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transcript
Application of Value Engineering –The Crosstown Project
Presented To: CSVA Conference, Toronto
Presented by: Rick Thompson, Chief Project Manager – SRT/Yards
November 15, 2011
1. Eglinton Scarborough Crosstown Overview
2. Value Engineering for the Crosstown Project
3. Examples of VE Workshops
(i) SRT Conversion(ii) Station Box Length(iii) Tunnel Design
4. Questions
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Agenda2
Agenda
1. Eglinton Scarborough Crosstown Overview
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Agenda
Application of VE - The Crosstown ProjectAgenda
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Eglinton-Scarborough Crosstown
Application of Value Engineering 1 - The Crosstown Project
11/15/2011
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Eglinton Corridor
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1 - The Crosstown Project
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SRT
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1 - The Crosstown Project
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Maintenance and Storage Facilities (MSFs)
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Eglinton-Scarborough Crosstown
• Funded by the Province through Metrolinx - $8.4 Billion
• TTC responsible for delivery of the project, on behalf of Metrolinx
• Support future growth across the City
• Provide connections to the TTC subway and GO Transit
• Implement PRESTO transit fare card
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1 - The Crosstown Project
Eglinton-Scarborough Crosstown
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Key facts:
• 25 km east-west corridor between Scarborough Centre and Jane Street / Black Creek
• 19 km underground tunnel (Jane/Black Creek to Kennedy)
• 6km through-running service along upgraded SRT to Scarborough Centre
• Up to 26 stations
• 3 interchanges with subway
• Two Maintenance and Storage Facilities (MSF)
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Light Rail Vehicles
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Light Rail Vehicles
Bombardier Awarded Contract in June 2010
New LRV features:
• Low floor and accessible
• Audio and visual passenger information
• Enhanced noise and vibration mitigation• 31m long• Will operate in 3 car consist
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1 - The Crosstown Project
Potential Interior Layout
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• Deliver quality product
• Deliver accessible product
• Minimize property and construction impacts
• Minimize disruption to extensive utilities around stations
• Accommodate local traffic during construction
Goals
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• SRT – Kennedy to McCowan – 2019
• Eglinton – Keele to Kennedy – target 2020
Project Implementation
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– Nov. 2011 – Tunnels – Keele to Laird – 90% – Dec. 2011 – SRT Conversion – 30% – Dec. 2011 – SRT Kennedy Station – 10% – Early 2012 – Stations – Keele to Chaplin – 10%
Project Status - Design
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• Jul. 2011 – West Launch Shaft @ Black Creek
• Summer 2012 – Tunnelling starts (west to east)
• 2014 – Eglinton Stations Start
• 2013/2014 – Advanced SRT construction
• Sep. 2015 – SRT shut down
• Sep. 2015 - – McCowan Maintenance & Storage Facility.
Project Status - Construction
11/15/2011 Application of Value Engineering 1 - The Crosstown Project
11/18/2011Application of VE - The Crosstown Project
Agenda17
Agenda
1. Eglinton Scarborough Crosstown Overview
2. Value Engineering for the Crosstown Project
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Best value at lowest cost.
VE Objective
Application of VE2-Value Engineering for the Crosstown Project
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In achieving best value at lowest cost, must:• Provide safe operation
• Adhere to design requirements
• Provide low life-cycle cost
• Provide high performance- reliability- availability- maintainability
• Be functional and aesthetically pleasing for customers.
VE Objective
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Value Engineering
– Traditionally perceived as a means to reduce costs. – Can also be applied to improve performance.– Measures to determine performance are specific to
each VE
What is Value?
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Creative
How Achieve Objectives?
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The Box☺
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Pre-Judge
Defensive
Creative
“No” “No”
How Achieve Objectives?
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☺ ☺
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How Achieve Objectives?
• Instil VE as a culture
• Promote creativity and an open-minded approach
• Optimize designs to deliver maximum value at the lowest achievable life-cycle cost
• Perform VE early to achieve greatest benefit
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VE Benefits
• Encourages design creativity
• Builds confidence within project teams
• Provides a mechanism to deliver optimum value and quality service
• Provides confidence to funding partners.
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3 Types of VE
• Mainstream
• Formal
• Construction
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3 Types of VE - Continued
Mainstream VE:
• Every day decisions throughout the design process
• Good engineering practice
• Request design variances
• Innovative design
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3 Types of VE - ContinuedFormal VE:• 3 VE Consultants retained
• VE Consultant retains appropriate specialists
• Perform at or before 30% design• 10% - evaluate options• 30% - evaluate selected options
• Constructibility
• To be used for:• Stations• Tunnels• Maintenance Facilities
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Formal VE Process – 5 Day Workshop
• Day 1 - Presentation by project team and site visit
• Days 2-4 - VE Consultant reviews project documentation and generates analysis of options. VE Consultant may contact project team for additional information.
• Day 5 - VE Consultant delivers presentation of VE recommendations.
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Formal VE Process Initial Evaluation
• VE Consultant provides draft report
• Project team reviews.
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Formal VE ProcessFinal Evaluation
• Project team develops position on each recommendation
• Project team modifies designs accordingly
• VE Register is updated with selected options.
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VE Register
• Active list of selected VE recommendations
• Important tool to convey message to other teams
• VE updates issued regularly
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3 Types of VE - Continued
Construction VE:
• Contracts encourage contractors to submit alternatives
• Internal evaluation
• Cost benefits shared with contractor
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11/15/11 Application of VE - The Crosstown Project3(i)– SRT Conversion
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Agenda
1. Eglinton Scarborough Crosstown Overview
2. Value Engineering for the Crosstown Project
3. Examples of VE Workshops
(i) SRT Conversion
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SRT Conversion
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Elevated Section• Midland Station• Scarborough CC Stn• McCowan Station
Tunnel Section
At-Grade Section• Lawrence Station• Ellesmere Station
Kennedy Station
SRT Conversion
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SRT Conversion- New LRT Vehicle
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Mark 1 Flexity
• Heavier (Axle load 12 vs 6 tonnes)• Low floor• Catenary traction power• Longer consist (93m vs 51m)
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SRT Conversion - Scope
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• Design was at approximately 10% • Improve design by focusing on high cost items
and improving project performance
• Assist in selection of design options
VE Workshop – SRT Conversion
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Establish Performance Attributes:
Transit OperationsUser AccessibilityMaintainability Construction ImpactsEnvironmental ImpactsProject ScheduleRisk
VE Workshop – SRT Conversion
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VE Workshop – SRT Conversion Performance Attribute Weighting
PERFORMANCE ATTRIBUTE MATRIXWhich attribute is more important to the project? TOTAL %
Transit Operations A A/B A A A A/F A 6.0 21.4%
User Accessibility B B B B B/F B 6.0 21.4%
Maintainability C C C C/F C 4.5 16.1%
Construction Impacts D E F D 2.0 7.1%
Environmental Impacts E F E 3.0 10.7%
Project Schedule F F 5.5 19.6%
Risks G 1.0 3.6%
28.0 100%
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Modify Roof Over Track
Proposed At-GradeStation Modification
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N
Extend Platform
Lower Platform
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Validation - The Base Case design has the highest Value
OVERALL PERFORMANCE Performance (P)
% ChangePerformance
Cost (C) % Savings Value Index
(P/C)% Value
Improvement
Baseline 500 $237.7 2.10
A-8 Replace framing with thinner, shop fabricated beams 454 -9% $228.4 4% 1.99 -6%
A-4a Platform canopies only, no roof over tracks, raise track 369 -26% $223.3 6% 1.65 -21%
A-4b At extensions, no roof, only platform canopies 435 -13% $227.5 4% 1.91 -9%
VE Evaluation of At-Grade Stations
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SProposed Elevated Station ModificationRaise Roof over Track
Strengthen Track DeckAnd Raise Track
Strengthen Joints
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N
Extend Platform
VE Supported Base Case
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SRT Conversion - Tunnel
Scope
Modify Tunnel to accommodate larger vehicle
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Tunnel ‐ Roof ModificationProposed Tunnel Modification
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Remove existing tunnel roof
Raise support columns & walls and add roof
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Tunnel Modification - Sequencing
1. Construct detour and remove mainline
2. Remove tunnel roof, raise support columns and walls
3. Cast new tunnel roof
4. Re-install GO Transit mainline
5. Remove detour
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Tunnel Modification - Sequencing
6. VE: Use existing spur as detour (not acceptable to GO)
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Elevated Guideway Existing Structure
SRT ConversionElevated Structure with New Vehicle
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Overstressed due to 100% additional load
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• Option 1 –Fibre Reinforced Polymer (FRP)
• Option 2 - Conventional Reinforcing
• Option 3 - New Superstructure
• Option 4 - New Guideway
• VE did not identify any new options
Elevated Structure Modification Options Identified by Project Team
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• Quality Control is a challenge
• Weather dependant
• Relatively new and on-going research
• VE did not recommend
VE EvaluationOption 1 - FRP Reinforcing
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Add Concrete Slab With 20 Dowels Per Metre
External Stirrups For Girder
Exterior Post-tensioning
Option 2. Conventional Reinforcing
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Exterior Post-tensioning
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VE Evaluation Option 2 - Conventional Reinforcing Evaluation
• Requires 40,000 dowels• Existing structure participates in live load
– Cracking Potential is High• Corrosion
• Only expect 25 year life• VE did not recommend
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Elevated Guideway Option 2 New Superstructure
EXISTING PIERPier Modification
Option 3. New Superstructure
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Proposed Superstructure
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• Higher capital cost• 75 year life• Recommended by VE
VE Evaluation Option 3 - New Superstructure on Existing Piers/Foundations
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• Highest capital cost• VE did not recommend
Option 4. New Guideway-Superstructure and Piers
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• Life Cycle Cost Analysis conducted by TTC• Results support VE recommendation
Elevated Structure - VE Follow-Up
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• Did not result in capital cost savings• Did result in improved performance• Assisted in selection of options• Supported base case designs
VE Workshop – SRT Conversion Summary
11/15/2011 Application of VE - The Crosstown Project3(i)– SRT Conversion
11/15/11 Application of VE - The Crosstown Project3 (ii) Station Box Length
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Agenda
1. Eglinton Scarborough Crosstown Overview
2. Value Engineering for the Crosstown Project
3. Examples of VE Workshops
(i) SRT Conversion(ii) Station Box Length
Station Design
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3 (ii) Station Box Length
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Station Location
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• Minimize property and construction impacts
• Minimize disruption to extensive utilities around stations
• Accommodate local traffic during construction
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Station Construction
• Smaller station– Less impact– Less cost– Shorter schedule
• VE performed on Station Box Length
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Station Box Length
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Station Box Length
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Station Box Length
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Station Box Length
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Relocate Vent Fans
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Station Box Length
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95 m
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Station Box Length
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VE Alternative Box Length Reduction
Cost Saving per Station
Vent fans outside station box at entrance buildings 22m $ 3.3 M
Delete fire fighter access shafts (in‐line stations) 3m $ 1.0 M
Platform length reduced from 97 to 95m 2m $ 0.6 M
POTENTIAL COST SAVING PER IN‐LINE STATION (Location Specific)
27m $ 4.9 M
TOTAL POTENTIAL COST SAVING $ 100 M
Application of VE - The Crosstown Project3 (ii) Station Box Length
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Agenda
1. Eglinton Scarborough Crosstown Overview
2. Value Engineering for the Crosstown Project
3. Examples of VE Workshops
(i) SRT Conversion(ii) Station Box Length(iii) Tunnel Design
Application of VE- The Crosstown Project3 (iii) – Tunnel Design
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Eglinton Tunnels
Scope
• 19 km tunnel from Kennedy to West Launch Shaft (Black Creek Drive)
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Eglinton Tunnels
Mainstream VE:
Tunnelling vs cut and cover
• Tunnelling more cost effective for long distances• Less impact to community
Tunnel Diameter
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• Minimize to reduce costs
Eglinton Tunnel Boring
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• 4 TBMs have been purchased
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Constructing New Stations & Tunnels
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Formal VE – Tunnel Design
Scope
• VE performed on 60% tunnel design.
• VE report under review
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Eglinton Tunnel Design
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VE Alternative Cost Saving (Preliminary)
Excavate station boxes from Dufferin east to Yonge prior to tunnelling
$ 59 M
Utilize secant walls as part of the permanent station structure $ 44 M
Use Eglinton West Station box to extract and launch TBMs $ 30 M
Utilize longer TBM tunnel drives $ 26 M
POTENTIAL COST SAVINGS (TOP 4 BIG WINS) $ 159 M
Application of VE- The Crosstown Project3 (iii) – Tunnel Design
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Tunnel Construction
Application of VE- The Crosstown Project3 (iii) – Tunnel Design
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Agenda
1. Eglinton Scarborough Crosstown Overview
2. Value Engineering for the Crosstown Project
3. Examples of VE Workshops
(i) SRT Conversion(ii) Station Box Length(iii) Tunnel Design
4. Questions
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Questions
Contact: Rick ThompsonChief Project Manager – SRT/YardsToronto Transit CommissionTransit Expansion DepartmentTel: 416-397-4870e-mail: Rick.Thompson@ttc.ca