Publication detail
Computational modelling of dynamic loads of a container under viscous interaction with a flat wagon in sea transport
FOMIN, O. LOVSKA, A. PÍŠTĚK, V. KUČERA, P.
English title
Computational modelling of dynamic loads of a container under viscous interaction with a flat wagon in sea transport
Type
conference paper
Language
en
Original abstract
The article deals with the computational modelling of dynamic loads of a container under viscous interaction with a flat wagon transported by a train ferry. The calculation was made with the finite element method in CosmosWorks software. The study defined acceleration fields for the carrying structure of a container and a flat wagon. It was established that the maximum variance percent between the accelerations obtained by theoretical and computational modelling was 17.7 %. The research will contribute to higher efficiency of combined transportation along international transport corridors.
English abstract
The article deals with the computational modelling of dynamic loads of a container under viscous interaction with a flat wagon transported by a train ferry. The calculation was made with the finite element method in CosmosWorks software. The study defined acceleration fields for the carrying structure of a container and a flat wagon. It was established that the maximum variance percent between the accelerations obtained by theoretical and computational modelling was 17.7 %. The research will contribute to higher efficiency of combined transportation along international transport corridors.
Keywords in English
wagon, carrying structure, combined transportation, dynamics, strength.
Released
07.05.2020
Publisher
JVE International
ISSN
2345-0533
Book
Vibroengineering Procedia
Volume
31
Pages from–to
68–73
Pages count
6
BIBTEX
@inproceedings{BUT163934,
author="Oleksij {Fomin} and Alyona {Lovska} and Václav {Píštěk} and Pavel {Kučera},
title="Computational modelling of dynamic loads of a container under viscous interaction with a flat wagon in sea transport",
booktitle="Vibroengineering Procedia",
year="2020",
volume="31",
month="May",
pages="68--73",
publisher="JVE International",
issn="2345-0533"
}