Detail publikace

Quantification of hydrodynamic load on the bridge deck using numerical simulations

ŠPANO, M. DRÁB, A.

Originální název

Quantification of hydrodynamic load on the bridge deck using numerical simulations

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

angličtina

Originální abstrakt

The article summarises results of research aimed at determination of hydrodynamic load using numerical simulations and their verification on physical model. The practical application was performed on a simple rectangular bridge with adjacent sidewalks. Hydrodynamic load on the bridge deck was separated into three actions. Those are the drag force, lift force, and bedding moment at the centre of gravity of the bridge deck. Hydrodynamic load was expressed via dimensionless resistance coefficients that correspond to combination of the flow properties and determined (measured and calculated) forces. Results of the research show quite good agreement in case of mean value of drag and lift force. In case of bedding moment the agreement was found in absolute value of the moment but not in direction.

Klíčová slova

hydrodynamic load, bridge, drag force, lift force, bedding moment, resistance coefficients.

Autoři

ŠPANO, M.; DRÁB, A.

Rok RIV

2015

Vydáno

8. 9. 2015

Nakladatel

Litera Brno

Místo

Brno, CZ

ISBN

978-80-214-5230-5

Kniha

14th Water Management and Hydraulic Engineering 2015 (WHME)

ISSN

2410-5910

Periodikum

WATER MANAGEMENT AND HYDRAULIC ENGINEERING

Ročník

2015

Číslo

1

Stát

Česká republika

Strany od

95

Strany do

103

Strany počet

8

BibTex

@inproceedings{BUT116669,
  author="Miroslav {Špano} and Aleš {Dráb}",
  title="Quantification of hydrodynamic load on the bridge deck using numerical simulations",
  booktitle="14th Water Management and Hydraulic Engineering 2015 (WHME)",
  year="2015",
  journal="WATER MANAGEMENT AND HYDRAULIC ENGINEERING",
  volume="2015",
  number="1",
  pages="95--103",
  publisher="Litera Brno",
  address="Brno, CZ",
  isbn="978-80-214-5230-5",
  issn="2410-5910"
}