...

The Italian Experience with a System for Planning and

by user

on
Category: Documents
33

views

Report

Comments

Transcript

The Italian Experience with a System for Planning and
The Italian Experience with a
System for Planning and Managing
Emergencies Following Major
Accidents: ENVIREG & SIMAGE
Pietro La Grotta 1 – Jean-Pierre Nordvik 2
1
Italian Ministry for the Environment
2 European Commission, Joint Research Centre
SUBREGIONAL WORKSHOP ON THE IMPLEMENTATION
OF THE CONVENTION ON THE TRANSBOUNDARY
EFFECTS OF INDUSTRIAL ACCIDENTS
(Erevan, Armenia 13-15 March 2003)
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
The SIMAGE Project
• Framework agreement between
the Joint Research Centre of the
European Commission and the
Italian Ministry for the Environment
• October 1999 – June 2005
• 13 millions Euro
• Continuation of previous large
activities in Sicily
Ispra
Marghera
Genova
Livorno
Piombino
Ravenna
Roma
Brindisi
– 1996-1999
– 4.5 millions Euro
Taranto
Gela
Milazzo
Augusta / Priolo
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
The SIMAGE Project
Objective
Design, realization and implementation
of cost-effective, operating, lasting
integrated systems in highly
industrialized areas for:
– monitoring and management of
environmental emergencies:
industrial accident and air
pollution and)
– information exchange concerning
industrial risk, air, water, soil,
networked with the major existing
Italian risk areas.
– the planning and management
of emergencies associated with
industrial accidents or
transportation of dangerous
goods
Ispra
Marghera
Genova
Livorno
Piombino
Ravenna
Roma
Brindisi
Taranto
Gela
Milazzo
Augusta / Priolo
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
Major project characteristics
•
•
•
Environmental assessment: data collection and verification,
monitoring campaigns and analyses
Air quality monitoring and air pollution management: network
design and positioning, modelling
Data registers and geographical representations
• Detection and management of
– industrial accidents
– accidents associated with transportation of dangerous
goods
•
•
Flexible telematic network and information to the public
Decision support tools for environmental remediation
– Involvement of national, regional, provincial and local public authorities
– Integration of existing local networks and data
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
SIMAGE in Puglia
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
SIMAGE in Sicily
3
Milazzo
Roma
Messin
a
Milazzo
1
1
3
Palermo
Messina
Caltanissetta
2
Augusta
4
Gela
2
Siracusa
Priolo
Gela
Centro elaborazione dati
Centro d'interazione remoto
Punto d’informazione al pubblico
Area di monitoraggio
Siracusa
4
Logical Architecture for each industrial area
Monitoring
Network
Mngt. Center
Traffic
Monitoring
Center
Video Camera
Mngt.Center
Emergency
Management
Center
Public
Information
Center
Remote Interaction Center
Public Information Point
Data signals
Instantaneous request and exchange of data
Institute for the Protection and Security of the Citizen (IPSC)
Alarm signal
Technological and Economic
Risk Management Unit
Multiple data input
Air quality sensor
Meteorological sensor
Industrial gas detector
GPS - GSM system
for transport monitoring
Visible and IR video Camera
European Commission
Main SIMAGE Centers
• Air quality monitoring data center (CED)
• Environmental data center (CEDA)
– 7 registers
– Advanced air transport modelling
- Environmental crisis management
- Industrial emergency and
planning center
- Information to public (Web
server)
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
Fixed monitoring Networks
• Networks:
Designed and
integrated with
existing networks
• Sensors
For environmental
monitoring
Accidental gas
release detectors
Conventional and
infrared videos
Gela:
image
archive
Gela:camera,
Meteo HF,
NH3,
Meteo
Punto
Meteo
Milazzo:Gela:
Camera
IRHF,
& visible
MegaraCugno:
: HF, Meteo
Involved partners
Involvement of all relevant institutional and private bodies
 2 Ministries
 3 Regions
 5 Prefectures
 6 Provinces
 18 Communes
 Industrial
Associations
 numerous
service and
transportation
companies
PrefectureofofMessina
Province
Caltanissetta,
Siracusa
site
Province
of Gelaof of
Caltanissetta
Prefecture
Messina
Distretto di Gela: modifiche alle reti di
monitoraggio
5.3. Comune
di Gela
8. Agip Pozzo 57
Acquisizione dati meteo
13 e 3.5. CED - Provincia
Acquisizione dati meteo
4.5. Assessorato
Ambiente Ecologia
16. Museo Archeologico
Telecamera nel visibile
15. Ingresso A - Agip
HF e NH3
7. Agip Mineraria
Telecamera nel visibile
HF e NH3
14. Stazione ISAF
Acquisizione dati meteo
HF e NH3
Centro elaborazione dati
Stazione della Provincia
nuova o potenziata
Centro d'interazione remoto
Punto d’informazione al pubblico
Major Network Links
Roma
Palermo
Milazzo
Messina
Caltanissetta
Data Processing Center
Remote Interaction Center
Priolo
Public Information Point
Dedicated line
Remote interaction
Public information line
Gela
Siracusa
Distretto di Gela: flusso dei dati
Area under control
Data processing Center
Public information point
Remote interaction Center
Meteorological station
Leak detector or camera
Environmental Data
Alarm signal
Dedicated line
Request of
meteo data
Remote interaction
Camera management system
•
•
•
•
•
•
•
Infra-red and
visible spectrum
camera
Real-Time image
tracking
Hot and cold points
detection and
alarm generation
Multi-camera
management
Remote zoom and
movement control
Programmable
camera recording
trajectory
Image archival
Transport of dangerous goods
Call for tender: realisation and
installation of a pilot system for the
control of hazardous goods transport
in the Italian provinces of Brindisi,
Taranto and Venice
Transport Control
Centre - National
On-board equipment
•
•
•
•
Objectives:
to monitor, in a near real-time manner,
the transportation of hazardous goods
in Italy, in particular in the three
industrial areas of Brindisi, Taranto
entering
and Porto Marghera,
local area
to monitor and control the risk posed
by their transportation,
to provide early warnings in case of
emergency associated with these
goods and
to support to the management of the
transportation hazardous goods in
case of emergency.
Communication
Transport Coordination
Centre
exiting
local area
On-board equipment
Transport Control
Centre – Local Area
Fixed equipment
on field
Monitored Area
Signal data / information
Vehicle Movement
Emergency Management System
(EMS)
• Objective
– provide support to the relevant institutional bodies for the
management of emergencies associated with industrial
accidents and transportation by road of dangerous
substances
• High-level requirements
– compatible with procedures of Civil Protection Authorities
– installed physically close-by the official Emergency Rooms
– covers the standby, pre-alarm and alarm stages, and also
training and post-emergency analysis activities
– integrates analytical methods and tools recognized by
Italian authorities
– connected functionally with environmental network,
camera management and fleet management systems
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
EMS - main features
• Main features
Automatic alarm
recognition
Identification of the place
and type of emergency
Inform all relevant entities
Consequence assessment
and definition of impact
zones
Identification of most
vulnerable areas
Coordination of available
resources
Identification and tracking
of procedures
Communication,
coordination and reporting
Real-time modeling of release phenomena
Emergency planning
• Databases on











Chemicals
Industrial systems
Safety Reports
Accident scenarios
Vulnerable areas
Resources
Procedures
Communication
Population distribution
Yellow-Pages
land-use, adm. borders








First impact zones
Traffic
Population
3-D terrain
Source Terms
Consequences
Vulnerability
Mitigation
• Models for
CIPA - Simulazione di prova
31/5/2001 00:00 - 1/6/2001 00:00
Particelle e concentrazioni al suolo – immagini orarie
Information to the public
Video Camera
Video Camera
?
Infra Red Video
Camera
Databases
Image
Archive
Image
Archive
GIS
Modelling
OLAP
ISDN
Emissions
Infra Red Video
Camera
Databases
Register
ISDN
Register
Emergency
Mobile
Emissions
Emissions
GSM
Emergency
Integration DB
RTG
Data
Warehouse
GSM
Regional
Network
RTG
WWW.ARPA
GSM
Mobile
Calibration
WWW.APPA
Calibration Lab
TARANTO
Emissions Lab
Regional
Network
WWW.APPA
Calibration
Lab
BRINDISI
Emissions
Lab
Mobile
Calibration
Back Bone
Network
Public Administrations
Ministry For The Environment
ISDN
Regional Competent Authority
SICILY
Provincial Authorities (x2)
WWW.ARPA
Local Communities (x10)
Gela/
Caltanissetta
The General Public
ISDN
ISDN/RTG
Siracausa
Public Information Points in Province of Taranto
Milazzo/Mesina
Institute forPublic
the Protection
and inSecurity
of the
Citizen (IPSC)
Information Points
the Province
of Brindizi
Technological and Economic Risk Management Unit
Direct Access via The Internet to
ARPA Home Pages
European Commission
ARPA
Emiglia Romania
RTG
Ethernet - Intranet
Ethernet outside Firewall
1 Line
Ethernet to Bridge
7.11
7.12
7.13
Proprietary Connetor
7.15
7.14
Public/Internet
6.00
ISDN
ISDN
VPN over Internet
Private/Intranet
ISDN
Print Server
ADSL
Power/TX
512Kb/s
Link/Rx
LPT1
LPT2
COM
Hub
Web server
rete ENEL
6.10
Internet
ISDN
Hub
3.15
ISDN
Print Server
Power/TX
Link/Rx
LPT1
LPT2
COM
Print Server
3.14
Power/TX
Link/Rx
LPT1
LPT2
COM
ADSL
512Kb/s
ISDN
ISDN
ISDN
ISDN
3.13
FireWall
6.60
Hub
7.10
3.12
Hub
CISCOSYSTEMS
X.16
Hub
Provinca
Taranto
3.11
X.61
X.71
Ministero
dell’
Ambiente
CISCOSYSTEMS
Regione
Puglia
RTG
GSM
1Line
Print Server
Power/TX
Link/Rx
LPT1
LPT2
1 Line
COM
ISDN
RTG
1 Line
1 Line
CISCOSYSTEMS
1.32
1SIM
1 line
1.31
3.10
1 Line
5.10
2.10
1 Line
CISCOSYSTEMS
Print Server
RTG
Taranto
Commune
Network
Power/TX
LPT1
LPT2
COM
GSM
1SIM
5.11
8.61 8.71
Link/Rx
1.33
5.12
8.10
3+5
1.23
1.11 1.12 1.13 1.14
TARANTO Site
2.11
1.24
ARPA
Puglia
Network
4.10
Area Risk Analysis - ARIPAR
Aggregation of all risk sources associated with fixed installation and transportation of
dangerous substances (by roads, railways, ships and pipelines)
•
Calculation and display of
 local point risks and isorisk curves
 individual area iso-risk
curves
 relative contribution of risk
sources
 F-N curves and I-N
histograms
•
Identification of major causes of
risk in the area
•
Adopted already by 3 Italian
Regions
•
Uses in future SIMAGE
installations
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
HARIA-2*, a Methodology for
Emergency Planning
(supported by the National Research Council under the sponsorship of the Italian Civil
Protection Department).
AIM OF HARIA-2 (1998-2002):
modeling and simulation of dynamic systems interacting
during a severe accident in chemical and petrochemical
industries:
•
•
•
•
Physical System: accidents that could impact the
surrounding environment
Territorial and Social System: population and other targets
that could be affected by the accident
Civil Protection System: rescue services and resources
available for consequence mitigation
Output of the project:
a set of models and tools for the analysis and optimization of
emergency plans
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
The END
Institute for the Protection and Security of the Citizen (IPSC)
Technological and Economic Risk Management Unit
European Commission
Fly UP