Post on 08-Jan-2016
description
Risk Management Information SystemA Spatial Planning Tool for Chemical Disaster ManagementInternational Conference on Environmental Knowledge for Disaster Risk Reduction
Vigyan Bhavan, New DelhiMay 10, 2011
The ConcernThe worst industrial accident occurred in Bhopal in December 1984;Exposure to Methyl Isocyanate (MIC) leaking from Union Carbide Plant caused significant number of deaths and injuries;World wide rethink on chemical risk from hazardous installations;Iconic photograph titled Burial of an unknown child -by Raghu Rai, Bhopal 1984
The ConcernNo information available from Union Carbide on the nature of hazards present within premises;People unaware on how to react to be able to minimize exposure to MIC;Hospitals & medical professionals did not know what gas was released and how to treat victims;There was no immediate notification of the accident to the Administration;There was no Emergency Response Plan & the Administration could not respond to accident on time;
Key issues in managing chemical risk;Need for GIS-enabled integrated information systems and modelling tools;The Risk Management Information System (RMIS);Presentation Flow
Technological risk events typically unfold in matter of hours short response timeRequires updated information from diverse sources to assess damagePrediction needs solving of complex algorithms and spatial analysisThe Issues
Management of a chemical risk scenario is information intensive;Models require high processing power;Strong spatial dimension;
Why we require information system support?
Provide end point effect distances for different incidents;Hazard footprints displayed for better visualization;Risk maps shown as contours;But, not closely coupled with GIS;
Gaps in existing tools
Key Features:Aggregate information on industries, chemicals, hazards, vulnerability, emergency responders in a single database;Provides for spatial analysis and better understanding of chemical risks;Transparent mechanism for sharing risk related information;Integrated with QRA based consequence analysis models for providing decision support to risk management actors;Risk Management Information System (RMIS)
RMIS Key BenefitsHigh scale of Maps better representation of hazards and vulnerabilities;
Hazard Data and Maps can be updated / managed in a distributed manner or centrally;
[ Active ] Modeling of accident scenarios MCLS or any quantity of chemical;
Live Meteorology Information while the risk event is unfolding;
Building the RMISIndustrial town of Haldia in West Bengal;
Identifying and mapping chemical hazards;
Mapping elements at risk;
Appending information in a central database;
Integrating Risk Analysis Models for prediction of accident scenarios;
RMIS InterfaceNavigation ToolsSpatial Data ToolsMap AreaScale BarLayers, Search and Legend TabsInfo ToolMeteorology Data FeedWind RoseHazard ModelerCustom Built User Controls integrated with the web interface
RMIS Interface (contd)Layer Management
RMIS Interface Search FunctionSearch ResultsSearch by Chemical Nature & Quantity
RMIS Interface MeteorologyDaily and Seasonal Wind Patterns
RMIS Interface Hazard ModelerSetting up atmospheric data
RMIS Interface Hazard Modeler (contd)Preparing the hazard model
RMIS Interface Hazard Modeler (contd)3522152617Vulnerability DataHazard FootprintAffected roads and intersections
ConclusionThe RMIS has been developed as a versatile and integrated information system that can assist decision makers to effectively plan for and manage a chemical risk event
It will help in reducing the odds of another Bhopal!
Nilanjan Paul Email: npaul@senesindia.com
Debanjan Bandyopadhyay Email: debanjan@senesindia.com
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