180 likes | 365 Views
HIGH SPEED RAIL ASSESSMENT NORGE. Technical and Safety Analysis December 16th, 2010 Hermann Gitzelmann, Pöyry Infra GmbH. Technical and Safety Analysis – HSR Assessment Norge PÖYRY and partners will perform this task for JERNBANEVERKET.
E N D
HIGH SPEED RAIL ASSESSMENT NORGE Technical and Safety Analysis December 16th, 2010 Hermann Gitzelmann, Pöyry Infra GmbH
Technical and Safety Analysis – HSR Assessment NorgePÖYRY and partners will perform this task for JERNBANEVERKET • PÖYRY is a global consulting and engineering company dedicated to balanced sustainability • 7’000 experts in about 50 countries • More than 30 years of experience in High-Speed Rail • Rolling stock & risk assessment partner is INTERFLEET Technology with consultants from Norway, Sweden, UK and Germany • Norwegian Engineering partner is SWECO • KIT Karlsruhe Institute of TechnologyDepartment of Railway Systems will contribute with their R&D experience Together our team offers international and Norwegian know-how both for High- Speed Rail and railway as a system
Technical and Safety Analysis - Content of Task High Speed Rail Assessment Norge
Technical and Safety Analysis – Subject 1: Technical Solutions Standards EN TSI UIC NRI Rolling stock Infra concepts Alignment Weather Conditions Tilting train Technical track solutions High Speed Rail Assessment Norge
Subject 1 Technical Solutions – HSR Standards • Comparison and Evaluation of Technical Specifications for the Interoperability (TSI) and Norwegian Standards for high-speed railways • Infrastructure • Technical Equipment • Rolling Stock • Operation and Maintenance • Analysis of gaps between European and Norwegian norms and standards • Target: Propose solutions or strategies to close the identified gaps in the Norwegian standards in comparison to the European norms and standards for HSR traffic High Speed Rail Assessment Norge
Subject 1 Technical Solutions - Adverse Weather and Climatic conditions • Evaluation and Description • climatic and weather conditions in Norway • Topographic issues and landslide • Consequences for track and Rolling stock • Evaluation of early warning systems • Target: Presentation of solutions and common procedures in respect to Norwegian weather and climatic conditions High Speed Rail Assessment Norge
Subject 1 Technical Solutions - Technical track solutions • Evaluation and Description for the different track construction types like ballast sleeper tracks and slab track • Overview for different technical solutions influencingthe track system in aspect to: • Specific Norwegian environment • Investment and operation costs • Operational and service parameters • Functional and technical parameters • Target: Presentation of track solutions and parameters as basis for decision on an optimal HSR track system under Norwegian requirements High Speed Rail Assessment Norge
Subject 1 Technical Solutions - Infrastructure concepts / tilting train alignment • Feasibility study for high speed tilting train system • Main alignment parameters • Interaction between alignment and variants (pure HSR / HSR with regional traffic / mixed traffic) • Effects of alignment parameters to structures, safety and control equipment • Conclusion and recommendation to alignment parameters for non-tilting and tilting train systems • Case study of HSR experiences with tilting train systems in other countries • Interviews with operators and suppliers • Conclusions from the gathered information: Importance of tilting trains in the development of railway networks Infrastructure upgrading vs. use of tilting trains Reliability of tilting trains • Target: Presentation of solutions and parameters as basis for decision on an optimal HSR train system under Norwegian requirements High Speed Rail Assessment Norge
Subject 1 Technical Solutions - Rolling stock • Evaluation of critical parameters for the train concept • Define technical requirements and assumptions related to the rolling stock to be used for high-speed railways in Norway • Listing and description of existing/future train concepts • Target: Propose the right requirements for rolling stock and an evaluation model for different train concepts High Speed Rail Assessment Norge
Subject 2 Risk Assessment and Analysis Safety Process, Overview Objectives of the risk-process: • Definition of agreed risk tolerability criteria • Identification of all relevant system-hazards • Analysis of consequences • Derivation of Tolerable Hazard Rates (THR) at system-level High Speed Rail Assessment Norge
Subject 2: RISK ASSESSMENT AND -ANALYSIS • Definition of risk acceptance criteria • ERA (European Railway Agency) approach according to the regulation No. 352/2009 of the commission of the European community • Risk Level • Severity Level • Frequency of hazardous event • Calibration of risk matrix • Safety barrier • Propose the appliance of an explicit risk estimation and harmonized Risk Acceptance Criteria for Technical Systems (RAC-TS) High Speed Rail Assessment Norge
Subject 2: RISK ASSESSMENT AND -ANALYSIS • Hazard Identification Process • System boundary • Interfaces • System functions • Scenarios • Hazard List High Speed Rail Assessment Norge
Subject 2: RISK ASSESSMENT AND -ANALYSIS • Hazard Identification / Top Events resp. Accidents: • Derailment • Collision train-train • Collision train object • Fire • Passenger injured at platform • Person injured at level crossing • Person injured at track side High Speed Rail Assessment Norge
Derivation of Tolerable Hazard Rates at the level of system-functions After the identification of all hazards and the correlation of severity level the definition of tolerable hazard rates can apply using RAC-TS. The result of this phase is the complete list of all hazards and their related tolerable hazard rates. List of Hazards and related qualitative severity List of Hazards and related tolerable Hazard rates (THR) Subject 2 Risk Assessment and Analysis High Speed Rail Assessment Norge
Subject 3 Safety and security analysis • Future risk level of public transport with present means of transport vs. future HSR transport • 1. Determine the current transport safety level and development • 2. Estimate future distributions between types of transport means • 3. Estimate the future passenger safety including high-speed operations • 4. Present changes in risk and consequences of the change • Uncertainty analysis is fundamental to the decision-making process => guidance on what safety factors to improve in order to increase the difference = benefits in future transportation systems High Speed Rail Assessment Norge
Subject 3 Safety and security analysis • CURRENT SAFETY SITUATION • Railway transport • Road transport • Air transport • Boat transport • Assessment of total safety • METHODOLOGY • Model description • Scenarios • Input data • Uncertainty assessment • RESULTS • Change in transport safety of transport modes • Total change in transport safety for studied scenarios • Uncertainty analysis High Speed Rail Assessment Norge
Contact: Pöyry Infra GmbH Hermann Gitzelmann Telefon +49 7621 9300 - 0 Hermann.gitzelmann@poyry.com Interfleet Technology Karin Johansson Telefon +47 22340500 Karin.johansson@interfleet.no High Speed Rail Assessment Norge