Post on 16-Aug-2020
GREEN MARINE 2013 ANNUAL CONFERENCE
Capital Dredging at Pacific Coast Terminals:
Planning For Sustainability
Presented by:
Andrew MacKay, M.E.S. Envirochem Services Inc North Vancouver, BC
andrewm@envirochem.com www.envirochem.com May 30, 2013
Presentation Outline 1. The Setting: Pacific Coast Terminals
2. Project Purpose and Objectives
3. Dredge Planning and Operations o Sediment Sampling
o Build Containment Berm
o Dredging
o Post-Dredge Monitoring
o Communications
4. Sustainability “Accounting”
5. Conclusion
6. Acknowledgements
7. Your Questions and Comments
2
The Setting:
Pacific Coast Terminals
Port Moody Arm,
BC
Community Fixture
Established 1929,
since 1960 in PM
43 hectares on
PMV lease land
Shallow mud flats
Commodities:
Ethylene Glycol
Sulphur*
Coal
Food Grade Canola*
Potash*
Two berths:
#1: Liquids (237m)
#2: Sulphur (241m)
3
The Setting:
Pacific Coast Terminals (2)
4
Project Purpose
Reduce tidal restrictions resulting in:
Increased vessel transit safety
Improved terminal viability by moving more
commodities more often
5
Project Objectives Increase channel depth to -14m chart:
Employ cost effective and efficient dredge equipment
Deliver environmentally friendly outcomes
Marine Habitat Restoration / Enhancement
Waste Diversion
Significantly reduced emissions and nuisance
Enhance community relationships
Port Moody Citizens
Local First Nations
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Dredge Planning and
Operations Summary
Current plan builds on: • 1995 dredge and placement • 2009 Port Metro Vancouver design
• Local Placement vs. Transit / Disposal to Approved Site
Five (5) step process: 1. Characterize Sediment (Sampling and Analysis)
2. Build Containment Berm
3. Dredge
4. Post Dredge Monitoring
5. Communications and Engagement
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Dredge Planning and Operations Summary
Step 1: Sediment Sampling Year # Of
Samples
Location Method Depth DAS
Results
2009 20 Channel Ponar surface
2012 10 Channel Ponar surface
3 Channel Vibracore to 2.5m -
2013 17 Placement,
Channel, Ref
Station
Ponar surface tbd
32 Placement,
Channel, Ref
Station
Vibracore 0.5, 2.0 and
“base”
tbd
TOTAL 82
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Dredge Planning and Operations Summary
Step 1: Sediment Sampling
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Dredge Planning and Operations Summary
Step 1: Sediment Sampling
Example: sediment subsurface (core)
sampling locations based on volume location
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Dredge Planning and Operations Summary
Step 2: Build Containment Berm
General Concepts Located between
turning basin and existing berm (1995)
Requires 34,000m3 material: Diverted clean
construction waste or excavation aggregates
Sourcing and logistics required
Low risk post-failure
Design Specs Max elevation to -4.5m
chart datum (avoids Fed Nav Waters issues)
Added Capacity: 600,000m3
Total capacity with existing berm: 655,000m3
Capacity required: 640,000m3 including “bulking factor”
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Dredge Planning and Operations Summary
Step 2: Build Containment Berm
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Dredge Planning and Operations Summary
Step 3: Dredge
Relocate approximately 530,000m3 sediment
Approximately double 1995 volume
Channel dimensions
Approximately 1.5 km long, 130m – 150m wide
From west side of Reed Point Marina to turning basin entrance
Three dredger types for optimal operations and cost effectiveness, reduced environmental impact
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Dredge Planning and Operations Summary
Step 3: Dredge
Clamshell Precision near
Ioco pipelines
Hopper • West of Ioco
pipelines,
precision placing
Cutter Suction • East of Ioco
pipelines using silt
curtains and
diffuser
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Comprehensive monitoring program:
Pre-construction / operations baseline
Operations
Post dredge for up to five years
Specific requirements to be included in PMV approval conditions (e.g., TSS, NTU, sedimentation, areal abundance and diversity)
Will provide local First Nations training opportunity in field monitoring
Dredge Planning and Operations Summary
Step 4: Post Dredge Monitoring
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Dredge Planning and Operations Summary
Step 4: Post Dredge Monitoring
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Dredge Planning and Operations Summary
Step 5: Communications Early and voluntarily First Nations contact
Operating in Tsleil-Waututh, Squamish, Musqueam and Stolo Nations Traditional Territories
Building lasting relationships Opportunity to participate in field monitoring
Compatible project outscomes (e.g., habitat enhancement) and First Nations marine harvesting
PMV to separately conduct consultations as part of review process “Duty to consult” required by law
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Dredge Planning and Operations Summary
Step 5: Communications
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Current Project Schedule
Schedule subject to change
Note Fisheries restriction window March 2014 to July 15
Activity / Milestone Approximate Timeframe
May 2013 June July Aug Sept Oct Nov Dec Jan 2014 Feb Mar
Sediment Sampling X
Fish
eri
es W
ind
ow
Sta
rts
& B
egi
n P
ost
D
red
ge M
on
ito
rin
g
Env Canada DAS Approval X
DFO Habitat Approval X
PCT Resubmit PMV Application X
PMV Project Review
PMV Project Approval X
PCT Berm Planning
PCT Berm Construction
PCT Dredge
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Planning for Sustainability
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Planning for Sustainability
Environment
Enhance Marine Habitat
Minimize Impacts
Economy
PCT Viability
Social
Minimize Nuisance
Foster Relationships
Environment
Ecology
Economy
Employment Social
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Compare Local Placement vs. Transit & Disposal at Sea
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Planning for Sustainability
Planning for Sustainability
“Sustainability Accounting”
Sediment remains in
Port Moody Arm
Beneficial end use*
Cost effective
Shorter duration
Minimized emissions
(GHGs)
Waste diversion (berm)
Ocean Dumping
Sediment transported
for disposal (Point Grey)
No beneficial end use
Less cost-effective
Extended duration
Substantially Higher
Emissions
No waste diversion
Local Placement
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Raise Seabed:
Increased Solar Irradiance
(4.5m local chart)
Benthic Microalgae: Increased Primary
Productivity
Juvenile English Sole & Juvenile
Dungeness Crab:
Increase Foraging Opportunities
Benthic Invertebrates:
Increased Diversity
and Biomass
Planning for Sustainability
Marine Habitat Enhancement Summary
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Possibility of
Phase II, Intertidal Island Complex
Clean
construction
debris (concrete), excavation
aggregates
Planning for Sustainability
Marine Habitat Enhancement Summary
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Planning for Sustainability
“Sustainability Accounting”
Sustainability Variables Local
Placement* Disposal at Sea -
Clamshell Disposal at Sea - Closed Hopper
Project Duration (days) 69 212 265
Environment
Habitat Enhancement Yes No No
Air Emissions (GHG - tCO2e) 2,800 5,900 11,100
Clean Construction Waste Diversion (35K m3)
Yes No No
Economic
Cost $5.0-$6.6 M $8.0 M > $20.0M
Social
Nuisance - Noise, Visual, Lighting (days) 1 3x 3x
FN Monitoring & Capacity Building Yes No No
*Local Placement Involves Clamshell, Hopper and Cutter Suction Dredgers
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PCT Dredge Plan Using Local Placement:
Economy
Environment
Social
Aligned with principles of Sustainability!
Planning for Sustainability
Conclusion
27
Kent Smith, Manager Engineering &
Maintenance, PCT
Mark Adams, R.P. Biol, Owner, Envirowest
Dave Hart, Port Metro Vancouver
Planning for Sustainability
Acknowledgements
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Planning for Sustainability
“Comments and Questions
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