Digital Twins and Asset Management in the Water Sector AUFLG2 Annual Briefing 2 nd January 2020 Presented by Yves Abou Rjeily
Progress in Water Engineering • Design Modelling • Real-Time Modelling (Digital Twins) Optimisation
Progress in Water Engineering • Design • New networks • Peak situations • Efficient Systems
Progress in Water Engineering • Modelling • Existing networks • Entire Event • Efficient Operation
Progress in Water Engineering Automation Real-Time Modelling Periodic Simulations Hydraulic Model + Telemetry + Live Server Alert Generation
Progress in Water Engineering Optimisation Real-Time Modelling Hydraulic Model Telemetry Live Server AI and Machine Learning
Progress in Water Engineering Optimisation Real-Time Modelling Hydraulic Model Telemetry Live Server Applications: AI and Machine Learning Pumping systems Floods mitigation Decision support system
Application Water Distribution Networks
Application in Water Distribution Networks • Normal operation
Application in Water Distribution Networks • Incident detection
Application in Water Distribution Networks • Incident location
Application in Water Distribution Networks • Incident simulation
Application in Water Distribution Networks • Incident simulation
Application in Water Distribution Networks • Response Simulation
Application in Water Distribution Networks • Response simulation
Application in Water Distribution Networks • Response simulation We have 4 hours to fix the hydrant
Application Urban Drainage Networks
Application in Urban Drainage Networks Sensors Radar Images Telemetry • Rain gauges Live Server • Water levels Flow meters • Pump operation • Gate movements • Operational forecasts Simulation Model
Application in Urban Drainage Networks
Application in Urban Drainage Networks Objectives Detect incidents Predict problems Operation enhancement
Application in Urban Drainage Networks Examples: London Regatta London Tideway Tunnel Tokyo Scottish Canals England
Application in Urban Drainage Networks Examples: London Regatta London Tideway Tunnel Tokyo Scottish Canals England
Application in Urban Drainage Networks Examples: London Regatta London Tideway Tunnel Tokyo Scottish Canals England
Application in Urban Drainage Networks Examples: London Regatta London Tideway Tunnel Tokyo Scottish Canals England
Application in Urban Drainage Networks Examples: London Regatta London Tideway Tunnel Tokyo Scottish Canals England
Application in Urban Drainage Networks Examples: London Regatta London Tideway Tunnel Tokyo Scottish Canals England
Application in Urban Drainage Networks Examples: London Regatta London Tideway Tunnel Tokyo Scottish Canals England
Asset Management Water Networks
Asset Management Underground Infrastructure Objectives: • Prolong the service life • Hydraulic performance Limitations: • Funds = need to prioritise • Interruptions = planning
Asset Management • Likelihood of Failure • Properties Material • Diameter • Depth … • • Environment: Soil condition • Traffic Loading • Intersections … •
Asset Management Consequence of Failure Properties • Diameter • Flows Isolation … • Environment: Critical facilities • Population density • Service interruption … •
Asset Management Inspections and historical data Network data (Properties) • Materials • Diameters • Roughness GIS layers (Environment) • Installation dates Soil types • • Modelling results … Population density • Critical facilities • • Other networks Pavements … •
Asset Management
Thank you! Yves Abou Rjeily Regional Business Manager, London Innovyze Yves.abourjeily@Innovyze.com +44 (0) 7834 803396
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