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A-TEAM: Advanced Training System for Emergency Management WP02: Simulation Exercises

A-TEAM: Advanced Training System for Emergency Management WP02: Simulation Exercises Dr. Kostas Karatzas Department of Mechanical Engineering Laboratory of Heat Transfer and Enviromental Engineering Aristotle University of Thessaloniki, Greece. Objectives

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A-TEAM: Advanced Training System for Emergency Management WP02: Simulation Exercises

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  1. A-TEAM: Advanced Training System for Emergency Management WP02: Simulation Exercises Dr. Kostas Karatzas Department of Mechanical Engineering Laboratory of Heat Transfer and Enviromental Engineering Aristotle University of Thessaloniki, Greece

  2. Objectives • To develop a rich and comprehensive set and case library of emergency simulations for typical emergency cases; • To build a set of example cases for the case-based reasoning tools of the training system; • To select,configure in terms of their specific parameter sets, and simulate case examples to represent typical situations, frequently encountered that are also characterised by their didactic value; • To prepare the underlying simulation models for their direct integration into the Emergency Management Trainer (EMT) through a modular client-server architecture.

  3. Description of work • Definition of the example cases: done • Preparation of the data sets for each case: in progress • Simulation of the emergency cases: in progress • Post-processing the results for use with the case-based reasoning, for inclusion as explanatory examples, and for direct integration in the EMT and interactive simulation: in progress

  4. On-line Models • SPILL: dynamic release model • TIMES: dynamic 3-D Eulerian code • DYNPUFF: dynamic multi-puff model • GSTM: Gaussian short-term model • BLAST explosion models • FIRE: steady-state 2-D fire model • SOILGW: stochastic 1-D soil/groundwater infiltration model • MS: Metodo Speditivo • DRSM: dynamic river spill model • UDM: Unified Dispersion Model

  5. Off-line Models • MIMO/CFX Computational Fluid Dynamics (CFD) models: Numerical analysis of fluid flow, heat transfer, and Related phenomena • SLAB Simulates the atmospheric dispersion of denser-than-air releases • ISC2 Steady-state Gaussian plume model

  6. CFD example Flow and concentration field around 3D geometry

  7. SLAB example Ground level evaporating pool for three different pollutants

  8. ISC2 example Computation of maximum hourly concentrations for 80640 cases - combinations of meteorological and source parameters

  9. Cases - Respective models

  10. Work in progress • Collection of input parameters from related test cases • Formation of inputs • Runs • Formation of outputs • Deliverable D02 (Simulation Exercises) first release:31/01/2001 final release: 31/07/2001

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