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Physical model research on breaking logs for through the gate filling of new Sint-Baafs-Vijve lock
Vercruysse, J.B.; Verelst, K.; De Mulder, T.; Timmermans, R. (2018). Physical model research on breaking logs for through the gate filling of new Sint-Baafs-Vijve lock, in: 34th PIANC World Congress 2018 in Panama City, Panama: papers. pp. [1-16]
In: (2018). 34th PIANC World Congress 2018 in Panama City, Panama: papers. PIANC: [s.l.]. , meer

Beschikbaar in  Auteurs 
Documenttype: Congresbijdrage

Trefwoorden
    Locks (Waterways)
    Model studies
    Physical models
    België, Leie R., Sint-Baafs-Vijve
    Brak water
Author keywords
    Breaking logs; Gate opening; flow visualization

Auteurs  Top 
  • Vercruysse, J.B., meer
  • Verelst, K., meer
  • De Mulder, T., meer
  • Timmermans, R.

Abstract
    The lift height of most inland navigation locks in the Flemish region of Belgium is limited to 2-3 m. For these locks openings integrated in the lock gate sealed by vertical lift valves or butterfly valves are commonly used as lock levelling system. To improve the spreading and energy dissipation of the filling jets and hence reduce the hydrodynamic forces on the moored ships, breaking logs (also referred to as energy dissipation bars) might be mounted at the downstream side of the gate openings. Beem et al. (2000) provide some Dutch design guidelines. Since the shaping of a gate opening across the thickness of a steel gate and the integration of the valves are somewhat country-specific, it was decided to set up a generic physical model at Flanders Hydraulics Research (Antwerp, Belgium) aiming at determining the effect of breaking logs on the flow inside the lock chamber and optimization of the breaking log configurations adopted in Flanders (Verelst et al., 2016). In this contribution, an account will be given of the specific research carried out in this model during the design of the levelling system of the new lock of Sint-Baafs-Vijve (river Lys, Belgium). During the physical model research, 4 different configurations were tested. For reference purposes, the first configuration did not have any breaking logs. Next, three configurations with respectively 7, 5 and 3 breaking logs were tested. At first the discharge coefficients of the configurations were determined, for valve openings ranging between 20 % and 100 % of the total valve lift height. It turned out that the influence of the breaking logs on the discharge coefficient was negligible for valve openings below 50 % and limited for higher valve openings. Secondly, the effect of breaking logs on the energy dissipation was studied. When adding breaking logs, the spreading of the filling jet increased and the maximum velocity reduced to approximately 60 % of the velocity measured in the core of the jet compared to the configuration without breaking logs. The research revealed that the exact positioning of the breaking logs with respect to the gate opening at the upstream skin plate is more important for the spreading of the filling jets than the amount of blockage of the gate opening at the downstream skin plate. The lowest velocities were achieved with the configuration with 3 breaking logs, which is the configuration with the least blockage of the gate opening at the downstream skin plate.

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