Italian Experiences in the Management of Dangerous Goods Transport

Italian Experiences in the Management of Dangerous Goods Transport Luca Studer, Laboratory for Mobility and Transport, Politecnico di Milano, Dep. INDACO UdR DIS EasyWay 2008 Elena Caprile, Giovanna Marchionni, Marco Ponti, Giovanni Rainoldi

Index

Index

TRAMP Project The TRAMP project (Telecontrollo del Rischio nell'autotrasporto di Merci Pericolose - Remote Hazard Control in Road Transportation of Dangerous Materials) Supported by the Italian Civil Protection Department as Research Group for transport management and road safety Phase 1: general architecture, Phase 2: prototype of the TRAMP System.

TRAMP: Objectives To allow the public authority in charge of the realization and management of the Control and Coordination Centre to reach the following results: to know in real time the number, position and behavior of the vehicles; to be promptly informed about the coming out of possible hazard conditions; to act quickly and correctly in case of any accident; to provide the transportation operators with updated information

Transport Risk Definition of Risk R = Probability x Consequences Need to define the event, the causes and estimate the consequences Definition of RISK INDICATORS Risk Analysis

TRAMP: Risk Mitigation Actions for risk mitigation (1/2) the preventive risk analysis of each single transportation activity and the planning of travels, by assigning each travel to the route that minimizes the risk of accident (probability and consequences); Monitoring (real time) of the vehicle and the transported load during the whole travel; the activation of suitable rescue procedures to be adopted in case of an accident.

TRAMP: Risk Mitigation Actions for risk mitigation (2/2)

TRAMP: Minimum Risk Path (Paridess) Creation of the risk indexes Risk analysis : IPM module Static Databases Dynamic Databases Creation of the risk indexes in shapes files format Evaluation module: AMC Generation of dissimilar paths Indication of the minimum risk path Intersection with the shapes

TRAMP: Equipment The TRAMP System Prototype equipment: a localization system (GPS); sensors to control the status of the load by measuring some characteristic parameters; information to be sent to a on-board control unit recording the information; a deceleration sensor; an inclinometer (anomalous inclinations); telecommunication devices for remote data exchange (position and alarms).

TRAMP: System Architecture CCC - Institution Minimum risk path definition Transport activity planning Local Operative Centre (COP) Control and Coordination Centre (CCC) Local Operative Centre (COP) Damage scenarios generation Emergency activation Operative indications transmission Information transmission COP Company Vehicles monitoring Vehicles Localization and monitoring Load monitoring Alarms activation and help request

TRAMP: Functional Architecture

TRAMP: Test, Lecco Italy Emergency simulations 1. Simulation of a light emergency: opening of the hatchback during transport 2. Simulation of a serious emergency: truck overturning and involvement of the transported load

Index

SNSTMP Project SNSTMP Project (Sperimentazione di un sistema Nazionale di Sicurezza per il Trasporto di Merci Pericolose - Test of a National System for safe Dangerous Good Transportation), funded by the Italian Ministry of Infrastructure and Transportation Ministero delle Infrastrutture e dei Trasporti Direzione Generale per i Sistemi Informativi a collaboration among MIT, Lombardy Region, ENI Group and Politecnico di Milano.

SNSTMP: Trip Code Control Centre Trip Identification Code Trips Control Centre DB Trip Code Number Trip Sheet Web Trip Sheet Information Data entry Fleet manager

SNSTMP: Request of Trip information

SNSTMP: Request of Trip information

SNSTMP Project Test exercise with around 100 vehicles transporting hazardous material in Lombardy equipped with sensors and technologies able to inform the Control Centre about their position on the road network, their speed, the quantity and status of transported material, (warning of the operators in case of anomalies/emergencies). These information are matched with the Risk Analysis results

SNSTMP: Risk Assessment and Mapping Utilità complessiva per GPL 0.0-0.2 - Rischio elevato 0.2-0.4 - Rischio molto alto 0.4-0.6 - Rischio alto 0.6-0.8 - Rischio abbastanza alto 0.8-1.0 - Rischio più che moderato 1.0-1.2 - Rischio moderato 1.2-1.4 - Rischio abbastanzaa moderato 1.4-1.6 - Rischio basso 1.6-1.8 - Rischio molto basso 1.8-2.0 - Rischio quasi nullo LPG Risk Indicators Utilità complessiva per benzina 0.0-0.2 - Rischio elevato 0.2-0.4 - Rischio molto alto 0.4-0.6 - Rischio alto 0.6-0.8 - Rischio abbastanza alto 0.8-1.0 - Rischio più che moderato 1.0-1.2 - Rischio moderato 1.2-1.4 - Rischio abbastanzaa moderato 1.4-1.6 - Rischio basso 1.6-1.8 - Rischio molto basso 1.8-2.0 - Rischio quasi nullo Dynamic Population Real-time Incidents Land use Real-time Traffic Historic Incidents Weather Conditions Historic Traffic FUEL Infomobility services Static

SNSTMP: Emergency Management (alerts) Emergency event: sudden deceleration or inclination of the vehicle Possible Emergency event: excessive speed of the vehicle, excessive temperature of braking system, anomalous parameters of the load (temp., pressure), events indicated by the driver Approaching of sensible stretches (interruptions, tunnels, bad weather) Approaching of congested links or presence of other dangerous goods (infomobility services)

Conclusion The system works (Trip ID, Risk Management, Monitoring and Emergency Management) The number of involved vehicles should grow; Open question: how to handle foreign or non-equipped HGVs; Need for international cooperation and test experiences (exchange of approaches) Need discussion about standardization Ministero delle Infrastrutture e dei Trasporti Direzione Generale per i Sistemi Informativi

The End Thank You for your attention For any questions contact luca.studer@polimi.it Tel: +39 02 23995848 Web-site: www.trasporti.polimi.it