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Understanding the Stability of Passenger Vehicles Exposed to Water Flows through 3D CFD Modelling

Author

Listed:
  • Ebrahim Hamid Hussein Al-Qadami

    (Eco Hydrology Technology Research Centre (Eco-Hytech), Faculty of Civil Engineering and Built Environment, Universiti Tun Hussein Onn Malaysia, Parit Raja 86400, Malaysia)

  • Mohd Adib Mohammad Razi

    (Eco Hydrology Technology Research Centre (Eco-Hytech), Faculty of Civil Engineering and Built Environment, Universiti Tun Hussein Onn Malaysia, Parit Raja 86400, Malaysia)

  • Wawan Septiawan Damanik

    (Department of Mechanical Engineering, Universitas Muhammadiyah Sumatera Utara, Jl. Mukhtar Basri No. 3, Medan 20238, Indonesia)

  • Zahiraniza Mustaffa

    (Department of Civil and Environmental Engineering, Universiti Teknologi PETRONAS, Seri Iskandar 32610, Malaysia)

  • Eduardo Martinez-Gomariz

    (Department of Civil and Environmental Engineering, Flumen Research Institute, Universitat Politècnica de Catalunya, 08034 Barcelona, Spain)

Abstract

A vehicle exposed to flooding may lose its stability and wash away resulting in potential injuries and fatalities. Traffic disruption, infrastructure damage, and economic losses are also additional effects of the washed vehicles. Therefore, understanding the responses of passenger vehicles during flood events is of the utmost importance to reduce flood risks and develop accurate safety guidelines. Previously, flooded vehicle stability was investigated experimentally, theoretically, and numerically. However, numerical investigations are insufficient, of which only a few studies have been published since 1967. Furthermore, coupled motion simulations have not been employed to investigate the hydrodynamic forces on flooded vehicles. In this paper, a numerical framework was proposed to assess the response of a full-scale medium-size passenger vehicle exposed to floodwaters through three-dimensional computational fluid dynamic modelling. The vehicle was simulated under subcritical and supercritical flows with the Froude number ranging between 0.09 and 2.46. The results showed that the vehicle experienced the floating instability mode once the flow depth reached 0.38 m, while the sliding instability mode was observed once the d e p t h × v e l o c i t y threshold function exceeded 0.36 m 2 /s. In terms of hydrodynamic forces, it was noticed that the drag force decreased with the increment of the Froude number and flow velocity. On the other hand, the fraction and buoyancy forces are mainly governed by the flow depth at the vehicle vicinity. The drag coefficient was noticed to be less than 1 for supercritical flows and more than 1 for subcritical flows. The numerical results obtained through the framework introduced in this study demonstrate favorable agreement with three different previously published experimental outcomes.

Suggested Citation

  • Ebrahim Hamid Hussein Al-Qadami & Mohd Adib Mohammad Razi & Wawan Septiawan Damanik & Zahiraniza Mustaffa & Eduardo Martinez-Gomariz, 2023. "Understanding the Stability of Passenger Vehicles Exposed to Water Flows through 3D CFD Modelling," Sustainability, MDPI, vol. 15(17), pages 1-20, September.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:17:p:13262-:d:1232737
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    References listed on IDEAS

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    1. Nauman Riyaz Maldar & Cheng Yee Ng & Lee Woen Ean & Elif Oguz & Ahmad Fitriadhy & Hooi Siang Kang, 2020. "A Comparative Study on the Performance of a Horizontal Axis Ocean Current Turbine Considering Deflector and Operating Depths," Sustainability, MDPI, vol. 12(8), pages 1-22, April.
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