SMaRT | Sand Mitigation around Railway Tracks

Summary
In the last decade, a growing number of railways and other civil or industrial infrastructures have been designed and/or built in arid regions worldwide. The European Railway Industry is often selected for such projects, because of its strong overall know-how.
In arid environmental conditions, windblown sand can have undesired effects on both the safety and the serviceability/ maintenance of railways. Despite efficient Sand Mitigation Measures (SMM) are mandatory, their design and assessment are at their infancy worldwide. Both tasks require innovation and development, by means of transfer of knowledge from base and/or specialist research fields to the Civil Engineering design practice and Railway Industry.
The European Railway Industry competences should be enriched with advanced and specialized knowhow in the SMM field, by means of raise of the quality of knowledge and human capital. Innovative sand mitigation competences should find their place in the production chain of the Railway Industry.
The present Research and Training Programme is inspired by the problem features mentioned above and aims at: • innovating the sand mitigation research field, by:
o a Computational Based Engineering rationale approach to the design of SMM;
o a new approach to the modeling and simulation of the coupled multiphase wind-sand flow around three-dimensional complex orography SMM and railway body;
• training Early Stage Researchers (ESRs), by means of:
o a multidisciplinary doctoral formation because of the nature of the problem;
o an academy-industry intersectoral doctoral formation because of the innovation ability of the former and the stimuli to research coming from the needs of the latter;
o a consortium's layout reflecting the production chain of the railway industry to train the ESRs in a proper “in vitro” replica of the their future real world working context;
• enriching and complementing the competences of the European Railway Industry in a growing market sector.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/721798
Start date: 01-01-2017
End date: 31-12-2020
Total budget - Public funding: 794 224,80 Euro - 794 224,00 Euro
Cordis data

Original description

In the last decade, a growing number of railways and other civil or industrial infrastructures have been designed and/or built in arid regions worldwide. The European Railway Industry is often selected for such projects, because of its strong overall know-how.
In arid environmental conditions, windblown sand can have undesired effects on both the safety and the serviceability/ maintenance of railways. Despite efficient Sand Mitigation Measures (SMM) are mandatory, their design and assessment are at their infancy worldwide. Both tasks require innovation and development, by means of transfer of knowledge from base and/or specialist research fields to the Civil Engineering design practice and Railway Industry.
The European Railway Industry competences should be enriched with advanced and specialized knowhow in the SMM field, by means of raise of the quality of knowledge and human capital. Innovative sand mitigation competences should find their place in the production chain of the Railway Industry.
The present Research and Training Programme is inspired by the problem features mentioned above and aims at: • innovating the sand mitigation research field, by:
o a Computational Based Engineering rationale approach to the design of SMM;
o a new approach to the modeling and simulation of the coupled multiphase wind-sand flow around three-dimensional complex orography SMM and railway body;
• training Early Stage Researchers (ESRs), by means of:
o a multidisciplinary doctoral formation because of the nature of the problem;
o an academy-industry intersectoral doctoral formation because of the innovation ability of the former and the stimuli to research coming from the needs of the latter;
o a consortium's layout reflecting the production chain of the railway industry to train the ESRs in a proper “in vitro” replica of the their future real world working context;
• enriching and complementing the competences of the European Railway Industry in a growing market sector.

Status

CLOSED

Call topic

MSCA-ITN-2016

Update Date

28-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.3. EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions (MSCA)
H2020-EU.1.3.1. Fostering new skills by means of excellent initial training of researchers
H2020-MSCA-ITN-2016
MSCA-ITN-2016