Finmeccanica is an Italian manufacturer specializing in high technology sectors. Ansaldo STS is a subsidiary of Finmeccanica that provides railway signaling systems and mass transit solutions worldwide. The document discusses Ansaldo STS's projects developing driverless metro systems and catenary-free tramway solutions, highlighting case studies in Copenhagen, Riyadh, and Naples. It also outlines Ansaldo STS's global presence and financial details as an internationally operating railway technology company.
1. About us: Finmeccanica
Innovation in Railway and Application in
the GCC.
Abu Dhabi October 2013
Finmeccanica is Italy’s leading manufacturer in the high technology sector.
Issam Chehimi
Finmeccanica is the largest shareholder in Ansaldo STS with a 40% stake.
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2. About us: Ansaldo STS
Ansaldo STS is a leading technology company operating in the global
Railway & Mass Transit industries, providing signaling systems and
complete turnkey solutions worldwide.
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4. About us: Ansaldo STS
Listed on Milan Stock Exchange (STAR Sector) - 2012
STS.MI
Revenues
€ 1,248 Mln
Orders
€ 1,492 Mln
Backlog
€ 5,683 Mln
EBIT
€ 117 Mln
NFP
€ (302) Mln
Employees
~ 4,100
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5. Business Lines
Ansaldo STS delivers a full range of Railway and Mass
TransitTransportation Solutions and Signalling Systems, such as…
High Speed
Tramwave
(catenary free)
Sub-urban
Main Lines
Driveless UTO
Metro
Tramway
Conventional
Metro
Light Rail
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6. Last decades Main Innovations in
Railway
Over the last 3 decades the main worldwide innovations
were :
• GoA 4 Driverless Metro,
• Catenary less Tramway System,
• Interoperable Signalling System.
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7. More than 140 USD Bn. To be invested in the GCC Railways
Projects,
Most advanced and innovative solutions are required :
• Fully automated driverless Metro for a fast growing cities (Riyadh,
Jeddah, Dubai, Doha, Abu Dhabi...)
• Centenary less Tramway solution for Iconic cities (Dubai,
Lusail,...)
• Interoperable Cross Border Main lines (GCC line)
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9. Ansaldo STS Driverless Solutions :
Copenhagen Show case
Copenhagen Metro
Winner:
European Metro of the Year
Winner:
World Metro of the Year
Winner:
Driverless Metro of the Year
Ansaldo STS
Turnkey E&M Contractor,
Operator, Maintainer
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10. Copenhagen M1/M2 Driverless Metro
Features
Passenger service around the clock
Line length phase 1-3
21.5 km
Min Headway (Day)
90 sec
Min Headway (Night)
15 min
Train capacity (4 p/m2)
300 pass
Line capacity (4
p/m2)
May 2003
December 2003
12,000 pphpd
Passengers/year phase 1-3
61 millions
Fleet
34 – 3 cars trains of
39m
Commercial speed
39 km/h
Max speed
80 km/h
Third rail power supply
750Vdc
In passenger service and operated by AnsaldoSTS
since 2002
•Phase 1 + 2
Lenght: 17,5 Km
Stops: 17
(9 underground, 8 ground level)
• Phase 3
Lenght: 4 Km
Stops: 5
(all ground level)
October 2007
October 2002
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13. Copenhagen, a successful case:
Supplier, Operator and Maintainer
Supply
–
–
–
–
System Design/Integration
Technological systems
Equipment
Rolling Stock
Operation & Maintenance
–
–
–
–
–
Mobilization
Staff
Operation
Rules and procedures
Maintenance
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14. Performance Parameters
System Service Availability (Copenhagen M1/M2)
2011 Service
Availability
year average:
98,8%
98,0%
Service Availability Formula: (1 – (missed departures / planned departures))*100
Contractual Target
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15. From Integrator to Full System Approach
Signalling
Power
Supply
Telecom
…
Integrator: The transportation system is conceived
Rolling
Stock
just assembling a certain number of technologies. It has
low performances and it’s not suitable for high technology
and complex applications
System Approach: since the beginning of design
Civil
Works
Signalling
Power
Supply
Telecom
…
phase, the Transportation System is conceived as a whole
and each technology gain benefits. The overall system
performances are higher then achievable through a simple
integration
Rolling
Stock
System/Safety Approach:
Civil
Works
Signalling
Power
Supply
Telecom
…
As AnsaldoSTS is also a leading company in the Signalling
business, the System Approach adopted by AnsaldoSTS is
more reliable, safe and with higher performance than a
generic System Approach
Rolling
Stock
Extended System Approach:
Civil
Works
Signalling
Power
Supply
Telecom
…
Rolling
Stock
O&M
The successful O&M experience achieved by AnsaldoSTS
during Copenhagen Driverless Unattended metro project,
delivered in 2002 and operated since then, gives the
opportunity to Extend the system approach, taking into
account the specific O&M needs and criticalities since
the beginning of the concept and design phase
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16. From Integrator to Full System Approach
Civil
Works
Signalling
Power
Supply
Telecom
…
Rolling
Stock
External Constraints*
*
• Viability/environmental impact
• Pollution/CO2 reduction
• Eco-sustainability
• Energy saving requirements
• Extreme climatic conditions
• Particular security requirements
• Urban development needs
• Passenger/Operators needs not
strictly related to system
performances
• Video-analytics
• Alarm management
• And much more…
O&M
Full System Approach: in order to
effectively answer to all the transportation
solutions market needs, AnsaldoSTS improved its
System conception from the Extended to the Full
System Approach, taking into account all the
possible transportation system’s External
Constraints during all the project’s phases (from
design to O&M)
With this new vision the transportation systems are not just
the solutions to the traffic congestion but are a living part of
the city answering to the passenger and operators needs of
today and tomorrow
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17. Copenhagen M3/M4 City Ringen
Driverless Metro
Features
Line length
17 km
Min Headway
100 sec
Stations
17
Train capacity (4p/m2)
300 pass
Line capacity
11,000 pphpd
Fleet
28 trains of 39m
Max speed
90 km/h
Third rail power supply
750 Vdc
Stopping accuracy
+/- 30cm
Operational service
24/7
Technologies
CBTC Driverless
Operation 2018
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18. Honolulu Rail Transit Project
Driverless Metro
Features
The project is an elevated metro line
Line length
32 km
Min Headway
90 sec
Stations
21
Train capacity (3,2p/m2)
318 p
Required initial line capacity
7.200 pphpd
Fleet
40 2-car trains of 39 m
Max speed
105 km/h
Third rail power supply
750 Vdc
Stopping accuracy
+/- 15cm
Operational service
20h/day, 7 day/week
Operation 2017 (first segment)
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19. Application in the GCC
Riyadh PNU Driverless Metro
Features
Line length
11.3 km
Min Headway
90 sec
Stations
14
Train capacity (2.5 p/m2)
110 pass
Line capacity (2.5 p/m2)
4,400 pphpd
Fleet
22 - 2 cars trains of
29m
Commercial speed
24 km/h
Max speed
60 km/h
Third rail power supply
750 Vdc
In operation since 2012
11.3
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20. Ansaldo STS Driverless Unattended Metros
in the world
Copenhage
n M1/M2
Brescia
Thessaloni
ki
Rome
line C
Milan line
5
Taipei
(CBTC)
Riyadh
PNU
Copenhage
n
Cityringen
(CBTC)
Honolulu
Milan Line
4
(CBTC)
Riyadh
21 km
double track
double
tunnel
13.7 km
double
track
single
tunnel
9.5 km
double track
double
tunnel
25 km
(+17)
double
track
double
tunnel
12.6 km
double
track
single
tunnel
15.4 km
double
track
viaduct
11.3 km
double
track
viaduct
17 km
double track
double
tunnel
32 km
double
track
viaduct
15.2 km
double
track
double
tunnel
40.7 Km
double
track
22 stations
17 stations
13 stations
30
stations
(+12)
19
stations
14
stations
14
stations
17 stations
21
stations
21 stations
22 stations
min
headway
90 s
min
headway
90 s
min
headway
90 s
min
headway
120 s
min
headway
75 s
min
headway
90 s
min
headway
90 s
min
headway
100 s
min
headway
90 s
min
headway
75 s
min
headway
90s
12,000
pphpd
(4p/m2)
17,000
pphpd
(6p/m2)
21,000
pphpd
(6p/m2)
36,000
pphpd
(6p/m2)
28,000
pphpd
(6p/m2)
26,000
pphpd
(6p/m2)
4,400
pphpd
(2.5p/m2)
12,000
pphpd
(4 p/m2)
7,200
pphpd
(3.2 p/m2)
28,000
pphpd
(6p/m2)
5000 pphd
34 trains
3 cars per
train (39m)
21 trains
3 cars per
train (39m)
18 trains
4 cars per
train (50m)
30 (+13)
trains 6
cars per
train
(108m)
21 trains,
4 cars per
train
(50m)
17 trains
4 cars per
train
(70m)
22 trains
2 cars per
train
(29m)
28 trains
3 cars per
train (39m)
40 trains 2
cars per
train
(38.5m)
47 trains
4 cars per
train (50m)
13 + 3 years
O&M
In operation
since 2002
2 years of
operation
7 years of
maintenan
ce
3 years of
service
assistance
Local
existing
Operator
training
27 years
O&M as
member
of the
Concess.
Future
system
extension
:
52 km,
56
stations,
64 trains
3 years
O&M
5 + 3 years
O&M
12 years
O&M
25 years
O&M as
member of
the
Concess.
47 trains
10 years of
maintenace
Ansaldo STS has been developing more than 210km of Unattended Metros all over the world
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26. TramWave ground-level line module
Steel plate
Module
Negative feeder
Safety Negative
feeder
Internal contact connected
to the Positive feeder
Internal contact connected to
Safety Negative feeder
Positive Feeder
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27. Operating Principle
Power Collector
When the bogie pantograph is retracted in rest position:
The power collector in the upper position is unable to activate
the power line segments; the pulling force is not enough to lift
up the belt
The vehicle can run over the line in coasting without activating
the segments
All the segments are not energized and connected to ground
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28. Operating Principle
Power Collector
When the bogie pantograph is released:
The power collector is in contact with the segments and its
magnetic force attracts the flexible ferromagnetic belt, that push
up the internal movable conductive contacts, allowing the
closing of the electric circuit and so the power transmission
from the segments, in contact with the collector, and the vehicle
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29. Operating Principle
Groud-level module’s steel contact plate
Veichle body
Train boogie
power collector
The steel plates in contact with the
power collector are the only one
energized
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33. TramWave: main benefits for sustainable
urban mobility
• Make the urban context more liveable, removing the visual impact of overhead
catenaries and poles from squares, buildings, monuments, historical areas, etc…
• Continuous power transmission from contact line to vehicles without any
interruption/charging times (for both traction and auxiliaries)
• No need of on-board big and heavy storage energy systems (supercapacitors)
• No need of electronic devices
• The closing of the traction electric circuit doesn’t foreseen the use of the tracks
no
more problem due to the effects of stray currents, preserving the underground utilities
(water and gas pipelines, electricity network underground cables, etc…) and the rails
less maintenance costs.
from electrolysis effects
• Possibility to have a mixed power-supply system, by mean having Tramwave and
traditional catenaries on the same tramway line (ex. Tramwave in the historical centres
and catenaries in the suburbs), moreover it’s possible to feed with Tramwave rubber
tired vehicles like busses
• Regenerative Breaking and energy saving
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37. AnsaldoSTS is a leader in ERTMS Level 2 and has provided more
than 50% of the Signalling Technology for all High Speed lines*
worldwide.
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* Reference excludes Japan
38. Global ERTMS
& High Speed applications
France
High Speed network
LGV EST - lev. 2
Tournan-Marles en Brie - lev. 1-2
On-board - lev. 1/2
On-board - lev. 2
Cross border
Figueres-Perpignan - lev. 1/2
Paris-Brussels-CologneAmsterdam
Channel Tunnel Rail Link
Sweden / Finland / Norway
Haparandabanan - lev. 2
STM Nordic
Germany
Saarbrücken-Mannheim - lev. 2
Berlin-Rostock - lev.2
Velaro on-board - lev.2
Spain
Madrid-Lleida HSL - lev. 1/2
Madrid-Atocha HSL by-pass
On-board - lev. 1-2
Czech Republic
Poříčany-Kolín - lev. 2
Austria - Hungary
Vienna-Budapest - lev. 1
Turkey
Bogazkopru-Yenice
Mersin-Toprakkale - lev. 1
On-board - lev 1
South Korea
On-board - lev. 1
Seoul-Busan HSL
Italy
Rome-Naples HSL - lev. 2
Turin-Milan HSL - lev. 2
Milan-Bologna HSL - lev. 2
SCMT projects
On-board - lev. 1
On-board - lev. 2
Greece
On-board - lev. 1
Romania
Campina - Predeal - lev. 1
China
Zhengzhuang-Xi’an - lev. 2
Shijiazhuang-Taiyuan - lev. 1
Qinhuangdao-Shenyang DPL
On-board - lev. 1-2
UK
Cambrian Coast - lev. 2
High Speed One
Libya
Ras Ajdir - Sirt - lev. 1/2
Al-Hisha - Sabha - lev. 2
India
Chennai-Gummudipundi - lev.1
Delhi-Agra - lev. 1
UAE
Shah Habshan Ruwais - lev. 2
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39. Apllication in the GCC
• SHR – Etihad Rail Stage ERTMS Level2
Stage 3
Stage 2
Stage 1
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40. Global Ansaldo STS system architecture (1)
• Project
Legth: 264 km (140 km double track; 124 km single track)
RBC: 1 Balises: 400 Point Machine: 65 Axle Counter: 150
• Signalling:
– Interlocking
• Multistation ACC Technology
• 2 extended CBIs
– ETCS Level 2 signalling system
• 1 Radio Block Centre (RBC)
• SRS 2.3.0 compliant with option to update to SRS 3.0
• Telecomms:
Multi Service Network,GSM-R,PAVA, Telephony,Master Clock
• Non Vital : Traffic Management System, Train Describer, SCADA,
MMIS, BMIS, ACCES Control, Freight Asset Protection
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