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24-25 August 2005 Meeting CMC-Dorval

CRTI 02 0093RD Advanced Emergency Response System for CBRN Hazard Prediction and Assessment for the Urban Environment. 24-25 August 2005 Meeting CMC-Dorval. Proposed agenda. 9:00 Welcome / General project status / Challenges Richard Hogue

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24-25 August 2005 Meeting CMC-Dorval

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  1. CRTI 02 0093RDAdvanced Emergency Response System forCBRN Hazard Prediction and Assessment for the Urban Environment 24-25 August 2005 Meeting CMC-Dorval

  2. Proposed agenda • 9:00 Welcome / General project status / Challenges Richard Hogue • 9:30 Meso-scale modeling and inclusion of urban terrain (Component 2) • General overview (20min.) Stéphane Bélair/Jocelyn Mailhot • Town Energy Balance (TEB) (15 min.) Aude Lemonsu • Urban surface database (15 min.) Alexandre Leroux • Anthropogenic fluxes (10 min.) Najat Benbouta • 3D-Turbulence (20 min.) Claude Pelletier • Experimental CFD Modeling at RPN (20 min.) Pierre Pellerin • MUSE 2004-05 field study (20 min.) Frédéric Chagnon/Gilles Morneau • 11:30 Discussion on field studies (New York tracer experiment, etc.) • 11:45 Visit of the CMC Supercomputer room • 12:00 Lunch (catered in the conference room) • 13h00 Modeling the urban microscale flow (Component 1) Fue-Sang Lien, Eugene Yee, • 14:00 LS dispersion model (Component 4) John Wilson • 14h45 Group discussion • Identify issues and challenges / what’s next …. • Identify points to discuss on day 2 • 16h30-17h00 end of day 1

  3. Day 2 – Discussions - Coordination – Next steps - Working together • Thursday, August 25 , 2nd floor conference room. • 9h00 Introduction & review of day 1 • 9h15 Coupling the urban microscale model to the “urbanized” mesoscale model • How to interface urbanSTREAM flow model with “urbanized” GEM-LAM • How to interface with urbanLS ? • How to validate and test ? • Discussions • 12:00 Lunch (catered in the conference room) • 13:00 Discussions / Other topics • 15:00 Review of project milestones • 16h:00 Wrap up

  4. Our objective… • The objective of this project is to develop and validate an integrated, state-of-the-art, high-fidelity multi-scale modeling system for the accurate and efficient prediction of urban flow and dispersion of CBRN materials. • Development of this proposed multi-scale modeling system will provide the real-time modeling and simulation tool to predict injuries, casualties, and contamination and to make relevant decisions (based on the strongest technical and scientific foundations) to minimize the consequences based on a pre-determined decision making framework. Prototype to be ready in early 2007

  5. The project partners • Environment Canada Meteorological Service of Canada • Canadian Meteorological Centre (Michel Jean/Richard Hogue et al.) + MSC Quebec Region • Atmospheric and Climate Sciences Directorate (Gilbert Brunet et al.) • DRDC Suffield (Eugene Yee et al.) • HC RPB (Kurt Ungar et al.) • AECL (Phil Davis et al.) • University of Waterloo (F.S. Lien et al.) • University of Alberta (J.D. Wilson et al.) • Builds on on-going A-Base activities as well as on other CRTI projects

  6. Project components Component 1: Development and implementation of urban flow models to predict mean flow and turbulence at urban microscale (building/street scale to neighborhood scale) Component 2: Inclusion of the effects of urban terrain in the sub-grid scales of GEM-LAM through urban parametrization : “urbanized” mesoscale model Component 3: Coupling the urban microscale flow model to the “urbanized” mesoscale model Component 4: Lagrangian Stochastic (LS) model for the prediction of urban dispersion of CBRN agens. Will use mean flow and turbulence predicted by the multi-scale flow model. Component 5: Verification and validation

  7. Meeting objectives / challenges…. • Status report of each project partners • Coupling issues • Validation issues • Increase collaborations and scientific exchanges • etc.

  8. Leverage: Current CRTI projects at the Canadian Meteorological Centre • CRTI 01 0080TA ‘Information Management and Decision Support System for Radiological-Nuclear (RN) Hazard Preparedness & Response’; HC Radiation Protection Bureau lead; Federal partner EC-MSC; academic partners U of Alberta; private partners Prolog development Centre. • CRTI funding (through Health Canada): 105K • Status. Project completed. Supplementary funding being seeked through the Canada-US Public Security Technical Program to establish bi-directional operational connections with US Lawrence Livermore National Laboratory (US DHS) • On-going funding for operational support to be seeked through phase 2 of CRTI (MC to be submitted this Fall by CRTI secretariat; upon TB approval) • CRTI 02 0093RD ‘Advanced Emergency Response System for CBRN Hazard Prediction and Assessment for the Urban Environment’; EC-MSC is the lead; Federal partners are DND DRDC Suffield, Health Canada Radiation Protection Bureau, Atomic Energy Canada Limited (Chalk River); academic partners U of Waterloo and U of Alberta; private partners Kosteniuk Inc. • CRTI funding (EC MSC lead): 3485K (EC CMC 2181K) • Status. Project on schedule. Supplementary funding approved (310K) through the Canada-US Public Security Technical Program to establish bi-directional operational connections with US Lawrence Livermore National Laboratory (US DHS) and the DHS sponsored New York City Urban Dispersion Program • On-going funding for operational support to be seeked through phase 2 of CRTI (MC to be submitted this Fall by CRTI secretariat; upon TB approval) • CRTI 02 0041RD ‘Real-Time Determination of Area of Influence of CBRN Releases’; HC RPB lead; federal partners EC-MSC, AECL; Academic partners York and McGill universities. • CRTI funding (through Health Canada): 625.7K • Status. Project on schedule. • On-going funding for operational support to be seeked through phase 2 of CRTI (MC to be submitted this Fall by CRTI secretariat; upon TB approval) • CRTI 02 0066RD ‘Development of simulation programs to prepare against and manage outbreaks of highly contagious diseases of animals’ CFIA lead; Federal partners EC-MSC, Ag Can; Academic partners Guelph university, Colorado State University. • CRTI funding (through CFIA): 130K • Status. Project on schedule, EC MSC component completed. Supplementary funding being seeked through the Canada-US Public Security Technical Program to establish bi-directional operational connections with US Lawrence Livermore National Laboratory (US DHS) on the prediction of spread of foreign animal diseases. • On-going funding for operational support to be seekd through phase 2 of CRTI (MC to be submitted this Fall by CRTI secretariat; upon TB approval) • CRTI 03 0018RD “Experimental Characterization of Risk for Radiological Dispersal Devices (RDDs)”; DND DRDC Ottawa lead; Federal partners DRDC Valcartier, HC RPB, EC CMC; Academic partners RMC Kingston, UOIT, Carleton, UBC • CRTI funding (through DRDC Ottawa): none, leverage of resources from CRTI 02 0093RD project • Status. Project starting. Supplementary funding approved through the Canada-US Public Security Technical Program to establish bi-directional operational connections with US Sandia National Laboratory (US DHS)

  9. Leverage: Submitted CRTI projects involving the Canadian Meteorological Centre • CRTI 04 0127TD ‘CHIRP – Canadian Health Integrated Response Platform’ ; Public Health Agency of Canada lead; Federal partner EC-MSC; Health Canada Radiation Protection Bureau. • Requested CRTI funding (through PHAC): 423.5K • Status. Project successfully passed through phase 1 of selection process. • CRTI 05 xxxxRD ‘Evaluating exposures to non-weaponized biological and chemical agents in real, complex environments.’; CFIA lead ; Federal partner DND DRDC Suffield, EC CMC, National Research Council; academic partner U Victoria ; private partner AMITA corporation, Dycor Technologies ; US partner Lawrence Livermore National Laboratory (DHS), US army Aberdeen Proving Ground • Requested CRTI funding (through PHAC): TBD • Status. Project successfully passed through phase 1 of previous selection process, but proposal dropped because of workload issues and timing for Bacillus Thuriengis spraying. Project to be re-submitted this Fall. • PSTP: • CRTI approved on 27 July 2005 310K of supplementary funding for CRTI 02 0093 RD (lead EC MSC) under a Canada-US project titled ‘United States/Canada Collaborative Projects on Science and Technology in Urban Transport Modeling Related to Homeland Security’

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