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by Ph.D. Candidate Shan-Bin Xie Dr. Yu-Wen Zhou Beijing University of Technology An Event Driven Model Framework for Water Distribution Systems Based on Transient Flow Analysis
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Thanks to Institute for Mathematical Sciences Singapore - Delft Water Alliance Tropical Marine Science Institute Pacific Institute for Mathematical Sciences
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Contents Introduction & Background Object-Orient Framework Design for Pipelines System Water Demand Assessment Transient Flow Analysis Event Model for Pipelines System Conclusion Discussion
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Water Distribution System Analysis Model Steady-State Analysis All water demands and operations are treated as constant over time and a single solution is generated Extended-Period Analysis Variations in water demands, tank water levels, and other operational conditions are simulated by a series of steady-state analyses that are linked together.It introduce some approximations and ignores the transient phenomena resulting from sudden changes Introduction & Background
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Water Distribution System Analysis Model Water Quality Analysis It predict the temporal and spatial distribution of a variety of constituents within a distribution system, these constituents include: The age of water, chemical compound such as chloride or fluoride etc. Transient Flow Analysis It simulates sudden changes of pipelines system’s component,such as pump shut off & speed adjustment,valve suddenly close,etc Introduction & Background
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Research Aims Construct unified model framework to be reused in developing applications Develop a model integrating transient analysis for simulating water hammer with Extended-Period Analysis to help utility’s operator in water distribution system’s management Introduction & Background
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Object-Orient Framework Design for Pipelines System Element Hierarchy Structure
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Object-Orient Framework Design for Pipelines System Handler Hierarchy Structure
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Object-Orient Framework Design for Pipelines System System Framework
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Water Demands Assessment Difference Season Demand Variation Difference Season Demand Variation Difference Month Demand Variation Difference Month Demand Variation System demands vary over the course of months & seasons
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Water Demands Assessment Weekend Water Demand Holiday (New Year) Water Demand In particular day
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Water Demands Assessment BeijingJingNanxianshuigu Tendency item +Periodic item Random item Demand Decomposition
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Water Demands Assessment Demand Variation & Pattern Cluster Analysis Demand Spatial Distribution Bill Database & Base Demand Assessment (GIS) Unmeasured Demand Assessment & Demand Balance Real-Time Demand Assessment temporal downscale & Optimization Algorithm (SCADA: Supervisory Control and Data Acquisition ) Integrated Demand Analysis Framework Business Intelligence (MS SQL 2005 analysis service)
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Water Demands Assessment Demo Town: xianshuigu Domestic Demand Pattern
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Water Demands Assessment Demo Town: xianshuigu Diverse Categories Demand Pattern
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Water Demands Assessment Demo Town: xianshuigu Head Contour Graph
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Transient Flow Analysis Basic Governing Equation
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Transient Flow Analysis Characteristic Lines in X-T Plane
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Transient Flow Analysis In which
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Transient Flow Analysis Characteristics at Boundary
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Transient Flow Analysis Wave Speed Calculation Fluid compressibility & pipe flexibility Wall shear stress models Numerical scheme Flow stability & axisymmetric assumption Complex boundary condition
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Event Model for Pipelines System Event Type : HitTest; Strategy(simple, complex (auto controlling decision made)?) Event Pool : Arraylist or Hashtable ( Task type private member, Task owns a pair register/unregister method, event can be automaticly registered/unregistered to a task ) Event &Event Model Event Prototype: delegate void EventName ( Element sender, TransientEventArgs e ) TransientEventArgs member: StartTime, Duration, ControlledParameter, Parameter TimeSerial, TransientOption(TimeStep,FrictionFormulation,DefaultWaveSpeed,etc)
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Event Model for Pipelines System Demo:
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Event Model for Pipelines System Demo: Characteristic profile along selected path
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Event Model for Pipelines System Demo: Head time series line at selected points
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Construct unified model framework to be reused in developing applications Encapsulate transient analysis with event model and simplify model architecture Conclusion
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Small temporal scales and accurate SCADA data can be helpful to evaluate the system’s state, Downscale & SCADA data analysis technique may be useful and important. How to automatic instance an event & trigger it? How to instance a complex strategy type event according to pipelines system’s state & utility’s management strategy? Maybe use optimization algorithms? There maybe another method? Sincerely ask for help! How to integrate Automatic Control Theory in investigating of inverse problem (such as system’s exceptions identity & handling, etc) in pipelines system? Discussion
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Thank you for your attention. Shanbin Xie Email: cnwaterworker@yahoo.com.cn Data-driven and Physically-based Models for Characterization of Processes in Hydrology, Hydraulics, Oceanography and Climate Change 6 - 28 Jan 2008 THE END
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