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Papers

Papers are made available through the website 12 months after they are presented at the annual conference. Please add to your shopping cart to purchase and you will receive a link to download.

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A CD can be purchased containing ANCOLD Bulletins from 1961 to 2001 on the OTHER PUBLICATIONS page.

If there is a paper you require prior to 2007 that has not been uploaded please contact the secretariat [email protected]

Use the search below using keywords, year or author.

$15.00

2000 Papers

2000 – The Dam Safety Upgrade at Lake Eppalock
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Richard R. Davidson, Roger Vreugdenhil and Mark Foster

Significant cracking was observed on the crest of the main embankment at Lake Eppalock for many years, but in recent years increasing movement upstream during low reservoir levels indicated a progressively deteriorating stability situation. Investigations also revealed cohesive filter material that would allow a crack to propagate. A fast-tracked remedial works program was completed in 1999 to rebuild the highly vulnerable upper rockfill shells and filters, both upstream and downstream. To manage construction risk, the works were carried out directly by G- MW with innovations in removal, protection and replacement of the downstream shoulders, and placement of a new multi-zone filter.
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2000 Papers

2000 – Dam Technology in Australia 1850-1999 – Creating the Book
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B. A. Cole

In October 2000 ANCOLD published a history of dam technology in Australia covering the 150 years in which large dams have been constructed in this country. The paper describes how this project began, the search for authors, the way the authors tackled their tasks, the peer reviews which resulted in additional chapters being written, and the archive searches for interesting photographs to illustrate the text. All this was accomplished by dam engineers including the editor. Then follows an account of the professional publication process: sub-editing, desktop publishing, proof-reading, the preparation of an index, the cover design and the printing process. Some conclusions are drawn from this first experience of book publishing.
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2000 Papers

2000 – Seismic Surveillance by SEQWater: A State-of-the-Art Digital Telemetered Seismograph Network in South East Queensland
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Jack Rynn, John Pix, Garry Grant and Albert Hill

Ground motions resulting from seismic activity can cause significant damage to existing dams. For this reason, monitoring of seismic activity is an important component of a dam safety management program. Similarly, the long term gathering of data on regional seismic activity provides a sound platform for structural adequacy checks of components of existing dams under seismic loading, as well as for future dam design. In this context, the South East Queensland Water Corporation Ltd (SEQWater) and its predecessors have been monitoring earthquake activity in relation to the Wivenhoe, Somerset and North Pine Dams in South East Queensland since 1977. In 1998, SEQWater upgraded the seismic instrumentation with a digital telemetered seismic surveillance system (DTSSS) six-station network to replace the original analogue seven-station network. This state-of-the-art instrumentation was supplied and installed by Nanometrics Inc., Canada through an international tendering process. This paper presents an overview of the DTSSS, results to date and future planning for an integrated strong ground motion accelerograph network.
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2000 Papers

2000 – Ben Boyd Dam: A Case Study in Incident Management
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P.W. Heinrichs and R. Fell

Ben Boyd Dam, a 29 m high earthfill embankment built in 1978, has had an unusual history. In 1979, a number of seeps developed during first filling with water 5 m below FSL indicating unexpectedly high pressures. Investigations concluded the coarse filter permeability was very low due to excess fines. Remedial works in 1982 included a drainage filter beyond the toe and a new stability berm above. New piezometers were installed, including several in the blanket filters in the existing dam. These later indicated up to 10.5 m head in isolated areas within the filter. Pump out tests partially lowered the water level in the standpipes but in 1995 the water level rose by 4 m back to its previous high level. All this during a period of relatively low rainfall. Stability analyses were carried out and further investigations in 1999 concluded that apart from general leakage from the foundation abutment into the filters, the rise in pressures was due to leakage from a riser hole from one of the nearby foundation piezometers. A potential for piping along the piezometer tubes within the dam was also identified.

This situation was managed without resort to costly capital works, because it was concluded that the pressures from the vertical riser were not a potential failure mode, and potential piping failure would be adequately handled by the existing chimney drain, intersecting the piezometer tubes trench. Any potential piping failure would also give warning signs which increased frequency of monitoring (now in place) would pick up in time to allow lowering of the storage.
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2000 Papers

2000 – Lyell Dam Rubber Dam Incidents
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I. R. Forster

Lyell Dam is a concrete-faced rockfill dam, located on the Coxs River, near Lithgow, NSW. The dam forms part of the Coxs River Water Supply Scheme, which supplies water to Delta Electricity’s Wallerawang and Mount Piper Power Stations. In 1994, the spillway capacity of the dam was upgraded, and the storage augmented with the addition of two 40 m long by 3.5 m high inflatable rubber dams to the spillway crest. An automatic deflation system, controlled by a programmable logic controller, was installed to provide a staged bag deflation sequence during flooding, and hence minimise the downstream impact of rubber dam operation.

Although the rubber dams and control system initially operated as designed, more recently, two uncontrolled bag deflations have occurred, which have caused flooding downstream and loss of significant storage volumes. In the first incident, a spontaneous uncontrolled deflation of the rubber dams released about 1600 ML, before the bags re-inflated automatically. An investigation revealed that the incident was most likely the result of design deficiencies in the control system. Recommendations were made for improvements to the system.

During the most recent deflation, one of the rubber dams failed by spontaneous rupture, and approximately 6000 ML of water was released from the dam. The Dam Safety Emergency Plan was activated to ensure persons at risk downstream were notified of the impending flood wave. A post- failure inspection of the ruptured bag suggested that the likely cause of failure was a manufacturing defect, which allowed air to penetrate the layers of rubber forming the bag. The rupture most likely occurred when the resulting air pocket expanded on exposure to the sun.

The paper examines the two deflation incidents in detail, and analyses the emergency response to the second incident.
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2000 Papers

2000 – Revising the Method for Estimating Probable Maximum Precipitation in Tropical Australia
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David Walland

The entire historical record of rainfall archives held by the Bureau of Meteorology over the region of Australia affected by tropical storms has been examined and the extreme storms have been extracted. From this database, we account for site specific effects (moisture and topography) from each of the storms, allowing us to compare storms amongst each other. This then allows us to construct a theoretical maximum precipitation in a generalised sense. By then returning the site specific information for a particular region, we can infer the probable maximum precipitation at this location.
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2000 Papers

2000 – The Victorian Water Industry Seismic Network: Risk Management and Emergency Management Outcomes
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W.G. Peck

The Victorian Water Industry Seismic Network was substantially upgraded in 1999. This paper will look at the design and outcomes of the seismic network from a risk management and emergency management perspective. Funding issues for a diversified network providing benefits to a range of clients within the one industry group will also be discussed.

Prior to 1999 the Victorian seismic network had been developed on an ad hoc basis resulting in an incomplete level of seismic coverage throughout the state. The upgraded network now provides sufficient coverage to provide an intensity based alarm service for all contributing Victorian Water Authorities.

Community expectations of essential service providers such as the water industry are that they will carry out their own risk management to provide for service continuity and sustainability and that they will contribute to emergency management processes because it is in their own best interest to do so.

The risk management model looks at creating resilient communities through planning for the four R’s. Reduction, Readiness, Response and Recovery. The Seismology Research Centre’s Earthquake Preparation Alarm and Response system (EPAR) deals with the four R’s in relation to seismic hazard.

The EPAR system contributes to the risk management processes of identifying risks and vulnerability’s; potential consequences; and mitigation opportunities. The EPAR system additionally contributes to the emergency management processes of crisis response, impact assessment and recovery.
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2000 Papers

2000 – Using FEMA to Enhance Dam Safety Programmes
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M. Gillon

Failure modes and effects analysis (FMEA) has been increasingly utilised to prioritise and investigate dam safety deficiencies. It can be used to enhance dam safety programmes. Dam Surveillance, O & M procedures, and emergency plans can all be evaluated for their effectiveness in detecting and mitigating the applicable failure modes for a dam. Experience with a workshop process to carry out this evaluation and some of the improvements that have been identified are described.
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2000 Papers

2000 – Ross River Dam Risk Assessment – A Summary
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R. E. Saunders, J. Roberts, B. W. Omundson

Ross River Dam is located immediately upstream of the twin cities of Townsville and Thuringowa. The population at risk from failure of the dam is approximately 110,000. A recently completed risk assessment has confirmed earlier studies that the dam does not satisfy current safety criteria and presents high risk levels in a number of areas. Importantly, the risk assessment has enabled the extent of these risks to be clearly identified. This paper summarises the risk assessment highlighting notable methodologies employed and the key findings of the study.
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2000 Papers

2000 – Risk Assessment: A Complex Exercise But A Worthwhile Tool
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A. Ash, D. S. Bowles, S. Abbey and R. Herweynen

A preliminary risk assessment was undertaken of its three dams by the South East Queensland Water Board (SEQWB) in 1999. The risk assessment process used included a series of workshops that proved to be an important part of ensuring a worthwhile result. The combined expertise of the consultants together with that of staff from the Board and the Queensland’s Department of Natural Resources were used to improve the outcome. The results of the assessment showed that the process had both advantages as well as difficulties in comparison to a standards based approach for making dam safety decisions. Risk Assessment was seen to be a useful management tool for managing dam safety. It gave the owner the ability to quickly rank upgrade requirements or maintenance options on the basis of probability of failure, life safety risks and financial risks to the owner or economic risks to all stakeholders.
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2000 Papers

2000 – Risk Assessment and Dams – Is it Safe?
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S.G. McGrath

The use of risk analysis for dam safety is becoming more widespread. Dam owners are increasingly aware of the need for information on current and emerging practices from the world scene to determine how to proceed with the use of risk assessment. The paper summarises the findings of a Churchill Fellowship study into risk assessment for dam safety management. Dam owners, regulators and consultants from the United Kingdom, France, the Netherlands, Norway, Sweden, the United States and Canada were consulted for the study. Conclusions are drawn from the findings and recommendations made for future development.
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2000 Papers

2000 – Risk and Standards Based Approach to Rip Rap Design Alternative for Grahamstown Dam Stage 2 Augmentation
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M. B. Barker and D. Holroyde

A detailed study was completed for the Stage 2 works of the Grahamstown Dam augmentation to investigate various alternatives for the slope protection of the Saddle Dam and Subsidiary Dam embankments, including a standards based and a risk management approach. The standards based approach required an evaluation of the slope protection level and least cost option based on the hazard rating of the dam. Due to the sand construction of the embankments, it was possible to apply a wave erosion model SBEACH to develop an economic risk model for optimising the slope protection alternatives. The erosion model included the effects of the wind direction, reservoir level and wind speed variation during flood events, embankment profile and material parameters. The risk management approach clearly showed that significant cost savings could be achieved by using the risk management approach. Furthermore, the cost curves indicated the sections of the embankments for which present capital works would not be economically justified and for which ongoing maintenance works would be economically advantageous.
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