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Original scientific paper

https://doi.org/10.21278/brod68302

MATHEMATICAL MODEL FOR RIVERBOAT DYNAMICS

Aleksander Grm orcid id orcid.org/0000-0002-6386-9251 ; University of Ljubljana, Faculty of maritime studies and transport, Pot pomorščakov 4, Portorož 6320, Slovenia


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Abstract

Present work describes a simple dynamical model for riverboat motion based on the square drag law. Air and water interactions with the boat are determined from aerodynamic coefficients. CFX simulations were performed with fully developed turbulent flow to determine boat aerodynamic coefficients for an arbitrary angle of attack for the air and water portions separately. The effect of wave resistance is negligible compared to other forces. Boat movement analysis considers only two-dimensional motion, therefore only six aerodynamics coefficients are required. The proposed model is solved and used to determine the critical environmental parameters (wind and current) under which river navigation can be conducted safely. Boat simulator was tested in a single area on the Ljubljanica river and estimated critical wind velocity.

Keywords

CFD; quadratic drag law; shallow riverboat; critical wind speed; critical current speed

Hrčak ID:

179354

URI

https://hrcak.srce.hr/179354

Publication date:

30.9.2017.

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