Trans-Risk - An Integrated Method for Risk Management in Transport
Many attempts have been made at risk management integration in other spheres of life. A review of risk management in the modes of transport shows some substantial differences in the terminology and the detailed rules and applications of risk management. As a result, it is important to try and integrate risk management methods in transport. This paper presents the results of the work of an interdisciplinary team working on integrating the methods of risk management. The members represented the four modes of transport listed in the project called Integrated System of Transport Safety ZEUS. The paper presents the background conditions for the integration of risk management in transport and a concept of an integrated method for risk management called TRANS-RISK.
Safety monitoring provides the detection of changes in systems or operations that may suggest any case of approaching a point close to exceeding the acceptable safety standards and indicates whether corrective/prevention actions have been taken. Safety information should be maintained within the scope of transport undertakings to ensure safety and be communicated to all responsible staff, depending on each person’s function in the processes. Regulatory authorities should continuously monitor the implementation of safety management processes and the processes performed by road transport service providers. Safety management, therefore, requires investment in development and modernisation to meet market needs resulting from the mobility of residents, the growth of transport, and the obligations of countries resulting from the transport and environmental policy pursued by the European Union. Along with changes in the transport system, a need to assess their significance for the transport system’s safety arises. Depending on the transport mode (rail, air, water, road), the scope of standardised requirements is quite different each time. The paper analyses the legal requirements and acceptable practices for assessing the significance of the change in all transport modes and develops a standard method for assessing the significance of the change that meets all the requirements of electromobility safety management systems.
Current design processes can be simplified and accelerated if computer simulation based on finite element method (FEM) is used. FEM numerical calculations of different wheels of railway wheelsets are investigated in the Department of Railway Engineering. The justification for undertaking this issue is that there is no methodology in the design of railway wheelsets both in Poland and abroad; there is no possibility of optimizing wheelsets' construction characteristics depending on manufacturing process and service parameters. The analysis of this problem has made possible:(a) comparison of software used so far in strain calculation of railway wheelsets; (b) elaboration of design methodology for railway wheelsets; (c) increase in durability of railway wheelsets; (d) increase in the safety of rail transport; (e) decrease in manufacturing and service costs of railway wheelsets.
Abstract. The railway transport safety is the basic criterion responsible for its functioning evaluation, furthermore, it decides about its efficiency and also about
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