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Professor Hubert Chanson
Professor

Hubert Chanson

Email: 
Phone: 
+61 7 336 53516

Overview

Background

Hubert Chanson is Professor of Civil Engineering at the University of Queensland, where he has been since 1990, having previously enjoyed an industrial career for six years. His main field of expertise is environmental fluid mechanics and hydraulic engineering, both in terms of theoretical fundamentals, physical and numerical modelling. He leads a group of 5-10 researchers, largely targeting flows around hydraulic structures, two-phase (gas-liquid and solid-liquid) free-surface flows, turbulence in steady and unsteady open channel flows, using computation, lab-scale experiments, field work and analysis. He has published over 1,250 peer reviewed publications including two dozen of books. He serves on the editorial boards of International Journal of Multiphase Flow, Flow Measurement and Instrumentation, and Environmental Fluid Mechanics, the latter of which he is currently a senior Editor. He chaired the Organisation of the 34th IAHR World Congress in June 2011 and of the 22nd Australasian Fluid Mechanics Conference in December 2020, both held in Brisbane, Australia.

Availability

Professor Hubert Chanson is:
Available for supervision
Media expert

Qualifications

  • Doctor of Philosophy, University of Canterbury
  • Doctoral Diploma of Engineering, The University of Queensland
  • Postgraduate Diploma of Nuclear Engineering, Institut National des Sciences et Techniques Nucleaires

Research interests

  • Industrial Two-Phase Flows

    In high-velocity turbulent flows, air bubbles are entrained at the free surface. This process (self-aeration) is caused by the turbulent velocity fluctuations acting next to the free surfaces. The presence of air within the flow increases the bulk of the flow, modifies the momentum shear layers and enhances the air-water gas transfer. The project is based upon new experimental investigations using large-scale experiments. The results enable a better understanding of the fluid mechanics of free-surface air-water flows.

  • Estuarine processes

    Investigation of the hydrodynamics and turbulent mixing in estuarine zones, under micro- and macro-tidal conditions. Field works. Computational Fluid Dynamics (CFD), Physical modelling.

  • Mixing and dispersion in rivers and estuaries

    Turbulent mixing in small estuaries with application to water quality modeling

  • Engineering heritage

    History of technology. Historical development of hydraulic engineering and structures, includings dams, spillways, weirs, culverts ...

  • Non-Newtonian fluid dynamics

    Experimental and theoretical study of non-Newtonian fluid flows, including thixotropic fluid flows, dam break, debris flows.

  • Open Channel Flow and Hydraulic Engineering

    Open channel flows are encountered in a wide range of applications from large rivers to roof gutters including irrigation channels. New research investigations include the hydraulic jump flows, undular flows, weir overflow, stepped cascades and supercritical flows. Applications to hydraulic structures cover high-head spillways, stepped chutes, rubber dams, stilling basins and water quality prediction.

  • Hydraulic structures

    Design and operation of spillway systems, incl. high head structures, large dams and overflow sections.

  • Air entrainment in hydraulic structures and industrial applications

    Study of air entrainment and air-water flows in hydraulics structures, hydraulic systems, re-aeration plants and water treatment systems.

  • Tidal bores

    A tidal bore is a surge of water propagating upstream in an estuarine zone when the tidal flow turns to rising and rushes into a funnel shaped river mouth with shallow waters. The bore forms typically during the early flood tide when the tidal range exceeds 4-6 m and the estuary bathymetry amplifies the tidal range with a low freshwater level. Worldwide it is believed that over 450 estuaries are affected by a tidal bore, on all continents except Antarctica. The interactions between tidal bores and mankind are complex. Tidal bores can be dangerous, impacting adversely on man-made structures and endangering lives. They can be also a major touristic and sport attraction. The aim of this research is to characterise the turbulent properties of bore fronts including the coupling between free-surface and velocity fluctuations, and impacts on sedimentary processes and ecology.

Research impacts

Hubert Chanson's publication record includes over 1250 international refereed papers and his work was cited over 6,500 times (WoS) to 22,500 times (Google Scholar) since 1990. His h-index is 43 (WoS), 47 (Scopus) and 75 (Google Scholar). Hubert Chanson has been active also as consultant for both governmental agencies and private organisations, and he delivered numerous invited keynotes worldwide. He chaired the Organisation of the 34th IAHR World Congress in Brisbane, Australia in June 2011 which attracted over 850 participants from more than 45 countries, and the Organisation of the 22nd Australasian Fluid Mechanics Conference in Brisbane, Australia in December 2020 which attracted over 250 participants, despite the COVID-19 pandemic.

His Internet home page is {http://www.uq.edu.au/~e2hchans}. He also developed a gallery of photographs website {http://www.uq.edu.au/~e2hchans/photo.html} that received more than 2,000 hits per months since inception. His open access publication webpage is the most downloaded publication record at the University of Queensland: {http://espace.library.uq.edu.au/list.php?browse=author&author_id=193}.

Works

Search Professor Hubert Chanson’s works on UQ eSpace

914 works between 1988 and 2024

1 - 20 of 914 works

Featured

2012

Book

Tidal bores, Aegir, Eagre, Mascaret, Pororoca: theory and observations

Chanson, Hubert (2012). Tidal bores, Aegir, Eagre, Mascaret, Pororoca: theory and observations. Singapore, Republic of Singapore: World Scientific Publishing. doi: 10.1142/9789814335423_fmatter

Tidal bores, Aegir, Eagre, Mascaret, Pororoca: theory and observations

Featured

2009

Book

Applied Hydrodynamics: An Introduction to Ideal and Real Fluid Flows

Chanson, Hubert (2009). Applied Hydrodynamics: An Introduction to Ideal and Real Fluid Flows. Leiden, The Netherlands: CRC Press, Taylor & Francis Group.

Applied Hydrodynamics: An Introduction to Ideal and Real Fluid Flows

Featured

2004

Book

The Hydraulics of Open Channel Flow: An Introduction

Chanson, Hubert (2004). The Hydraulics of Open Channel Flow: An Introduction. 2nd ed. United Kingdom: Elsevier Butterworth-Heinemann.

The Hydraulics of Open Channel Flow: An Introduction

2024

Journal Article

Anchor chains-A simple low-cost device to assist passage of small-bodied mass fish

Harley, Jason, Wong, Hui Ling and Chanson, Hubert (2024). Anchor chains-A simple low-cost device to assist passage of small-bodied mass fish. River Research and Applications, 40 (10), 1954-1970. doi: 10.1002/rra.4347

Anchor chains-A simple low-cost device to assist passage of small-bodied mass fish

2024

Journal Article

Low-head hydraulic structures in irrigation and drainage engineering: challenging operation and design implications

Chanson, Hubert (2024). Low-head hydraulic structures in irrigation and drainage engineering: challenging operation and design implications. Journal of Irrigation and Drainage Engineering, 150 (5) 03124001. doi: 10.1061/jidedh.ireng-10288

Low-head hydraulic structures in irrigation and drainage engineering: challenging operation and design implications

2024

Journal Article

Acoustic doppler velocimetry in transient free-surface flows: field and laboratory experience with bores and surges

Chanson, Hubert and Leng, Xinqian (2024). Acoustic doppler velocimetry in transient free-surface flows: field and laboratory experience with bores and surges. Journal of Hydraulic Engineering, 150 (5) 04024034. doi: 10.1061/jhend8.hyeng-14018

Acoustic doppler velocimetry in transient free-surface flows: field and laboratory experience with bores and surges

2024

Journal Article

Corrigendum to “Self-aeration on large dam spillways during major floods” [J. Hydro-Environ. Res. 54 (2024) 26–36]

Chanson, Hubert (2024). Corrigendum to “Self-aeration on large dam spillways during major floods” [J. Hydro-Environ. Res. 54 (2024) 26–36]. Journal of Hydro-environment Research, 56, 16-16. doi: 10.1016/j.jher.2024.07.001

Corrigendum to “Self-aeration on large dam spillways during major floods” [J. Hydro-Environ. Res. 54 (2024) 26–36]

2024

Journal Article

Self aeration and energy dissipation on a steep stepped chute: how does physical modelling compare to prototype observations?

Chanson, Hubert and Hu, Jiayue (2024). Self aeration and energy dissipation on a steep stepped chute: how does physical modelling compare to prototype observations?. Environmental Fluid Mechanics, 24 (3), 465-488. doi: 10.1007/s10652-024-10001-5

Self aeration and energy dissipation on a steep stepped chute: how does physical modelling compare to prototype observations?

2024

Journal Article

Downstream fish passage on dam spillway: Low fish mortality rate at Paradise Dam stepped spillway

Chanson, Hubert and Gonzalez, Carlos (2024). Downstream fish passage on dam spillway: Low fish mortality rate at Paradise Dam stepped spillway. Ecological Engineering, 204 107267, 107267. doi: 10.1016/j.ecoleng.2024.107267

Downstream fish passage on dam spillway: Low fish mortality rate at Paradise Dam stepped spillway

2024

Conference Publication

Self-Aeration and Energy Dissipation on Concrete Gravity Dam Stepped Spillway: Hybrid Modelling Mark II

Chanson, Hubert and Hu, Jiayue (2024). Self-Aeration and Energy Dissipation on Concrete Gravity Dam Stepped Spillway: Hybrid Modelling Mark II. 10th International Symposium on Hydraulic Structures 2024 – 10th ISHS, Zurich, Switzerland, 17-19 June 2024. Zurich, Switzerland: ETH-Zurich. doi: 10.3929/ethz-b-000675997

Self-Aeration and Energy Dissipation on Concrete Gravity Dam Stepped Spillway: Hybrid Modelling Mark II

2024

Conference Publication

Scaling Non-Linearities at Circular Crested Weirs: Physical Modelling & Challenges

Chanson, Hubert (2024). Scaling Non-Linearities at Circular Crested Weirs: Physical Modelling & Challenges. 10th International Symposium on Hydraulic Structures 2024 – 10th ISHS, Zurich, Switzerland, 17-19 June 2024. Zurich, Switzerland: ETH Zurich. doi: 10.3929/ethz-b-000675941

Scaling Non-Linearities at Circular Crested Weirs: Physical Modelling & Challenges

2024

Journal Article

Modelling spillway and weir operation during major overflows. On optical measurements in prototypes: pros and cons

Chanson, H. and Shi, R. (2024). Modelling spillway and weir operation during major overflows. On optical measurements in prototypes: pros and cons. Flow Measurement and Instrumentation, 98 102643, 102643. doi: 10.1016/j.flowmeasinst.2024.102643

Modelling spillway and weir operation during major overflows. On optical measurements in prototypes: pros and cons

2024

Journal Article

Two-phase air-water measurements in fully-rough free-surface flows

Hu, Jiayue and Chanson, Hubert (2024). Two-phase air-water measurements in fully-rough free-surface flows. Experimental Thermal and Fluid Science, 155 111173, 111173. doi: 10.1016/j.expthermflusci.2024.111173

Two-phase air-water measurements in fully-rough free-surface flows

2024

Journal Article

Self-aeration on large dam spillways during major floods

Chanson, Hubert (2024). Self-aeration on large dam spillways during major floods. Journal of Hydro-environment Research, 54, 26-36. doi: 10.1016/j.jher.2024.03.002

Self-aeration on large dam spillways during major floods

2024

Journal Article

Momentum and energy considerations in self-aerated free-surface flows

Chanson, Hubert and Aroquipa Nina, Yva (2024). Momentum and energy considerations in self-aerated free-surface flows. Environmental Fluid Mechanics, 24 (2), 183-202. doi: 10.1007/s10652-024-09978-w

Momentum and energy considerations in self-aerated free-surface flows

2024

Journal Article

Near-full-scale hydraulic modeling of fish-friendly culvert with full-height sidewall baffles

Hu, Jiayue, Li, Youkai and Chanson, Hubert (2024). Near-full-scale hydraulic modeling of fish-friendly culvert with full-height sidewall baffles. Journal of Hydraulic Engineering, 150 (4) 04024010, 1-11. doi: 10.1061/JHEND8.HYENG-13752

Near-full-scale hydraulic modeling of fish-friendly culvert with full-height sidewall baffles

2024

Journal Article

Application of high-level Green–Naghdi theory to sill-controlled flows

Castro-Orgaz, Oscar, Gamero-Ojeda, Pedro P., Cantero-Chinchilla, Francisco N., Morales de Luna, Tomás and Chanson, Hubert (2024). Application of high-level Green–Naghdi theory to sill-controlled flows. Environmental Fluid Mechanics, 24 (1), 19-56. doi: 10.1007/s10652-023-09962-w

Application of high-level Green–Naghdi theory to sill-controlled flows

2023

Other Outputs

Paradise Dam Downstream Fishway and Spillway Monitoring Program 2010 - A commentary on downstream fish passage on dam spillway and low fish mortality rate

Chanson, Hubert (2023). Paradise Dam Downstream Fishway and Spillway Monitoring Program 2010 - A commentary on downstream fish passage on dam spillway and low fish mortality rate. Civil Engineering Research Reports Brisbane, QLD, Australia: The University of Queensland, School of Civil Engineering. doi: 10.14264/fceda3a

Paradise Dam Downstream Fishway and Spillway Monitoring Program 2010 - A commentary on downstream fish passage on dam spillway and low fish mortality rate

2023

Journal Article

Experiments on two-phase flow in hydraulic jump on pebbled rough bed: part 1–turbulence properties and particle chord time and length

Bahmanpouri, Farhad, Gualtieri, Carlo and Chanson, Hubert (2023). Experiments on two-phase flow in hydraulic jump on pebbled rough bed: part 1–turbulence properties and particle chord time and length. Water Science and Engineering, 16 (4), 359-368. doi: 10.1016/j.wse.2023.05.002

Experiments on two-phase flow in hydraulic jump on pebbled rough bed: part 1–turbulence properties and particle chord time and length

2023

Journal Article

Effect of probe size on phase-detection probe measurements of air-water flow properties in hydraulic jumps

Shi, Rui, Wüthrich, Davide and Chanson, Hubert (2023). Effect of probe size on phase-detection probe measurements of air-water flow properties in hydraulic jumps. Flow Measurement and Instrumentation, 94 102479, 1-9. doi: 10.1016/j.flowmeasinst.2023.102479

Effect of probe size on phase-detection probe measurements of air-water flow properties in hydraulic jumps

Funding

Current funding

  • 2023 - 2026
    Diving into the Desert. Indigenous and Future Floodplain Management
    ARC Linkage Projects
    Open grant

Past funding

  • 2019 - 2022
    Understanding pollutant transport in estuaries and coastal rivers (ARC Discovery Project administered by the Queensland University of Technology)
    Queensland University of Technology
    Open grant
  • 2019 - 2020
    Fish Passage Culvert Research - Upstream fish passage in standard box culvert hydraulic engineering
    Queensland Department of Transport and Main Roads
    Open grant
  • 2017 - 2018
    Hydrodynamics of stepped spillways: energy dissipation and reaeration performances
    Universities Australia - Germany Joint Research Co-operation Scheme
    Open grant
  • 2015 - 2019
    Designing effective fish-friendly waterway culverts: integration of hydrodynamics and swimming performance
    ARC Linkage Projects
    Open grant
  • 2012 - 2016
    Optimum design of hydraulic structures in rural and urban Australia: dealing with floods and droughts
    ARC Discovery Projects
    Open grant
  • 2011 - 2014
    A study of turbulence and influence of anthropogenic inputs in small subtropical estuaries
    ARC Linkage Projects
    Open grant
  • 2008 - 2010
    Turbulence and energy dissipation in stepped spillways and urban drainage systems
    ARC Discovery Projects
    Open grant
  • 2003 - 2006
    A Basic Study of Mixing and Dispersion in Riverine and Estuarine Systems in South-East Queensland
    ARC Linkage Projects
    Open grant
  • 2003 - 2004
    A Basic Study of Mixing and Dispersion in Estuarine Zones
    Australian Academy of Science
    Open grant
  • 2000
    Acoustic signature measurement: application to industrial multiphase flows.
    ARC Australian Research Council (Small grants)
    Open grant
  • 1997
    Collaborative visit to Laboratoire de Mecanique des Fluides et Acoustique Ecole Centrale de Lyon, France
    UQ Travel Grants Scheme
    Open grant

Supervision

Availability

Professor Hubert Chanson is:
Available for supervision

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Available projects

  • Turbulence and energy dissipation on stepped spillways

    In recent years, the design floods of a number of dams were re-evaluated and the revised flows were often larger than those used for the original designs. In many cases, occurrence of the revised design floods would result in dam overtopping because of the insufficient storage and spillway capacity of the existing reservoir. A number of overtopping protection systems were developed for embankments and earthfill dams. These include concrete overtopping protection systems, timber cribs, sheet-piles, riprap and gabions, reinforced earth, Minimum Energy Loss weirs, and the precast concrete block protection systems developed by the Russian engineers (http://www.uq.edu.au/~e2hchans/over_st.html). Recent studies demonstrated a strong correlation between air entrainment, stepped chute hydrodynamics and turbulence. The findings imply that the rate of energy dissipation on stepped spillways might be drastically affected by the interactions between entrained air and flow turbulence.

  • Tidal bore processes in estuaries

    When a river mouth has a flat, converging shape and when the tidal range exceeds 6 to 9 m, the river may experience a tidal bore (http://www.uq.edu.au/~e2hchans/tid_bore.html). A tidal bore is basically a series of waves propagating upstream as the tidal flow turns to rising. It is a positive surge. As the surge progresses inland, the river flow is reversed behind it. The best historically documented tidal bores are probably those of the Seine river (France) and Qiantang river (China). The mascaret of the Seine river was documented first during the 7th and 9th centuries AD, and in writings from the 11th to 16th centuries (http://www.uq.edu.au/%7Ee2hchans/mascaret.html). It was locally known as "la Barre". The Qiantang river bore, also called Hangzhou bore, was early mentioned during the 7th and 2nd centuries BC, and it was described in 8th century writings. The bore was then known as "The Old Faithful" because it kept time better than clocks. A tidal bore on the Indus river might have wiped out the fleet of Alexander the Great. Another famous tidal bore is the "pororoca" of the Amazon river observed by Pinzon and La Condamine in the 16th and 18th centuries respectively. The Hoogly (or Hooghly) bore on the Gange was documented in 19th century shipping reports. Smaller tidal bores occur on the Severn river near Gloucester, England, on the Garonne and Dordogne rivers, France, at Turnagain Arm and Knik Arm, Cook Inlet (Alaska), in the Bay of Fundy (at Petitcodiac and Truro), on the Styx and Daly rivers (Australia), and at Batang Lupar (Malaysia). In the present study, physical modelling will be used to reprodduced full-scale observations and to gain new insights in the unsteady hydrodynaics. The results will provide some new understanding of mixing processes in tidal-bore-affected estuaries.

  • Turbulence in unsteady rapidly-varied open channel flows

    In water supply channels, the brusque operation of control gates may induce large unsteady flow motion called surges. Such a rapid operation of gates must often be restricted, although it may be conducted to scour silted channels and sewers. Herein a physical study will be conducted under controlled flow conditions to study the turbulent mixing in the very-close vicinity of a rapidly opening/closing gate, with a focus on the unsteady transient mixing induced by the gate operation. The processes are associated with large Reynolds stress levels. A succession of rapid closure and opening of undershoot gates may provide optimum conditions to scour silted canals, and the present study will provide some detailed insights into the physical processes.

  • Hydrodynamics of fish-friendly culverts

    Man-made instream structures (e.g. dams and road crossings) have contributed to major declines in native fish numbers, with > 6,000 barriers to fish migration occurring in NSW alone. Recognising this, this project will integrate data on the swimming ability of Australian fish species with culvert hydraulic modelling to better understand fish requirements in and around road crossings. These data will strengthen national design guidelines and provide the tools engineers and planners need to balance fish migration with effective water management.

    This project will provide data on the ability of Australian fish to successfully ascend through road crossings (culverts). These data will be used to develop National recommendations for ‘fish-friendly’ road crossing designs which better integrate the requirements of native fish with the need for cost-effective water management around roads.

  • Turbulence, energy dissipation and air entrainment in hydraulic Jumps

    In an open channel, the transformation from a supercritical flow into a subcritical flow is a rapidly varied flow with large turbulent fluctuations, intense air entrainment, and substantial energy dissipation called a hydraulic jump. New experiments will be conducted to quantify its fluctuating characteristics in terms of free-surface and two-phase flow properties for a wide range of Froude numbers at relatively large Reynolds numbers. Although te time-averaged free-surface profile presents a self-similar profile, the longitudinal movements of the jump will be documented, for both fast and very slow fluctuations for all Froude numbers. The air–water flow measurements will quantify the intense aeration of the roller and the strong interactions between the jump roller turbulence and free-surface fluctuations.

  • Air bubble entrainment in plunging jets

    Plunging jet flows are employed to produce some gas-liquid interface, typically to dissolve gas in liquid. They are bottlenecks in minerals and food processing, biotechnology and waste-water treatment. The mechanisms of air bubble entrainment by circular plunging jets will be investigated in the light of new experimental evidence. The results will be obtained in the developing flow region. While void fraction distributions follow closely an advective diffusion theory, the bubble count rate distribution exhibit consistently a maximum in the inner side of the void fraction peak indicating some bubble-turbulence coupling. Both intrusice phase-detection probe measurements and high-speed video imaging of the bubbly flow will be conducted with void fractions up to 40%.

  • Hydraulics of stepped spillways

    In recent years, the design floods of a number of dams were re-evaluated and the revised flows were often larger than those used for the original designs. In many cases, occurrence of the revised design floods would result in dam overtopping because of the insufficient storage and spillway capacity of the existing reservoir. A number of overtopping protection systems were developed for embankments and earthfill dams. These include concrete overtopping protection systems , timber cribs, sheet-piles, riprap and gabions, reinforced earth, Minimum Energy Loss weirs, and the precast concrete block protection systems developed by the Russian engineers. New physical tests will be a conducted ina a large-size facility to optiise present design guidelines.

  • Hydrodynamics of tidal bores - Impact on ecology

    When a river mouth has a flat, converging shape and when the tidal range exceeds 6 to 9 m, the river may experience a tidal bore {http://www.uq.edu.au/~e2hchans/tid_bore.html}. A tidal bore is basically a series of waves propagating upstream as the tidal flow turns to rising. It is a positive surge. As the surge progresses inland, the river flow is reversed behind it. New research into the unsteady hydrodynamics of tidal bores and postive surges will be investigated ina large-size physical model. This study aims to characterise the impact of tidal bores on the turbulent dispersion of fish eggs and on water quality.

  • Accidental spillway release and dam break waves

    Flood waves resulting from dam breaks and flash floods have been responsible for numerous losses. In the present study, sudden flood releases were investigated down a initially dry waterway, while additional tests may be conducted on an initially filled waterway. oth Newtonian and non-Newtonian fluid flows may be considered.

  • A study of turbulence and influence of anthropogenic inputs in small subtropical estuaries

    Dispersion of matter in natural river systems is of considerable importance, particularly in relation to the transport of nutrients, sediment and toxicants into ecosystems as a result of stormwater runoff and wastewater discharges. The project aims to improve our basic understanding of turbulent mixing and the influence of anthropogenic releases in small subtropical estuaries, and to develop improved predictive models to assist with the management and monitoring of natural ecosystems. This will be achieved through a Ph.D. research project integrating basic water engineering and environmental sciences. The project is part of an active cross-institutional multidisciplinary research effort.

Supervision history

Current supervision

  • Doctor Philosophy

    A Study of Turbulent Secondary Flows in Partially Filled Smooth Circular Pipes

    Principal Advisor

  • Doctor Philosophy

    Turbulence in hydraulic jump roller: hydrodynamics versus aerodynamics

    Principal Advisor

    Other advisors: Dr Matthew Mason

  • Doctor Philosophy

    Hydrodynamic Modelling and Turbulence Manipulation of Low Velocity Zones in Box Culverts to Assist Upstream Passage of Small Body Mass Fish

    Principal Advisor

  • Doctor Philosophy

    Wind loading of buildings in non-traditional atmospheric boundary layers

    Associate Advisor

    Other advisors: Dr Matthew Mason

  • Doctor Philosophy

    Simulating local wind conditions within complex cityscapes

    Associate Advisor

    Other advisors: Dr Matthew Mason

  • Doctor Philosophy

    Simulating local wind conditions within complex cityscapes

    Associate Advisor

    Other advisors: Dr Matthew Mason

Completed supervision

Media

Enquiries

Contact Professor Hubert Chanson directly for media enquiries about:

  • Air-water flow, re-oxygenation
  • Air-water gas transfer
  • Dams and engineering
  • Engineering - dams
  • Engineering - sewers
  • Engineering - spillways
  • Engineering - weirs
  • Engineering heritage dams, hydraulics, spillways
  • Floods - engineering
  • Floods and engineering
  • Fluid mechanics
  • Heritage dams - engineering
  • Hydraulic structures
  • Hydraulics
  • Hydrodynamics
  • Metrology
  • Sewers - engineering
  • Spillway design
  • Weirs

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