API src

Found 2 results.

Enhanced co-operation between EU member states and associated candidate states in maritime research on transport (ENCOMAR - TRANSPORT)

Das Projekt "Enhanced co-operation between EU member states and associated candidate states in maritime research on transport (ENCOMAR - TRANSPORT)" wird vom Umweltbundesamt gefördert und von Center of Maritime Technologies e.V. durchgeführt. Objective: ENCOMAR-TRANSPORT aims to improve co-operation between the new member states, applicant countries as well as Russia, Ukraine and Turkey in the maritime fields. ENCOMAR-TRANSPORT has two general strategic objectives:- to support the integration of the new member states, applicant countries, Russia, Ukraine and Turkey into the European Maritime Research Area, thus supporting EU policies and the formation of ERA- to support the goals defined in the maritime part of the Sustainable Surface Priority of the 6 th Framework Programme. To support integration, ENCOMAR-TRANSPORT will help to jointly use R&D potentials and resources.ENCOMAR-TRANSPORT will promote a culture of innovation and fertilize participation of SMEs in European research. Technically, enhan ced exchange of information, technology transfer and research cooperation initiated by the project will help to meet demands of European transport policy and to the objectives of the sustainable surface transportpriority. Particular focus will be on:- S hipbuilding and -repair, including ship equipment manufacturers and maritime service providers,- Waterborne (long-haul, short sea and inland waters) transport in Europe.- Maritime Transport safety will especially focus on transport of dangerous goods to a void environmental- hazards in European waters, the Baltic and Mediterranean and Black Sea.- Efficient transport of marine natural resources is in the focus as well. The following activities will be undertaken:- Creation of a Network of Maritime R&D N ational Contact Points.- Inform about potentials and activities of European research in the new member states and neighbours of the EU by workshops in those countries. Inform research community and industry about the potential of countries not yet integra ted in European research.

Catenary Interface Monitoring Coherent sensing technology for electrical railway infrastructure and rolling stock for interoperable cross boundary transportation (CATIEMON)

Das Projekt "Catenary Interface Monitoring Coherent sensing technology for electrical railway infrastructure and rolling stock for interoperable cross boundary transportation (CATIEMON)" wird vom Umweltbundesamt gefördert und von Siemens AG durchgeführt. Objective: In a deregulated EU rail market monitoring of the vehicle and infrastructure interface is mandatory for enhanced availability of operation reducing costs. Especially when a rolling stock is crossing boundaries between independent infrastructure grids, cond ition monitoring becomes crucial. A monitoring tool on OCLs overhead contact lines - for infrastructure managers is needed for an separate measurement of contact force and surface condition of the vehicle current strip. The rolling stock operator needs a complementary device to measure not only the vertical contact force, but moreover the friction force, in order to analyse the vehicle and OCL interface condition. In SMITS a monitoring system for contact force on the interface current collector lt;- gt; c ontact wire has been developed. A sensor technology has been started to explore showing the potential for an extended range of rail monitoring tools. An innovative coherent sensor technology approach shall be investigated and two independent monitoring too ls for vehicle and infrastructure be developed. These shall be validated at new rail tracks specified for TSI interoperable cross boundary transportation: the Ltschberg Basis Tunnel, CH and the HSL Zuid high speed line, NL, both ready for operation in 2007 . Demonstration tests in operation will be performed along the Korridor X infrastructure passing through different countries rail networks. The outcome of the project will enable managers to specify driving conditions for the usage of their infrastructure to avoid excessive wear improving availability. Complementary rolling stock operators can monitor OCL condition giving them an informative argument in case of damage. Condition-dependent user fees as well as threat of penalty will force vehicle and infrast ructure managers to maintain the vehicle and infrastructure interface on a superior level of availability. The operational costs will be reduced and availability of transportation capacity enhanced.

1