PRE-FEASIBILITY REPORT OF
LAKSHMAN PAHARI ROPEWAY
At LAKSHMAN PAHARI, CHITAKOOT, UTTAR PRADESH
Submitted to:
MINISTRY OF ENVIRONMENT, FORESTS & CLIMATE
CHANGE, GOI
Submitted by:
CHITRAKOOT ROPEWAYS PVT LTD(Near Laxman Pahari, Khohi, Karwi, Chitrakoot, U.P.)
Environmental Consultant
M/s PERFACT ENVIRO SOLUTIONS PVT. LTD. (NABET Registered List ‘A’ of Accredited Consultant Organizations / Rev. 44, August 2016, at Sr. No.
96)
5th Floor, NN Mall, Mangalam Palace
Sector 3, Rohini, New Delhi
Email: [email protected]
Phone No.: 011-47528467
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
ENCLOSURE-I- PRE-FEASIBILITY REPORT
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
PROJECT DESCRIPTION
With a view to increase its religious tourism, the Department of Tourism, Government of Uttar
Pradesh has identified three sites for development of ropeway facilities as a pilot project. One
of those chosen sites is the Lakshman temple at Lakshman Pahari, Chitrakoot near the
Kamadgiri.
The ropeway will be built in one phase with its Upper Terminal Point at the northern part of
the Lakshman temple and the Lower Terminal Point at the forest land on the southern part
of the parikrama path.
The proposed Shimla Passenger Ropeway shall be developed at Shimla, Himachal Pradesh by
Department of Tourism, GoUP. The proposed system to be installed at Shimla will be
Monocable Detachable system. The alignment will be 256.99 metres in length with an
elevation difference of 30 metres, covering an area of 9629.9 sq m (including four Terminal
Stations & ropeway corridor). The elevation of LTP is 170.0 m & UTP is 200 m above MSL.
Type of Project
The project being an Aerial Ropeway falls under the item 7 (g) of the EIA notification, 2006
and is a designated Project as per Schedule and falls under category A, as Inter-State Boundary
of Madhya Pradesh falls within 5 km and thus, General Conditions Apply.
Project Proponent
Department of Tourism, GoUP is the organization responsible for the development of tourism
destinations, circuits and tourist infrastructure in the state. For the development and
implementation of this project, a Special Purpose Vehicle (SPV) will be incorporated under
the Companies Act, 1956. This SPV will be formed between the Department of Tourism, GoUP
and the Successful Bidder selected through the competitive bidding process. The selected
bidder will be required to design, build, finance, construct and operate & maintain the project
for a specific concession period.
Tourism has been pivotal to social progress as well as an important vehicle for widening socio-
economic and cultural contact throughout human history. Both cause and consequences of
economic development, facilitates business contacts, widening of markets, broad-based
employment and income generation. The tourism industry is a major contributor to the gross
national products of many nations. It is one of the fastest growing industries in the world.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Description of Project Site:
Chitrakoot is a district in Uttar Pradesh famous for its association with the beloved Indian
Mythology, The Ramayana. People from all over the country pour in to this town each year in
heavy numbers to witness the religious texts unfolding in front of their eyes. Chitrakoot is
situated on the National Highway 76.
Lakshman Pahari, as it is popularly known is located in Chitrakoot Dham (Karwi) Town; district
headquarters Chitrakoot District in Bundelkhand region of Uttar Pradesh. Lakshman Pahari is
connected via the State Highway 11 at a distance of approximately 10 kms from the NH76
and 6 kms south of the town of Karwi. The site is located at the south-western part of the
parikrama path of Kamadgiri.
As per Census 2011, Chitrakoot Dham (Karwi) had a population of 57,402. Males constitute
53% of the population and females 47%. Chitrakoot Dham (Karwi) is located at 25.2°N 80.9°E.
It is bounded in the north by Kaushambi, in the south by Satna (M.P.) & Rewa (M.P.), in the
east by Allahabad (Prayag), in the west by Banda. Chitrakoot Dham (Karwi) is situated on the
bank of River Mandakini. It has an average elevation of 207 metres (679 feet) and geographic
area of 38.20 Sqkm.
The transport can be from charted buses to private cabs/cars. From Karwi they can travel to
Lakshman Pahari and Kamadgiri by road using their own vehicles or shared autos. There is a
shortage of parking space at Kamadgiri. The approach to Lakshman Pahari is a separate one
running around the west of Kamadgiri to its south. However, this is a very narrow road and
does not provide any parking facilities. It is assumed that most of the ropeway riders shall be
moving in their own or hired vehicles and parking would be a necessity. There is some food
stalls located at Kamadgiri and at the top of Lakshman Pahari, which sell a limited variety of
food products. These joints are limited to road side eating or take-away type. There is a small
pond at the bottom of Lakshman Pahari. This would be revived with clean water and addition
of fishes helping in improving the local ambience and provide a place for people to relax.
Need/Justification of the Project:
Uttar Pradesh abounds in places of tourist interest. Places of religious, historical,
archaeological and of natural beauty are worth-seeing. It is estimated that nearly 170 million
tourists, both domestic and foreign, visited different places of the State.
Aimed at promoting religious tourism and providing better transit facilities to pilgrims,
Government of Uttar Pradesh (GoUP) has decided to develop first group of ropeways in the
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
state. As an added attraction to the tourists, a Passenger Ropeways would be developed at
this places through Public Private Partnership mode in the state for development of an
alternate and eco-friendly means of transportation. Lakshman Pahari in Chitrakoot in
Bundelkhand Region is one of them.
Being associated with a significant part of the Indian history and culture, it is only befitting for
Uttar Pradesh to showcase its rich heritage. It is for this reason that the Department of
Tourism intends to develop Uttar Pradesh as a tourism hub in the country by creation of
integrated tourism destinations throughout the state. Hence, they have envisaged the
establishment of world class tourism destinations with the most advanced and forward
looking ropeway systems and allied amenities in order to achieve that goal.
Location of the Project Alignment
The ropeway will be built in one phase with its Upper Terminal Point at the northern part of
the Lakshman temple and the Lower Terminal Point at the forest land on the southern part
of the parikrama path. The location map of the Project alignment is shown below:
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
The lat long of the site are given below:
Station Latitude Longitude
Terminal T1 (LTP) 80°50'21.45"E 25°10'1.39"N
Terminal T2 (UTP) 80°50'15.21"E 25° 9'55.82"N
Connectivity:
Airport: Chaudhary Charan Singh Airport, Lucknow-176.80 Km N
Railway Station: Shivrampuram Railway Station- 6.09 Km N
Highway: NH-76- 5.62 Km N SH-11 - 2.40 Km SE Connecting road SH 11 and Kamta Mohalla- 1.63 Km NE
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Area Requirement:
The area required for the construction of the terminal stations and line towers would be
about 9629.9 sqm.
The detailed area summary is given below:
Area required for Total Area
Lower Terminal Station-A 1800 sqm
Upper Terminal Station -B 800 sqm
Ropeway Length-C 256.99 m
Right of Way-D 10 m
Corridor of the alignment - E 2569.9 m
Parking at Lower Station -F 2,450 Sqm
Pond - G 2,010 Sqm
Total (A+B+E+F+G) 9629.9 sqm
PROJECT DETAILS
Total
TECHNOLOGY OF ROPEWAY Mono-cable Pulsed fixed Grip Gondola Ropeway
LENGTH 256.99 m
ELEVATION DIFFERENCE 30.0 m
HAULAGE ROPE DIA 36 mm
PASSENGER CAPACITY OF ROPEWAY 452 PPH
TRIP TIME 2.39 min
DRIVE SPEED 0.4 m/s
NO OF CABINS IN LINE 4 no.
TOTAL NO. OF CABINS Six (3X2/ The Car Group)
PASSENGERS PER CARRIER 2 no.
CARRIER SPACING 126.99 m
NUMBER OF TOWERS 2 no.
POWER LOAD REQUIREMENT 90 KW
DG SETS (BACK-UP POWER) UTP- Nil LTP- 50 KVA
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
VISITORS 4520 persons
STAFF 30 persons
TOTAL POPULATION 4550 persons
Alignment Options for Ropeway System at Lakshman Pahari
To develop the ropeway, three sites were chosen. Selection of a specific ropeway alignment
depends upon several different factors like terrain type, length of the project and impact on
the built environment. The approach to the lower terminal should also be easy for the
prospective riders. Hence, several site visits were undertaken along with surveys to assess the
best possible alignment of the ropeway.
Kamadgiri is a 5 km long circular path located on the outskirts of the main town. Although
there are some dense hutments in a village at the north of the parikrama path, the southern
side with Lakshman Pahari has wide open spaces. Now, ropeways are a complicated
technology which requires open space to be developed. Hence, a simple alignment next to
the steps of the temple would be most suited.
While considering the alignment, following approach & methodology has been adopted for
selecting the most favourable alignment.
1. Reduce traffic congestion
2. Easy connectivity with the traffic nodes.
3. Availability of adequate space for proposed terminals.
4. Minimum Possible infringement.
5. Minimum rehabilitation and minimum tree cutting.
6. Feasibility in realm of construction and technical requirements.
7. Feasible for ropeway system able to handle projected traffic.
8. Comfort to tourists and locals.
9. Ease in Crowd Management.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Selected Alignment:
This alignment starts with its LTP at an open parcel of land at the foot of Lakshman Pahari
belonging to the Forest Department. The corridor traverses over a thin forest with very few
trees upon land which also belongs to the Forest Department. The alignment finally ends up
at the top of the hill north of the temple with its UTP at Abadi land.
A small access road to the Kamadgiri, albeit very narrow, is present very close to the Lakshman
Pahari on its west. This road goes around the major settlements while avoiding the points of
congestion.
The alignment is clear of any urban habitat in its corridor
The space next to the lower terminal provides adequately large space for parking of
the vehicles of visitors to the temple
The approach to the site offers an alternate access system which will not burden the
existing congested areas of Kamadgiri in Chitrakoot.
It is the closest location to the existing stairway to the Laxman Temple, thereby
maintaining its attractiveness as an alternate mode of travel and ensuring better
financial viability of the ropeway project.
Alignment 1
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Proposed Ropeway Layout Section
Alignment of the proposed Ropeway System at Chitrakoot
CLIENTTITLE:
0
NOTES-:
SURVEY CONSULTANTS-:
SAKSHI PROJET CONSULTANCYPLOT NO-56,2nd FLOOR (FRONT SIDE)SHAKTI KHAND -III INDIRAPURAM GHAZIABAD(201014)
DO NOT MODIFY OR
ALTER/ASK IN CASE
OF DOUBTSCALE - DATE -25 MAY 2014
BASE
PARAMETERS
L-SECTION
LOWER
TERMINAL
UPPER
TERMINAL
CHAINAGE
LS:RL
LS:GRADIENT
T1/4.88
-8/-8
T2/15
-6/-6
T4/6.47
+10/+10
Horinontal Distance 253.989 Mtr.
Elevetion Difference 65.0000 Mtr.
Inclined Distance 263.724 Mtr.
Lower Terminal Area 300.000 Sq.Mtr.
Upper Terminal Area 330.000 Sq.Mtr.
Ropeway corridor 3955.86 Sq.Mtr.Width 15.000 Mtr.
T3/15
-8/-8
CLIENTTITLE:
0
N OTES-:
SU R VEY C ON SULTANTS-:
SAKSHI PROJET CONSULTANCYPLOT NO-56,2nd FLOOR (FRONT SIDE)SHAKTI KHAND -III INDIRAPURAM GHAZIABAD(201014)
DO NOT MODIFY OR
ALTER/ASK IN CASE
OF DOUBTSCALE - DATE -25 MAY 2014
BASE
PARAMETERS
L-SECTION
LOWER
TERMINAL
UPPER
TERMINAL
CHAINAGE
LS:RL
LS:GRADIENT
T1/4.88
-8/-8
T2/15
-6/-6
T4/6.47
+10/+10
Horinonta l Distance 253.989 Mtr.
E levetion Difference 65.0000 Mtr.
Incl ined Distance 263.724 Mtr.
Lower Terminal Area 300.000 Sq.Mtr.
Upper Terminal Area 330.000 Sq.Mtr.
Ropeway corridor 3955.86 Sq.Mtr.
Width 15.000 Mtr.
T3/15
-8/-8
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
’
The proposed project components can be divided into those located at Lower Station and Upper Station. The details are given as under.
C LIENT
TOPOGRAPHICAL SURVEY,
C ONTOURS PLAN AND L-SEC TION
TITLE:LEGEND
SAKSH I PR OJET CONSULTANCYPLO T NO -5 6, 2n d FL OO R (FRO NT SIDE)
B U I L D I N GP O N D
Land required for
Lower TerminalStation
Land required for
Upper TerminalStation
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Lower Terminal
Lower Terminal Station (LTP): The lower terminal station shall be a structural shed,
which will house all ropeway drive machinery. Under-part of the shed will provide the
foundation for ropeway structure. The shed height shall be as per industries norms
and the same shall be open from all sides for better visibility.
Control Room: It will house the control panel for operation of the ropeway. This shall
be located inside the terminal station building. The control room has glass on all sides
to provide uninterrupted view to the operator; of the cabins movement and
passengers boarding and de-boarding.
Workshop: A small workshop will be provided at the lower station to facilitate the
ropeway crew to undertake repairs and other associated work of the ropeway parts.
The workshop is normally provided next to spare parts room and can be located inside
or outside the terminal station.
Spares Stock Room: Ropeways use special parts and some parts are specific to the
plant. The plant therefore houses sufficient quantity of such spares and other off-the-
shelf spares as inventory to undertake any repair. These spares are stored in a fully
closed room. The spare parts room is normally located next to Work shop.
Guard Room: The plant has to be protected against any theft or mischief during the
silent hour and patrolling guards shall be deployed for the same. Guards are also
needed for crowd control during operational time. A guard room is therefore provided
in the station area.
Ticket Booth: Ticketing booth is located adjacent to station perimeter near the
entrance gate. As the name suggest, it is used to dispense manual/computerised ticket
of the ropeway to visitors. It is normally built solid with small window for transaction
and inside lockable door, as the space has fair amount of cash money.
Drinking Water Fountains: Drinking water fountains shall be scattered all over the
station area. The water is fed from overhead tank or pressurised feed line, which is
processed by either individual or central Reverse Osmosis (RO) plant. The water is
cooled in the electrically operated coolers during summer time for passenger comfort.
If the municipality water supply is not available in the area, the ropeway company
should be allowed to make a bore well in the station premises.
Toilet Block: Clean toilets are a national requirement and ropeway station is capable
of proving the same. The proposed toilet block for male and female passengers should
be established in the station block. The male block should have 3 urinals and two
latrines; whereas the female block should have 4 Indian latrines with auto flush facility.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
The common area should have a combined wash space with three wash basins in each
block. The entire toilet and wash block for men and women should be provided clad
with ceramic tiles to maintain spotless cleanliness. The block should also have good
ventilation system to keep bad odour away. The discharge of these blocks can go to
an underground bacterial septic tank and its processed outlet water may be used for
watering the garden plants.
Landscaping: The ropeway company shall undertake minor landscaping of area
surrounding the station building to add to the greenery as well beauty of the place.
Parking Space: The ropeway company shall undertake development of full or part
construction of parking space with concrete-tiled finish, which should be sufficient for
over 100 standard cars. It should be paid parking and the area should be properly
marked for systematic movement of the vehicles.
Staff Welfare, Dining and Rest Room: The ropeway company should provide a small
but well appointed room as staff entertainment, welfare and dining facility. It is quite
possible that during the tourist season, the ropeway may need to operate for 18 hours
daily. This will lead to requirement of a place for staff to relax while on duty or take
breaks between their shifts, so as to be able to maintain their utmost performance.
Transformer Room: Since the lower station will house all the power machinery, the
ropeway company can install combination of GODO pole with transformer or can
house the transformer with gang switches in designated transformer room.
First Aid Room: The lower station shall have one small but equipped first aid room for
passengers and the staff, in case of any eventuality.
Diesel Generator Room/Shed: A room housing for a diesel generator would be
provided with a tall stack to conform to the Pollution Control Board norms. Or else,
the generator may be an outdoor type with an acoustic housing.
Upper Terminal
Upper Terminal Station (UTP): Upper Terminal Station will be minimal structural shed
and shall house the necessary tension device and just enough place to accommodate
the boarding and de-boarding platform. The entire station will be enclosed in chain
link fencing for safety, security and passenger management. The equipment
foundation shall be the floor area of the station. No miscellaneous facilities are
envisaged due to the proximity of the temple.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Ticket Booth: A small ticket booth shall be provided, which will serve the dual purpose
of return ticket check as well fresh issue of one way return ticket to those passenger,
who wish to avail ropeway ride only for their return trip.
Guard Room: A Guard room shall be provided for security of the plant during non
working hours and silent hours.
Drinking Water Fountains: As part of essential passenger amenities, drinking water
fountains and water coolers will be provided at Upper Station for passengers. Toilet
block shall not be provided as the temple is located in proximity.
Rescue Gear Storage Lockers: Upper station traditionally houses the rescue gear for
rescuing the passengers from the stranded cabins in event of any eventuality. The
rescuers move with the gravity from top to bottom and therefore the rescue gear,
including the rescue chair is stored at upper station in two large lockers. These lockers
are part of upper station shed and no extra space is needed
Proposed Ropeway System Technology
From the analysis of the terrain on rising hill contour between stations and also the design
system capacities being recommended, i.e. 452 Persons Per Hour (PPH), the following
considerations have been made:
A. Fixed Grip Gondola system is ruled out because of the following reasons:
i. Boarding/de-boarding needs to be carried out when the system is on. This would
lead to serious problems, particularly in the case of elderly persons and children.
ii. Being fixed grip system, the ropeway will run at low speeds. Hence, considering
the length of the ropeway and the recommended capacity, large number of
cabins would need to be installed.
B. Detachable Grip Gondola system is not recommended as the ropeway alignment
and the capacity does not ideally warrant for such a system.
C. Jig Back system is ruled out because of the following reasons:
i. Capacity of the cabin will be high (about 25 passengers) for such a system
considering the length of the ropeway.
ii. Even with the high speed and high cabin capacity the ropeway capacity could be
met, but it might require a bi-cable ropeway and would be expensive.
D. Mono-cable Pulsated System is felt in order because of the following reasons:
i. It will be a fixed grip mono cable system.
ii. Cost will be low as compared to mono cable detachable system.
iii. Boarding/de-boarding from the system can be done at dead stop condition.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
iv. Length & capacity is ideal for Pulsed Gondola system.
v. Cabin / Gondola capacity of 4/6 passengers would serve the purpose.
vi. Introduction of Independent rescue system would allow a Mono-cable ropeway
system to be introduced in this alignment. It would be a less expensive system.
Based on the detailed analysis of relative advantages and disadvantages of different ropeway
systems and bearing in mind the length and the terrain and the hourly capacity, it has been
concluded that a Mono-cable Fixed Grip system would be the most suitable system of
passenger ropeway both from technical as well as economical point of view. This system is
most suitable for increase and decrease of the capacity without disturbing the main system
as only adjustment of speed and number of cabins according to actual requirements can lead
to desired capacity. This kind of system is also known for simplicity of operation and
maintenance.
To meet the terrain, length and capacity requirement a Mono-cable Pulsated Fixed Grip
Ropeway System is appropriate in this Alignment.
System Description: Monocable Fixed Grip Pulsated Gondola System
In a Mono-cable system, only one rope termed as hauling rope is responsible for supporting
the weight of cabins along with passengers as well hauling the cabins. In this system, one
cabin or a group of cabins on either side of the line are attached to the hauling rope and the
cabins do not get detached from the rope at terminal stations. Functioning of the system is
as follows:
While one group of cabins starts moving from one terminal station to other terminal station,
the other group of cabins simultaneously starts from opposite terminal station. Once they
reach the opposite terminal stations, cabins stop and boarding & de-boarding of passengers
take place.
The System proposed has 3 groups of cabin. In each group there are 2 numbers cabin and
Boarding & de-boarding will be at the Drive Station only no boarding & de-boarding at the
end point, cabins will be go around the return sheave and return back to Drive Station. In the
‘Starting Mode’ first group is stationed in the Drive station and another in the end point
(Return Station). Once the ropeway starts operation, the cabins of both stations moving at a
constant speed in opposite direction and cabins will reach to the opposite terminal. The
boarding & de-boarding of cabins takes place and the process is repeated again and again.
We can increase the capacity by adding extra cabins in each group with the existing
arrangement and adjustment of speed without disturbing the main system.
TECHNICAL DATA
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Ropeway Type Single cycle pulse type fixed grip six car
passenger ropeway
Carrier Six (3X2/ The Car Group)
Rated Running Speed Line 4 metres/second
Distance Between Stations 244.1 meters
Elevation Distance 51.03 meters
Average Dip Angle 11.812 deg
Inclined Distance 256.99 meters
Car Spacing 267.77 meters
Departure Time Interval 143.35 Second
One Way Traffic Volume 452 Per/hour
Single run time 2.39 minutes
Acceleration and De-Acceleration Speed 0.35 meter/sec/sec
Length of the Wire Rope 630 meters
Running Direction Counter Clock Wise
Rated Power of Main Motor 90 KW
Auxiliary Operating Speed 0.4 meters/second
Auxiliary Power 15 KW
Wheel Diameter and cable distance 4.50 meters
Cable Specification and models 40ZAA6X31WS-SF 1870 zz
Station Configuration Mountain Station Fixed, valley station drive
and tension (Initial Tension 360kN)
ROPEWAY EQUIPMENT
1. System : Mono-cable Fixed grip
2. Haulage Rope : 36 mm Dia, 6x19 Langs
Lay, PP Core, 1770
Grade
3. Intermediate trestle complete cathead and ladder of
steel construction including station front Hold down/
Pressure frame towers
: Approx 2 Nos. (as
required after final
design shall be
provided)
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
4. Rope supporting trestle mounts comprising of sheaves,
their support beams and pedestals
: 2 sets per trestle.
5. Drive Station complete with required mechanical
equipments and support structures of steelwork
construction
: 1 Set
6. Return Station complete with required mechanical
equipments and support structures of steel work
construction
: 1 Set
7. Ropeway Drive Equipments comprising of Drive Sheave,
Speed Reduction Units, Electric Motor, diesel engine
drive for emergency, Braking Device etc
: 1 Set
8. Hauling rope Tensioning equipment comprising of
Return Sheave, Tension Gear, Trolley, Counter Weight
and Tension Rope etc
: 1 Set
9. Ropeway cabin complete with Grip and Hanger : 6 nos.
10. Wind speed monitor : 1 No.
11. Communication System : 2 sets
12. Passenger Rescue System : 2 set
13. Fire Extinguishers Dry Powder at Stations : 8 Nos.
Specifications & Guidelines
The specifications and guidelines are provided for the various project components (Ropeway
System, associated infrastructure) including, but not limited to the following major provisions:
The Concessionaire shall consider Specifications provided by Bureau of Indian Standards and
other applicable statutory code of practices like Indian Electricity Act, National Building Code,
Municipal Building Bylaws of Uttar Pradesh, etc for design, construction, operation and
applicable maintenance of the project facilities. The Concessionaire shall adhere to the
provisions of any Act for passenger ropeway that is applicable for enacted in future in the
state of Uttar Pradesh. In case of ropeway Cabins and its associated part to be mandatorily
procured imported, suitable international standards with justification may be followed.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
ENVIRONMENT MANAGEMENT PLAN
Land Environment:
Construction phase:
The land of UTP is a Abadi Land and land of LTP is a Forest Land. Total of 0.875 ha (8750
sqm) of forest land needs to be diverted for construction of ropeway. There will be no
removal of the trees. There is no eco sensitive zone within the 10 Km radius of the project
alignment. The diversion of forest land will be required for construction of terminal stations,
and line towers along the corridor.
Operation Phase:
Although no major impact on land is envisaged during the operation phase, proper collection
shall be taken care for no disposal of solid or hazardous waste & wastewater on land.
Air Environment
Construction phase:
During the construction activities for the proposed terminal stations there will be fugitive
emission such as particulate emission etc. on small scale. Water sprinkling shall be done to
mitigate the impacts of dust generation.
The particulate emissions will be minimal and short term in nature. For the construction of
line towers, the generation of the dust will be low as compared to the construction of terminal
stations. Moreover, the dust generated during the construction phase will be considerably
reduced due to localized meteorological conditions.
Operation Phase:
The operation of the proposed ropeway will not involve major air emissions. Ropeway
operation is an environment friendly non-polluting transport system.
DG set of 1 x 50 KVA are proposed for backup power supply located at LTP. These D.G. Sets
will be provided with proper stack height as per the CPCB norms.
As per the specifications from D.G. Set manufacturer, the emissions rates that shall be
maintained are given in Table below:
D. G. Set. Capacity
No. PM gm/kw-hr
NOx gm/kw-hr
SO2
gm/kw-hr CO gm/kw-hr
50 KVA 1 0.3 9.2 1.3 3.5
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
The impact of pollutants such as SO2, NOx and CO mainly released from D.G sets and their
concentration & impact will be very negligible and of short term duration.
The system will be operated mainly on electricity provided by Grid. DG sets will be used as a
stand-by only at the time of power failure.
Noise Environment
Construction Phase:
The noise emission sources during construction phase will include construction machineries/
equipments to be employed at site.
The management measures for noise & vibration control are as follows:
Standard methods and machinery shall be used.
Job rotation and provision of earmuffs to the workers in high noise areas.
Operation Phase:
DG set of capacity 1 X 50 KVA are proposed for backup power supply. Acoustically enclosed
DG Sets will be bought and installed at LTP.
The noise & vibration management measures are discussed below:
Noise free and less air pollution emitting, acoustically enclosed DG Sets, approved by the
CPCB will be bought and installed.
The system will be operated mainly on electricity provided by Grid. DG sets will be used
as a stand-by only at the time of power failure. DG sets shall be installed on proper
vibration pads to avoid vibration impacts.
The noise pollution due to operation of DG set can be controlled by installation of silent
cowling to a value of 65 dB (A).
The normal ropeway operations are always lower than 50 dB (A) of noise level. Proper
maintenance of the ropeway during the operational phase will be done to ensure low or no
noise and environmental impacts.
Water Environment
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Construction Phase:
Approx. 50 Local labors will be preferably employed. During construction Phase, water will
mainly be required for ropeway development, dust suppression & human consumption. It is
estimated that around 5 KLD of water shall be required. The waste water generated shall be
disposed off in septic tank via soak pit.
Operation Phase:
The total water requirement has been estimated as 73 KLD as per detailed below and the
source will be municipal supply/borewell. Water shall be used mainly for flushing, drinking,
hand washing & horticulture purposes. Total quantity of waste water generation has been
estimated to be 66 KLD. The waste water generated will be treated in STP of 80 KLD located
at LTP.
Water MANGAMNET
S.
No.
Population Factor
(lpcd)
Water Requirement
(in KLD)
Waste Water Discharge
(in KLD)
1. Visitors 4520 15 68
2. Staff 30 45 1
Sub Total
69 KLD
Domestic-21 KLD
Hand washing-
17 KLD
Drinking- 4 KLD
Flushing- 48 KLD
65 KLD
Domestic-17 KLD
Hand washing-
17 KLD
Drinking- Nil
Flushing- 48 KLD
3. Gardening
2 KLD nil
4. Miscellaneous
2 KLD 1 KLD
Total 4550
73 KLD 66 KLD
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
WATER BALANCE
SCHEME OF SEWAGE TREATMENT PLANT
The generation of total waste water will be 66 KLD, which will be treated in sewage treatment
plants of 80 KLD capacity based on FAB (Fluidized Aerobic Bio-reactor) Technology.
Total water requirement
(73 KLD)
STP
80 KLD
52 KLD
Reuse
Domestic
21 KLD
Drinking
4 KLDHand washing
17 KLD
Nil Waste water
17 KLD
Flushing
48 KLD
Total waste water
66 KLD
Miscellaneous
2 KLD
Treated water
52 KLD Fresh water
21 KLD
Waste water
48 KLD
Treated water
63 KLD
Gardening
2 KLD
Waste water
1 KLDNil
Excess Treated water
of 11 KLD shall be used for drip Irrigation in surrounding
Green Area
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
DESIGN CRITERIA
TREATMENT PROCESS:
THE PROCESS FOR SEWAGE TREATMENT PLANT IS AS FOLLOWS:
The sewage is first passed through a Bar Screen Chamber & an Oil & Grease Chamber where
any extraneous / floating matter gets trapped.
The sewage is then collected in a Receiving Sump where the variations in flow and
characteristics are dampened, which otherwise can lead to operational problems and
moreover it allows a constant flow rate downstream. Here the sewage is kept in mixed
condition by means of coarse air bubble diffusion.
The equalized sewage is then pumped to the Fluidized Aerobic Bed Reactors (FAB) where
BOD/COD reduction is achieved by virtue of aerobic microbial activities. The FAB reactors run
in series. The oxygen required is supplied through coarse air bubble diffusers.
The excess bio-solids formed in the biological process are separated in the downstream Tube
Settler Tank. The clear supernatant after disinfections is sent to the tertiary polishing section
comprising of a Dual Media Filter and an Activated Carbon Filter, passes through Softener
for reducing the hardness.
The biological sludge generated from the FAB, which is settled in the Tube Settler, is drained
through the Filter Press.
Raw Sewage Characteristics
Flow m3 / day 66 KLD
pH - 7.5 – 8.0
BOD mg / l 200-300
COD mg / l 400-500
TSS mg / l 100
Oil & Grease mg / l 10
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
The Sewage Treatment Plant (STP) can give treated water, which can be reused for Flushing,
Hand washing & other miscellaneous purposes.
Treated Sewage Characteristics
pH - 6.5 – 8.5
BOD mg / l <10
COD mg / l <60
TSS mg / l < 10
Oil & Grease mg / l NIL
Benefits:
1. Small space requirement
The concept of compact sewage treatment plant is promoted so that expensive conventional
treatment is dispensed herewith. The treatment scheme is also versatile, in the sense that
units can be re-arranged in any way in which the space and pile caps are available.
2. Lower operating power requirements
The system utilizes aeration tanks of much smaller size, thereby reducing the overall power
required in aerating the raw sewage. Since the bio-reactor depth is more, efficient transfer of
oxygen takes place, thereby reducing the overall power consumed in treatment.
3. Simplicity in operation and maintenance
The system adopted has much less moving parts (only pumps and blowers). Further there is
no moving part inside the bio-reactor. This gives the advantage of continuously running the
bio-reactor system, under widely fluctuating conditions. All the maintenance on the
mechanical systems can be done with normal skilled mechanics available.
The system is unique in operation, such that, only inlet and outlet parameters (i.e. raw sewage
BOD / COD / TSS /TP and treated sewage BOD / COD / TSS / TP etc.) need to be analysed.
Since the bio-reactor is self sustaining, there is no requirement of recycling the biomass from
the secondary clarifier. Hence, analysis such as MLSS / MLVSS / SVI (sludge volume index) / F
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
/ M ratio etc. is not required to be done. This greatly reduces the analytical load on the plant
chemist / supervisor, and makes the system very simple to operate and control.
The bio-reactor system adopted in the FAB based STP is provided with nutrients removal, and
removal of disease causing E-coli bacteria.
4. Nutrient removal
The bio-reactor system operates at very food to micro-organisms ratio (F / M ratio). This helps
in totally converting the Ammonical nitrogen to nitrate nitrogen. In the process of synthesis
of organic substrate, about 40 – 50% of the total phosphates load is also reduced. The
remaining phosphates can be precipitated by addition of aluminum ions dosed in form of Poly
Aluminum Chloride (PAC). Phosphates react with aluminum ions and precipitate as aluminum
phosphate, which is an insoluble salt. Thus the total phosphates load can be easily reduced
by more than 90%.
5. Coliform removal
The outlet BOD of the bio-reactor system being very low (in other words, hardly any food is
available to the E-coli), most of the coliform are killed in the reactor itself. The treated sewage
outlet coliform count will conform to WHO standards.
6. Sludge handling
The sludge generated in the bio-reactors is totally digested. Since the F / M ratio in the bio-
reactors is very low, the excess sludge generation is lower than compared to the conventional
ASP system. Normally, this sludge is anaerobically digested to stabilize the organic matter.
The present system does not envisage any sludge digestion (since the sludge is aerobically
stabilized in the bioreactors itself), making the system more suitable for operation with less
manpower.
The excess sludge is separated in the secondary clarifier, and then disposed off either on
drying beds, or can be directly used as soil conditioner.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
HYDRAULIC FLOW DIAGRAM OF SEWAGE TREATMENT PLANT
Storm Water Management
Maximum collection of rain water shall be done and the stored water shall be reused
wherever possible.
Garland drains are proposed around the pillars/towers to ensure the proper drainage of the
storm water and to prevent disturbance to the drainage pattern of the area.
Solid Waste Management
Construction Phase: Wastes which are likely to be generated during the construction of
terminals include the following:
Municipal Waste: Site clearance
Construction Waste: Construction materials arising from the construction may include
waste timber work, spent concrete and cement screening and material and equipment
wrappings.
Excavated materials: Excavation during pillar foundations will lead to generation of excess
soil. Top soil will be used for landscaping and left out soil will be used for land filling.
INCOMIN
G
SEWAGEBAR
SCREEN BAFFLE
WALL
OIL &
GREASE EQUALIZATION
TANK
FBR-1 FBR-2 TUBE
SETTLER
CLEAR
WATER
TANK MGF ACF
TREATED
WATER
TANK
TREATED
WATER
USED
UV
FILTER
PRESS
SLUDGE
HOLDING
TANK FINAL
DISPOSAL
TO
EQUALIZATION
TANK
LEGENDS
Mark Descriptions
Air Line
Sludge Line
Effluent line
Air Blowers
Air Diffusers
Butter Fly Valv
Non Return
Valv
Pump
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
During construction, Approx. 50 Local labors will be preferably employed, no labour camp
will be setup at the site. Approx. 8 Kg/day wastes will be generated which will be sent to
solid waste/landfill site.
Operation Phase: During operation phase, solid waste will be generated by ropeway users,
employee, etc. The estimates of the solid waste generated from the proposed project have
been shown in table below:
Type of Waste
Colour of Bin
Category Disposal Method Total Waste (kg/day)
Organic Waste
Green Bio-degradable
The waste will be treated in Organic Waste Convertor
and converted into compost
478
Recyclable Waste
Blue Recyclable Collected and given to approved recycler
205
Total Waste
683 kg/ day
The above table indicates that the total 683 Kg/day of waste will be generated due to the
proposed development.
The waste oil generated from D.G sets will be sent to authorize hazardous waste disposal
authority.
Technology of Organic Waste Convertor Salient Features
Quick waste disposal solution
Easy to operate, fast, takes very less space and makes waste odour free.
APT for Household, Industrial canteen, Restaurants, Temples, Markets, Large housing
complex
Organic Waste Converter uses bio-culture to decompose waste into black manure
It helps maintain hygiene and create cleaner, greener and healthier environment.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Process Description for Organic Waste Converter Machine System
The segregated organic waste is bio-mechanically treated in the Organic Waste
Converter Machine.
Waste is homogenizes with bio-culture and organic media. The coarse wastes are
shredded prior to feeding into OWC machine. Leachate is also controlled during
homogenization process.
The output from Machine is raw compost which is uniform in colour and soil
structured coarse powder, and also free of bad odour.
The Organic Waste Converter operates in batch cycle of about 15-20 minutes The
waste treated in Converter machine accelerates the composting cycle.
The raw compost is placed into compost curing system & moisture is controlled by
using fogging system.
The raw compost is bio-converted matured compost, in about 10-15 days of curing
period.
The matured compost can be utilized for gardening etc.
Process flow chart
ORGANIC WASTE
WASTE TREATMENT
15 MIN
RAW COMPOST
COMPOST CURING SYSTEM
COMPOST (IN 2 WEEKS)
KITCHEN GARDEN/LANDSCAPING
APPLICATION OF COMPOST
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Ecological Environment
The alignment falls within a Forest land for development of terminal stations & line towers.
About 8750 sq m (0.875 ha) of area of forest land will be required to be diverted. This activity
will be carried out as per the guidelines of the Forest (Conservation) Act, 1980. The NOC has
been obtained for the same. There will be no removal of the trees.
Socio Economic Scenario
There will be no displacement or immigration of the human population due to the proposed
project.
Elderly, children and disabled people, who have to climb the arduous steps, will be able to
take safe and convenient travel to the holy place.
Provide direct and indirect employment opportunities to the local people.
Enhance visitor experience and boost tourism in the region.
SAFETY AND RESCUE PLAN
Maintenance Schedule:
Detailed operation and maintenance instruction manuals covering all aspects of maintenance
of the Ropeway System would form an integral part of system documentation.
The essential aspects of maintenance are, however, briefly listed below:
cabins, hangers and grips etc shall be done.
Periodic lubrication at the Stations shall be done.
Routine lubrication at the Stations.
Regular cleaning at stations to ensure a clean and dust-free atmosphere.
Periodic Inspection, checking and replacement of hauling rope especially the
spliced zones.
Inspection, checking, lubrication and replacement if and when required of line
components such as line sheaves.
Tightening of all station tower bolts periodically.
Checking of prime mover such as motors, gearbox, couplings etc.
Regular checking of service and emergency brakes.
Regular checking of DG set and Diesel Engine.
Mock trial of rescue system at periodic intervals.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Adequate maintenance spares will be stocked for smooth operation.
Special tools & tackles will kept in the workshop.
Safety Plan
The proposed ropeway is short and maximum degree of elevation is less than 30 degrees.
Safe profiling of the system will result in cabins at less than 20 meters from the ground profile.
The ropeway technology is fixed grip and hence the issue of grip slipping does not arise. The
grips of the ropeway shall be shifted once in three months to a new location to allow the rope
to breathe and revert into its original condition. The health and condition monitoring of the
rope and Ultra Testing of all load bearing components will be carried out annually. The drive
and return terminal rotating components will undergo vibration testing and recording for
generation of failure trend.
The ropeway, therefore, is unlikely to meet with any incident or accident, if maintained
properly as per the manufacturer recommendation.
Some of short term failure and their mitigation are as enumerated below:
Power Failure: In the event of main electrical power failure and cabins with passenger on
rope line, the ropeway will restore motion by starting and taking on load the full capacity
Diesel Generator. The ropeway can and will continue commercial operation on Diesel
Generator.
Main Gear Box Failure: In the event of main gear box failure or allied power transmission
system, the emergency drive (Diesel engine or Hydraulic Motor or Electrical Motor) can be
coupled with main girth gear which is hard coupled to main drive sheave. These prime movers
are aimed at operating the ropeway at speeds less than 1m/s and bring back the stranded
passengers in the cabin back to nearest terminal station. These auxiliary drives are not
intended for continuation of commercial operation.
Before making it for public use the ropeway project shall be thoroughly inspected to ensure
the ropeway project is safe for public use. After getting clearance certificate, the commercial
operation of the ropeway would be able to commence.
Safety Measures
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
Strict adherence of ropeway manufacturers’ maintenance routine shall be complied
with. The routine undertaken shall be recorded in maintenance register with
description of routine and the person undertaking routine shall be indicated clearly.
The ropeway shall logically undertake two shut down routines during lean season. One
shut down for about 3-5 days will be taken as Half Yearly Shut Down. 7-10 days of shut
down will be taken once in year as Annual Maintenance Shut Down. The shutdown
schedule shall be intimated to district administration as well displayed at prominent
location of ropeway premises for the visitors.
The ropeway operator will undertake rope testing through magnetograph to ascertain
thickness of the rope and broken wires. IS standard is to be followed in determining
residual life of rope and decision to replace the rope. The rope shall be immediately
changed and no commercial operation shall be permitted, if the strands have
collapsed and touching each other; also known as “dead rope”.
All load bearing pins and shaft and critical components as grips and hangers shall be
tested using Ultra Testing and record of such testing should be retained. All rotary
components and bearing housing shall be tested for vibration analysis. On the basis of
signature forecast, preventive replacement and maintenance shall be undertaken.
The Gondolas shall be provided with door lock, which cannot be opened by the
passengers
All elements of the ropeway shall be mounted onto a steel structure which is anchored
on concrete foundations.
Emergency push buttons should be provided at all stations to stop the ropeway, if
required.
Rescue Arrangement:
1. The Ropeway system would be provided with a rescue arrangement to enable the
passengers being evacuated in case of an extreme emergency where cabins are stranded
on line.
2. Ladder Rescue shall be adopted for cabins which are stranded close to the ground. An
attendant stabilizes the ladder from below while another attendant goes up to open the
door and help the passengers to come down.
3. Vertical Rescue System shall be provided involving small winch and the carrier unit which
will enable a rescuer to reach the stranded cabins and lower the passengers to the ground.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
4. The Emergency Drive with diesel engine enables the passengers to be evacuated in the
event of the power failure.
PROJECT SCHEDULE & COST ESTIMATES
The estimated project cost is of Rs. 874.62 lakhs.
The scheduled completion date shall occur after 2 years from the appointed date. On or
before the scheduled Completion date, the concessionaire shall have completed the
construction of the entire project.
COST ON EMP
CAPITAL EXPENDITURE
Sl No
Description Capital Cost ( Rs. In Lacs)
1 Landscaping 2.5
2 STP / Waste water treatment 30.0
3 D.G. set Stack & Enclosure 0.5
4 Solid Waste Management/ OWC 25.0
Total Rs. 58.0 Lacs
PROJECT BENEFITS
I. Aerial Ropeway is fast emerging technology of providing not only tourist experience
but an urban transportation means especially for hilly and tough terrains. It is totally
environment friendly with least generation of any type of pollutants. The land
requirement is minimal as the transportation happens aerially.
II. Safety & Comfort: Ropeways provide more safe and comfortable journey. Elderly,
children and disabled persons which may not be able to take-up the arduous trek, would
be able to take up the journey to Lakshman Temple.
III. Traffic Regulation: The ropeway would help in regulating traffic to Lakshman Pahari
as only a specified number of tourists can board and de-board the system at a pre-
defined interval of time. This would help in restricting and regulating carrying capacity
of the place.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
IV. Socio-Economic benefits: The increase in tourism of the area would subsequently
increase the ancillary businesses, thereby increasing the local economy of the area and
of the Chitrakoot District.
V. Local Employment: The project would require local people, who are accustomed of
living under the existing conditions, for skilled / unskilled activities in course of
construction and operations of the project. The project will provide direct and indirect
employment opportunities to the local people & hence improving their status of living.
VI. Infrastructure development or facilities like toilets, drinking water, sewage treatment,
solid waste management, medical facilities, etc. will be helpful in maintaining the
beauty as well as ecology of such alluring place. And, the medical facilities will help
the casualties caused to be addressed on time & in proper way.
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
ENCLOSURE-II- LAYOUT
Lakshman Pahari Ropeway at Chitrakoot, U.P.
M/s Perfact Enviro Solutions Pvt. Ltd.
ENCLOSURE-III- LAND PAPERS
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