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Lake Wyangan ProjectDave Gilbert and Chris Green
IA Conference 2014
The Murrumbidgee Irrigation Area (MIA)
Infrastructure Modernisation
Improve delivery system efficiencies Meet changing customer needs Reduce asset ownership costs Generate water savings Reduce infrastructure
footprint
Key Objectives
Lake Wyangan System
Closed system within a catchment of 7,000 ha Irrigation supplies to around 200 properties Ageing concrete-lined gravity supply channels Constrained system
limited to 220 ML/day Mix of hobby blocks,
horticulture and large area Social amenity provided
by Lake Wyangan
Background
Lake Wyangan Project Area
Lake Wyangan Project
Replace ageing infrastructure that is at risk of failure Enable delivery of contracted levels of service Minimise the impact on water levels and water quality and
the overall environmental health of the Lake Wyangan catchment
Realise the estimated water savings target for the project
Objectives
Lake Wyangan Project
Upgrade the existing supply system – Focus on renewal of ageing assets over water savings
Reconfigure the existing system – Focus on providing a secondary supply system for some areas
to address capacity constraints Build new assets to alleviate
requirement to upgrade some capacity constraints – Focus on creating new asset over
renewal of existing assets
Options considered
Lake Wyangan Modernisation
Reline and widen 15.8km of ageing concrete-lined Lake View Branch Canal (122,000 sq. m of shotcrete lining)
Replace open channels and pipelines at the end of their working lives with 13.8km of GRP and PVC gravity pipelines
Replace Dethridge wheels with electromagnetic flow meters compliant with AS4747
Automation of regulators and escape structures Install remote monitoring of flow
meters
Scope
Existing Channel Lining
Assessment of Existing Lining
1 2 3 4 5 6 7 8 9 101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263640%
20%
40%
60%
80%
100%
120%
Percentage of Collapsed and Failed Panels
Failed Panels
Collapsed Panels
Sector Number
Perc
enta
ge o
f Pan
els
Lining Design Criteria
Convey the required flow Construction within winter
shutdown periods Reduce seepage losses Prevent erosion / dispersion
of soil behind lining Durability for 80 years
design life Cost-effective solution
Ranking Fibre reinforced shotcrete Grouted fabric mat Shotcrete over sealed liner Coletanche (geotextile) with
asphalt / bitumen Shotcrete over a flexible
membrane Hypalon HDPE
Design Criteria
Technical Risk Reduction
Earthwork remediation and compaction Concrete mix and curing
– Unreinforced v. polymer reinforced shotcrete Shotcrete application
– Shotcrete lining over a geotextile Panel contraction and expansion
joints Lining detail at bank top Shotcrete surface finish
Shotcrete Lining Trials
Channel Re-lining
Channel Re-lining
Construction Schedule
Timing May 2013 –Nov 2014 Nov 2013/Nov 2014
Planning options
Survey and detailed design
Outlet designs
Stakeholder forums
Individual face-to-face meetings
Construction:
– Civil
– Mechanical
– Electrical
– Automation
Acceptance testing
New system begins operation
Key steps
Oct 2011– ongoing Oct 2011 – May 2013
Planning and design
Construction Testing/ Commissioning
Building relationships
Lake Wyangan Modernisation
Forecasting future customer behaviour and intentions Managing customer expectations Developing and adopting new design rules Establishing new business processes Anticipating changes to operating
practices Compressed construction window Delivering a successful project for
MI, customers and the region
Challenges
Acknowledgement
The Lake Wyangan Modernisation Project received Australian Government funding
of $50 million through the Private Irrigation Infrastructure Operators
Program in NSW
Thank You for Your Attention
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