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Trash racks and fish diversion screens: literature Study and workedout examples
López Castaño, S.; Vercruysse, J.; Visser, K.P. (2022). Trash racks and fish diversion screens: literature Study and workedout examples. Version 3.0. FHR reports, 21_016_1. Flanders Hydraulics Research: Antwerp. VII, 36 + app. pp. https://dx.doi.org/10.48607/70
Part of: FHR reports. Flanders Hydraulics Research: Antwerp, more
Trash racks and fish diversion screens: literature Study and workedout examples

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Document type: Project report

Keywords
    Hydraulic structures > Culverts
    Hydraulic structures > Fishpasses > Fish pass entrance and attraction
    Hydraulic structures > Pumps and turbines
    Literature and desktop study
Author keywords
    Trash racks

Project Top | Authors 
  • Literatuurstudie over vuilroosters, more

Contact details

Proposer: Vlaamse overheid; Beleidsdomein Leefmilieu, Natuur en Energie; Vlaamse Milieumaatschappij (VMM), more


Authors  Top 
  • López Castaño, S., more
  • Vercruysse, J.B., more
  • Visser, K.P., more

Abstract
    The first part of this work is an explorative review of the state-of-practice regarding the dimensioning of trash racks in culverts and pump/turbine intakes. A historic review of the use of trash racks in channels, their types, the classification of debris and the processes that produce debris, are explained. Relevant methodologies for the prediction of yearly amounts of debris, and for the dimensioning of the trash screens, bar dimensions, and for bar spacings is given. The limitations of these classical methodologies are thoroughly discussed and put into context through worked-out examples. These examples are thought to be representative for the theory being discussed and applicable to problems of relevance in Flanders.

    The second part of this work proposes a change in perspective regarding trash racks/screens in culverts and pump intakes: from trapping debris to divert/exclude towards a bypass, using screens. This proposal is made in an attempt to remedy the shortcomings in the methodologies needed to calculate the yearly amount of debris that may accumulate on the trash rack, the blockage percentage resulting from the dimensioning of the bar spacings, and the oversizing of the trash racks in case of clogging. Worked-out examples are also given there.

    The third part of this work is dedicated to discuss the issue of fish migration/diversion/exclusion at intakes and channels in relation to the design of screens. The techniques presented for trash rack bar spacing dimensioning for culverts are usually favourable for fish migration (that is, the spacings are at least as big as the spacings required for fish migration) but, in general, this is not the only requirement for fish migration: hydrodynamics, and many other stressors, may deter fish from passing through the screen, regardless of the bar spacing. On the other hand, the dimensioning of screens for fish exclusion/diversion seldom agrees with the classical dimensioning techniques discussed in the first part, thus a brief discussion on behavioural fish exclusion facilities are made in order to put this contrasting ideas into context. Worked-out examples are also given here.

    The last part presents a short discussion over the different approaches presented and gives recommendations for future studies related to the dimensioning of in-channel screens. It is important to mention that a dedicated manual for the dimensioning of screens lacks in Flanders. Hopefully, this text may serve as a sketch for a manual for the design of in-channel screens for the region of Flanders. For rapid access and use of the classical methods herein proposed, the author suggests to review section 2.1 and in particular Table 3 for a rapid dimensioning of the trash screen area given a yearly amount of debris that may travel with the flow, or just by using the intake’s area. The dimensioning of the trash rack bar spacings can be made using Figure 7; and in case an estimation of the flow velocities are needed then Figure 6 may come in handy. The bar spacing dimensions and flow velocities must be revised against the recommended values for fish migration/exclusion given in Table 5 and in Table 6. The latter tables can be used directly for the estimation of the bar spacings, in case information about the flow conditions is scarse. A workflow for the design of trash screens is presented in Figure 22, following the discussions held in the text.

    Lastly, the word ‘trashrack’ and ‘screen’ will be used indifferently thorough this text. In principle, a ‘trashrack’ is a particular type of ‘screen’ but in the context of floating debris collection/diversion they mean the same.


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