Earthquake Engineering for Dams and Reservoirs

Jonathan Hinks
Emerald
Emerald

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Hardback
9780727766151
25 September 2023
£95.00
eBook (PDF)
9780727766168
25 September 2023
£95.00

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  • Description
  • Contents

With contributions from many distinguished specialists from around the world, Earthquake Engineering for Dams and Reservoirs addresses all topics that will be of interest to students and professionals involved in the inspection or design of dams in seismic areas. Over recent years, research has developed rapidly in response to incidents worldwide where earthquakes have, either directly or indirectly, affected dams or their appurtenant structures. This title brings relevant data together in one well-collated volume of need-to-know information. It will help you to make decisions on the type of dam structure required for new projects and understand the issues that face existing dams and how to mitigate them.

With international case studies, in full colour, from regions with differing seismic activity levels, this book features coverage of:

  • plate tectonics
  • seismic input parameters
  • reservoir triggered seismicity
  • seismic design and performance criteria
  • dams of various types including rockfill, concrete, earthfill, liquefaction, dams of hydraulic fill and tailing dams
  • dams on active faults
  • spillways, gates and equipment
  • earthquake-triggered landslides, rockfalls, seismic seiches and instrumentation.

This is essential reading for any engineer, or designer, tasked with building, retrofitting or maintaining dams in all seismically active regions. It will also appeal to dam owners and managers, writers of feasibility studies and students of engineering.

Chapter 1. Introduction

  • Chapter 2. Earthquakes – An Overview (Brian Baptie and Jonathan Hinks)
  • Chapter 3. Calculation of Seismic Input Parameters (Ziggy Lubkowski, Arup)
  • Chapter 4. Reservoir Triggered Seismicity (Martin Wieland, Icold / Lidija Spasic-Gril, Arup)
  • Chapter 5. Seismic Design Criteria (Wieland/Spasic-Gril)
  • Chapter 6. Choice of Dam Type (Spasic-Gril/Hinks)
  • Chapter 7. Rockfill Dams
  • Chapter 7.1. Rockfill Dams with Clay Cores (Alberto Marulanda, University Of Illinois)
  • Chapter 7.2. Concrete Faced Rockfill Dams (Alberto Marulanda)
  • Chapter 7.3. Methods of Analysis for Rockfill Dams
  • Chapter 8. Concrete Dams
  • Chapter 8.1. Concrete Gravity Dams (Larry Nuss, Nuss Engineering)
  • Chapter 8.2. Roller Compacted Concrete Dams (Malcolm Dunstan, Rcc Dams)
  • Chapter 8.3. Arch Dams (Larry Nuss/Patrice Droz, Stucky)
  • Chapter 8.4. Concrete Buttress Dams (Larry Nuss/ Patrice Droz)
  • Chapter 8.5. Methods of Analysis For Concrete Dams
  • Chapter 9. Earthfill Dams
  • Chapter 9.1. Homogeneous Earthfill Dams (Spasic-Gril/ Masayuki Kashiwayanagi, Yamaguchi University)
  • Chapter 9.2. Dams with Puddle Clay Cores (Spasic-Gril/ Masayuki Kashiwayanagi)
  • Chapter 9.3. Earthfill Dams with Filters (Spasic-Gril/ Kashiwayanagi)
  • Chapter 9.4. Methods of Analysis for Earthfill Dams (Spasic-Gril)
  • Chapter 10. Dams with Asphaltic Membranes and Cores
  • Chapter 10.1. Dams with Upstream Asphaltic Membranes (Peter Tschernutter, Tu Wien)
  • Chapter 10.2. Dams with Asphaltic Concrete Cores (Kaare Høeg, Norwegian Geotechnical Institute)
  • Chapter 10.3. Methods of Analysis
  • Chapter 11. Dams with PVC Membranes (Gabriella Vaschetti, Carpi Tech)
  • Chapter 12. Dams Built with Hydraulic Fill (Patrice Droz)
  • Chapter 13. Tailings Dams (Ramon Verdugo, University Of Santiago)
  • Chapter 14. Liquefaction (Prof Russell Green, Virginia Tech)
  • Chapter 15. Dams on Active Faults (Paul Marinos)
  • Chapter 16. Appurtenant Structures and Equipment
  • Chapter 16.1. Intake Towers (Colin Taylor, University Of Bristol)
  • Chapter 16.2. Spillways (Viktor Pavlov, Binnie)
  • Chapter 16.3. Gates and Equipment (R Digby, Kgal Consulting Engineers/Bryan Leyland, Independent)
  • Chapter 17. Earthquake Triggered Landslides (John Reynolds, Reynolds International/Spasic-Gril)
  • Chapter 18. Rockfalls (Jonathan Hinks)
  • Chapter 19. Seismic Seiches and Displacement Waves (Costas Synolakis, Seiches/ Tim Pullen, Hr Wallingford)
  • Chapter 20. Conclusions (Hinks/Wieland)
  • Chapter 21. Acknowledgements (Jonathan Hinks)
  • Chapter 22. References (All)