2006 – Effective Instrumentation of a Large Portfolio of Small Dams

Related products

• $15.00

  2006  Papers

  2006 – Development and Application of a Risk Analysis and Prioritisation Tool (RAPT) for Dam Safety Management

  Learn more
  Learn more

  Peter Hill, Rory Nathan, Phillip Jordan, Mark Pearse

  This paper outlines the development and application of the Risk Analysis Prioritisation Tool (RAPT) which has been developed as an interactive tool to aid dam safety risk management. RAPT allows the risk profile and prioritisation of upgrades to be incrementally updated as inputs are refined. The paper outlines some of the requirements of a risk management tool and the resulting functionality of RAPT and the lessons learnt from its application to more than 75 dams.
  

  Issues covered include:

  • importance of understanding and tracking the reliability of the inputs;
  • requirements for incorporating staged upgrades and non-structural risk reduction measures;
  • impact of different approaches to prioritising risk reduction measures; and
  • approaches for summarising and conveying risk results

  Learn more
• $15.00

  2006  Papers

  2006 – Large Dam Instrumentation and Deformation Surveys in South Australia

  Learn more
  Learn more

  Lawrie Schmitt and Angus Paton

  As the owner of most of the large dams in South Australia the South Australian Water Corporation (SA Water) is responsible for the safety of these structures and their designed function of water supply and flood control. In order to meet these responsibilities SA Water monitors the performance of the structures using engineering deformation surveys and various forms of instrumentation. This paper outlines the instrumentation and survey monitoring undertaken at SA Water large dams and discusses the issues arising.

  Learn more
• $15.00

  2006  Papers

  2006 – Dam Instrumentation or Damn Instrumentation – A South African Perspective

  Learn more
  Learn more

  Chris Oosthuizen

  A brief overview of dam surveillance is given from a South African perspective and more specifically the perspective of the Department of Water Affairs and Forestry (DWAF). DWAF’s Ten Commandments for the design of dam monitoring systems serve as introduction and this is followed by a summary of the design steps. The various parameters that can be measured and the South African preferences are discussed briefly followed by a synoptic description of crack and joint monitoring in South Africa. This provides the background for DWAF’s recent developments in 3-D Crack-Tilt gauges. Some of DWAF’s achievements as well as some of the blunders made by the author during the past 30 years are illustrated by means of a few case histories.

  Learn more
• $15.00

  2006  Papers

  2006 – Hydraulic flow simulation – five years on: lessons learned and future challenges

  Learn more
  Learn more

  Karen Riddette, David Ho & Julie Edwards

  Over the last five years in Australia, the use of computational fluid dynamics for the investigation of waterflows through hydraulic structures has been steadily rising. This modelling technique has been successfully applied to a range of dam upgrade projects, helping to assess spillway discharge capacity and structural integrity, and giving insight into flow behaviours including orifice flow, shock wave formation and chute overtopping (Ho et al, 2006). Innovative and cost effective upgrade solutions have been implemented from numerical model studies including baffle plates (Maher and Rodd, 2005) and locking arrangements to protect radial gates from extreme floods.
  This paper will begin with a review of recent dam engineering applications, including outlet flow through a fish screen, the performance of a fishway against hydraulic and environmental criteria and pipe flow in a large pumping station. Some of the difficulties and limitations of the modelling technique will be examined together with current research being conducted to address these issues and further validate the numerical results against published data. Some interesting results to date will be reported on elliptical crest discharge, boundary geometry, and model/prototype correlation.
  With increasing computing power and software enhancements, the potential applications for numerical simulation in dam engineering continue to grow. This paper will also examine the future outlook and highlight some recent advances such as the thermal simulation of cold water pollution, air entraining flows and combined free-surface and pipe flow in a morning glory spillway.

  Learn more
• $15.00

  2006  Papers

  2006 – Effect of Geology on Dam Construction Projects in Iran

  Learn more
  Learn more

  A. Uromeihy, P.G. Ranjith

  In response to increasing potable water need and in order to control and collect precipitations, many dams have been constructed and many more are under construction in Iran. Due to the complex geology of the country, many of the dam sites face serious geological problems both during construction and in operation phases. The most predominant types of problems are water leakage and sediment deposition in the reservoirs. In order to define and classify the type of problem with regards to geological condition, the country is divided into eight zonesin whicheach zone demonstrates similar problem on the dam site location. It is found that the water leakage is related directly to either the presence of soluble carbonate rocks in the abutment or the presence of thick permeable material in the foundation. It is also shown that the sediment deposition in the reservoir is related to many factors but the geology of the watershed area has a major effect. Therefore it can be concluded that the geology has a great role in the construction of dams.

  Learn more