation Civil Works at Kabranagar
Job No.:4904A Page 1 of 1
Table 7.11 Cost Estimation of Electrical Rehabilitation Works
Job No.:4904A
Electrical Cost Estimate for Design Period of year 2023
Sr No
Description Qty Rate Total Amount
A CIDCO RAW WATER PUMPING STATION 1 11kV Cable 50 mtre 2301 115043 2 11kV Indoor Termination kits 3 Nos 7789 23367 3 11kV outdoor Termination kits 3 Nos 11872 35616 4 11kV Indoor VCB panel with 1 incomer and 3
outgoings 1 set 1516186 1516186
11KV /415V,750kVA Transformer 2 Nos 517896 1035792 5 415V Main MCC 1 Nos 2180523 2180523 6 415V Sub distribution boards 1 Nos 814562 814562 11kV Overhead line 2kM 600000 600000 7 Battery ,Battery charger and DCDB 1 Nos 1421575 1421575 8 Capacitor bank with APFCR 2 set 572112 1144224 9 L.T cables with Glands, Lugs and cable carrier
system with trays 1 Lot 1973379 1973379
10 Earthing 1 Lot 74549 74549 11 Lighting Panel 1 Nos 20549 20549 12 ON-OFF Push Button Station 8Nos 5292 5292 13 Lighting fixtures and point wiring 1 Lot 192826 192826 11153483
B CIDCO 12MLD WATER TREATMENT PLANT AND CLEAR WATER PUMPING STATION 1 415V MCC at CWPS 1 Nos 546050 546050 2 WTP MCC 1 Nos 441657 441657 3 Lighting Panel 1 Nos 20549 20549 4 Capacitor bank with APFCR 1 set 553320 553320 5 L.T cables with Glands , Lugs and Cable
Carrier System with trays and supports 1 Lot 2179903 2179903
6 Earthing 1 Lot 96036 96036
Table 7.11 Cost Estimation of Electrical Rehabilitation Works
Job No.:4904A
7 ON-OFF Push Button Station 15Nos 9923 9923 8 Lighting fixtures and point wiring 1 Lot 318619 318619 9 11kV Overhead line 2.5kM 750000 750000
Total 4916056 Grand Total A+B 16069539 Note : For details refer back up sheets
Table 7.12Cost Estimate Mechanical Works
Sr. No.: ITEM DESCRIPTIONDESIGN
CRITERIA QTY UNIT PRICE PRICE1 CIDCO RWPS (existing)
a Vertical Pumps580 cum/hr H = 52 mtr 2 1000000 2000000 M & P quote for MP Job
b Motors 132 kW 2 350000 700000 M & P quote for MP Jobd Pressure Gauges 4 750 3000 MJP price Schdule of 2005
e Level Transmitter 1 125000 125000Toshbro Controls offer dt. 28.12.2005 Sr. No. 1a)
f Flow meter 1 325000 325000Estimate from previous project (E & H)
g Installation etc 1 200000 200000 estimate
2 12 Mld WTP (CIDCO)a Alum constant Head contrller 1 50000 50000 Quote to be obtainedb Flash Mixer 1 90000 90000 Pooja Const co Estic Flocculator 2 75000 150000 Pooja Const co Estid Alum Mixer 3 100000 300000 Lysander-Hind Eng Co offere Lime Mixer 2 100000 200000 Lysander-Hind Eng Co offerf Pipes and Valve (chemical) 1 50000 50000 Estimateh Valves 1 300000 300000 EstimateI Gates 1 150000 150000 Puja Const. Co offer
j Rate of Flow and Loss of Head ind. 3 60000 180000 Quote to be obtainedk Clarifier bridge/ scrappermechnisum 1 200000 200000
l Pre chlorination 0-2.5 kg/hr 1 300000 300000
Quote of Efficient Connections ( Wallace & Tiernanmake) dt 24.10.05
m Post Chlorination 0-1 kg/hr 1 200000 200000
Quote of Efficient Connections ( Wallace & Tiernanmake) dt 24.10.05
n Installaion/rehabilitation 500000 500000
3 PWPS
a Hori. Split case Pumps525 cum/hr, H = 20 mtr 2 200000 400000 M & P offer for MP Job
b Motors for above 45 Kw 2 125000 250000 M & P offer for MP Jobc Pressure Gauges 4 750 3000 MJP price Schdule of 2005
d flow meter 1 325000 325000
Estimate from previous project (E & H)
e Level Transmitter 1 125000 125000Toshbro Controls offer dt. 28.12.2005 Sr. No. 1a)
e refurbishment 1 200000 200000 Estimate7326000
Cost includes, installation, refurbishment, commissioning etc
COST ESTIMATE(SOUTH BANK/CIDCO EXISTING) NANDED ( 11.08.2006)
Job No.:4904A Page 1 of 1