The role of GIS in Asset Management for Rail cables. Examples of the use of GIS within the entire Asset lifecycle.

1. GIS for effective cable design
3rd International GIS Rail Summit
Paris
June 13th 2012
Maarten Zanen
Imagine the result

2. • Engineering & Consultancy
• Infrastructure, water, environment and
buildings
• > 20.000 employees
• Global network, local offices
Dia 2

3. Dutch
rail
network
– lots of
cables
Dia 3 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

4. Signalling
Dutch
rail Traction
network 1 km
Power
– lots of Supply
Telecom
cables
• 1 km  120 km cables:
• 70 km Signalling
• 15 km Telecom
• 8 km Power supply
Dia 4 GIS for effective cable design – M.Zanen • 27 km unused
3rd Int. Rail GIS Conference © ARCADIS

5. Dutch rail
cables -
a huge
complex
subsoil
network • > 120.000 km subsoil rail-cables in the
Netherlands only
• How do we manage them?
Dia 5 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

6. BIM - lifecycle
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 6 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

7. Planning
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 7 7 GIS for effective cable design – M.Zanen
Dia
3rd Int. Rail GIS Conference © ARCADIS

8. 10kV Hanzelijn
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 8 8 GIS for effective cable design – M.Zanen
Dia
3rd Int. Rail GIS Conference © ARCADIS

9. Overview
planning
Powerstations
(VS), substations (OS)
and 10kV-cables
Design &
realisation
operation &
maintenance
dismantling
Dia 99 GIS for effective cable design – M.Zanen
Dia
3rd Int. Rail GIS Conference © ARCADIS

10. Which one is a 10 kV-cable?
J

11. OS3, Dronten – Which route is preferable?
Dia 11

12. Objective
planning
Main objective:
• Minimize the length of the cable-route.
Design &
realisation Other objectives
• As much as possible along the railway track.
• Minimize using private property
• Minimize the number of drillings.
operation &
maintenance
• Avoid trees as much as possible.
• Avoid populated areas
dismantling
Dia 12 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

13. GBKN
Deskstudy
Soil pollution
Parcel information
KLIC – Cable Information Center
Dia 13 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

14. Deskstudy
Length: 9370 m
(3600 m along the railway track)
Drillings: 7
Length: 5815 m
(1000 m along the railway track)
Drillings: 15
Dia 14 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

15. Design & realisation
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 15 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

16. Datamodel cables
planning
Relaisbox
Design &
realisation
objects
operation &
trenches
maintenance
Connections
(cable)
dismantling
Signal)
Dia 16

17. Current planning design
information BBKS – Cable Situation drawing (.dgn)
resources
rail cables GIL – Cable information list (.xls)
maintenance realisation
Dia 17 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

18. Track
TI
stations en Objecten
Civil
transferia
Kunstwerk locatie
Fundatie KW (waar gaan we de grond
in?): locatie
Informatie
Digitale informatie:
Naam informatie drager (Formaat):
Objecten Objecten: Bijv. OBK (Auto cad)
Objecten te verbinden objecten ATM Baanlichaam (no-go):
(kast …) afmetingen, locatie
Elektrotechnische installatie station Sloot (no go): locatie
Tunneltechnische installatie Drainage: locatie
(welke objecten?) Grondkerende constructie
EBP taludtrap Objecten:
CTA (informatie borden) Welke kabelvoorzieningen moeten er in het
kunstwerk opgenomen worden?
Luidsprekers Digitale info:
Information
Camera’s
Beveiliging Informatie:
Telefoon
CAB Digitale informatie:
Naam informatie drager (Formaat):
OS/SS/RH Bijv. OBK (Auto cad)
Centrale verdeler
No-Go zones:
Perron layout met liften, roltrappen
etc
Informatie Objecten:
Others
Leidingen van derden
Digitale informatie:
Naam informatie drager (Formaat): Informatie:
Xx (xx)
flows
Digitale informatie:
Naam informatie drager (Formaat):
Bijv. OBK (Auto cad)
Objecten
Geluidschermfundaties (waar gaat het
de grond in). En locatie.
Noise Afschermende voorzieningen.
Hekwerken, haag (onder wie valt
Objecten:
dat?)
Cable Locatie Wisselverwarming huidige
situatie
barriers Digitale informatie:
Locatie nieuwe objecten
Point
Naam informatie drager (Formaat):
Bijv. OBK (Auto cad) design Informatie:
Digitale informatie:
Naam informatie drager (Formaat):
heating
Bijv. OBK (Auto cad)
Lengte van de kabels
Objecten
(check of de Perron locatie
Perron soort (jukken of zand)
stuurafstanden niet Spoorlayout
overschreden worden. Locatie wissels (beweegbare delen)
Beveiliging vraagt niet Informatie Track
om die check (wordt Digitale informatie:
niet vastgelegd). Digitaal: sporenlayout 1:1000
Naam informatie drager (Formaat):
Objecten Sporen layout 1:1000 (autocad)
Kirsten : locatie(km), positie tov
spoor/ kant spoor
Objecten ter verbinden:
(seinen, lassen, wubo’s, drukkn
opkasten, wisselstellers, paalins Objecten:
tallatie overweg HS kast
OS, SS
(overwegsteller ,overweg Voeding WAK
boom): locatie objecten, naam/ Voeding BVL schakelaar en Objecten
Positite van de bovenleidingfundatie
type object, positie tov spoor/ motorkast?
tbv van de NoGo zones
kant van het spoor Informatie: BVL schakelaar en motorkast
Signalling Verbindingen
Type kabel
Specs kabel
…
Informatie
Catenary
Maximale stuurafstand (?) Digitale informatie:
system Kast-Kast verbindingen (welke
verbindingen)
Digitale informatie:
Naam informatie drager (Formaat):
Naam informatie drager (Formaat):
Loop der bovenleiding
No go zones inporteerbaar in BBKS
Bijv. OBK (Auto cad)
Kast-object verbindingen dus op coordinaten.
Type kabel/ spec kabel
Label kabel
Digitale informatie:
Naam informatie drager
(Formaat):
Bijv. OBK (Auto cad)
Legend Traction
Power
Information output Supply
Dia 18 GIS for effective cable design – M.Zanen Information input
3rd Int. Rail GIS Conference © ARCADIS

19. Traditional
design
process
Dia 19 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

20. Objects are connected through cables
Datamodel
Connections
cables Objects
Relationship
(cables)
should always be
secured
Trenches
Dia 20 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

21. Design optimisation
planning
Traditional design
Optimisation cable
Design &
realisation
design process
operation &
maintenance
Add Use GIS to Connect Validate Routeplanner
temporary detect KS and GIL both objects for cables
tubes clashes through GIS and cables
dismantling
Dia 21 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

22. Temporary trenches are
added to network
Developments
Temporary trench
Existing situation
Dia 22 Rail K&L Sporen in Den Bosch | 16 april
2012 | © ARCADIS 2012

23. Adding all design
information into : GIS
- Cable situation
- Objects
Developments - Noise barriers
- Catenary
- Reference
Dia 23 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

24. GIL-Finder: determine
the routing of (revisie)
Project: Hanzelijn
cables?
Developments
Dia 24 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

25. Operations and
planning
maintenance
Design &
realisation
operation &
maintenance
dismantling
Dia 25 GIS for effective cable design – M.Zanen
Dia 25
3rd Int. Rail GIS Conference © ARCADIS

26. Cable break
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 26 GIS for effective cable design – M.Zanen
Dia 26
3rd Int. Rail GIS Conference © ARCADIS

27. Trains passing substation
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 27 GIS for effective cable design – M.Zanen
3rd Int. Rail GIS Conference © ARCADIS

28. Copper theft
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 28 GIS for effective cable design – M.Zanen
Dia 28
3rd Int. Rail GIS Conference © ARCADIS

29. Dismantling
planning
Design &
realisation
operation &
maintenance
dismantling
Dia 29
Dia 29

30. Dismantling cables
planning • Removal of old copper cables along roads
• Every cable is potential obstacle
• High copper value trees
• From 2017 on taxation of cables in state
pavement
Design &
owned property shoulder
realisation
operation &
maintenance
dismantling
Dia 30

31. GIS for effective cable
planning
design - resume
• Cables connect all kind of disciplines
Design &
• Rail cables provide a huge subsoil network –
realisation
how are they managed?
• GIS provides very effective tooling
throughout the entire lifecycle of (rail) cables
operation &
maintenance
• GIS helps to visualize subsoil cables
• Cable design should take a central position
dismantling
within BIM for the Rail-sector
Dia 31 GIS for effective cable design – M.Zanen
Dia 31
3rd Int. Rail GIS Conference © ARCADIS

32. Imagine the result
Dia 32 | 13 June 2012 | © ARCADIS 2012