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Proceedings of the 10th International Symposium on Hydraulic Structures (Zurich, 2024)

  • ISSN Online: 0374-0056
  • ISSN Print:
  • ISBN:
  • Publisher: IAHR
  • Editor(s): Robert M. Boes; Ismail Albayrak; Stefan Felder; Brian Crookston; Valentin Heller
  • Related: Committee on Hydraulic Structures

The Proceedings of the 10th IAHR International Symposium on Hydraulic Structures (ISHS 2024), held at ETH Zurich, Switzerland, from June 17 to 19, 2024, followed by the 9th International Junior Researcher and Engineer Workshop (9th IJREWHS) on Hydraulic Structures on June 20, contain technical papers on diverse and novel aspects of hydraulic structures. 

Hydraulic structures are key components of hydraulic engineering and water resources management. These disciplines address important topics and questions in an era of rapid technological development, urgency in reducing the carbon footprint and maintaining a secure water infrastructure for humanity, not least to protect against natural hazards, supply society with water for potable use, industry and irrigation in good quality and sufficient quantity, as well as to produce clean and affordable energy. Hydraulic engineering and structures are hence pivotal to fulfill several of the United Nations’ sustainable development goals. Research and development, optimization, implementation, operation, maintenance and refurbishment of hydraulic structures are challenging tasks of hydraulic engineers to contribute to safe, reliable and sustainable hydraulic infrastructure in a changing world. Recent major flood events in many parts of the world are dramatic illustrations of the dangers that can emanate from water. Flooding is the most significant natural hazard in many countries and there will never be 100% safety against it. Nevertheless, effective flood protection measures can reduce flood risk by limiting damage and, above all, saving lives. Modern and well-designed flood control infrastructure has demonstrated the effectiveness of the protective measures taken and the benefits of effective emergency action plans, warning and alert systems, and the well-coordinated emergency and crisis management personnel. As meteorological and hydrological processes can take on immense intensities and dimensions out of humans’ control, a priority approach is to avoid the danger zones with suitable spatial planning measures. 

However, water is not only a source of danger, but also a valuable resource. In many countries, the energy transition and the net-zero target for greenhouse gas emissions can only be achieved with a significant contribution from hydropower to electricity generation and, in particular, energy storage. The challenges are significant as renewable energies, including hydropower, are to be expanded to satisfy climate-friendly energy needs while simultaneously meeting aquatic ecology goals such as improving the continuity of watercourses for organisms, fish, sediments and organic matter like large wood. Hydraulic structures for both protection against natural hazards and for utilization purposes are built in natural water systems and therefore always interact with biodiversity and habitat requirements. This is challenging for engineers working in hydraulic engineering and designing hydraulic structures, as there are conflicting interests to make watercourses more natural and thus increase biodiversity despite the increasing pressure to use them for the benefit of humankind.

Editors
Robert BoesIsmail AlbayrakStefan Felder, Brian CrookstonValentin Heller


Publisher
ETH Zurich

ID Title Authors Year
30162 Evaluation of Computational Models for an Open Channel Flow around a Suspended Cylinder
J. Adjetey; Subhadip Das; Ram Balachandar
2024
30163 Predicting Uplift Pressures and Joint Flows Along a Spillway Chute
Tony L. Wahl; Bryan J. Heiner
2024
30164 Hydraulic analysis of Snowy 2.0 pumped storage facilities using hybrid models: validating performance and anti-vortex measures
Azin Amini; E. Mazzocchi; Giovanni De Cesare
2024
30165 Characterization of the hydrodynamic behavior of surge shaft’s orifices in SNOWY 2.0 power plant
Samuel L. Vorlet; Azin Amini; Eugenio Mazzucchi; Giovanni De Cesare
2024
30166 Boundary Conditions for Hydraulic Structures Modelling with OpenFOAM
Carsten Thorenz
2024
30167 RANS study of hydraulic jumps downstream of sloped channels with incoming fully developed turbulent flows
Santiago Lopez Castano; Tom De Mulder; Pieter Rauwoens; Kristof Verelst
2024
30168 Numerical and Physical Modelling of a submerged bottom outlet stilling basin
Angel Gasso; F. R. Andres; David Lopez; Juan Jose Rebollo; Luis Balairon
2024
30169 Study of fluctuating pressures over a steep stepped spillway
Juan P. Toro; G. Coronado
2024
30170 Air Demand Comparison between Vortex- and Plunge-flow Drop Shafts
Troy C. Lyons
2024
30171 Using SpillwayPro to Efficiently Evaluate New and Modified Spillway Alternatives
Bryan J. Heiner; Tony L. Wahl
2024

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