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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.

Members receive papers complimentary. ANCOLD members please log in and add the required papers to you shopping cart and once you click ‘Place Order’ the cost will show as $0 and you will receive the link to the paper.

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

1998Papers

1998 – A Risk Based Approach for Optimising Dam Monitoring
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Andrew Pattle and Bram Knoop

This paper provides an outline of a process that can be used to optimise regular dam surveillance and monitoring activities. The process is applicable for a wide range of dam types that an owner/operator may be responsible for. Basic assessments are made of inherent reliability and potential consequences of failure using key factors such as construction features, foundation conditions and observed performance. The key factors are combined to give a relative risk ranking for each dam. These rankings are used to determine specific dam monitoring schedules. The process focuses the monitoring effort on those dams that are perceived to constitute the greatest portion of the overall risk. The methodology is simple and provides a cost-effective framework for setting appropriate resourcing levels for dam monitoring.
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1998Papers

1998 – From Dam Owners to Water Managers – The Victorian Experience
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I A Howley, G S Smith and D J A Stewart

Over the past decade the role of dam ownership in Victoria, and indeed Australia, has changed from one of owners, constructors and operators of large civil assets, to managers of structures on behalf of owners of the entitlements to water. This is part of the key business focus to dams management in Victoria.

This position has been heavily influenced by regional water reform policies, such as the Murray Darling Cap, and its effects in Northern Victoria, and COAG Agreements.

Dam owners now run service driven businesses, with a clear separation of roles and responsibilities from the traditional, engineering focused organisations which were established in an environment of resource development. The environment is now one of maintenance, service delivery, structure maintenance and long term business viability for ultimate community benefit.

By using Goulburn-Murray Water as an example, the current model of dams management in Victoria is outlined, together with possible future directions for the rural water industry in Victoria.
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1998Papers

1998 – Changes in the ECNZ Dam Safety Assurance Programme
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Murray Gillon

As New Zealand’s largest dam owner, ECNZ has actively managed dam safety since its inception in 1987. During this time it has managed several major dam safety issues and enhanced its dam safety management practices. This has occurred in an environment of organisational change and increasingly competitive commercial pressures.

The change in emphasis from a primarily technical emphasis to dam safety towards a commercial focus is described together with details of highly rated dam surveillance system, some continuous improvement initiatives, and recent enhancements to the dam safety programme. The position of responsible ownership in regard to risk and legal requirements is also discussed.
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1998Papers

1998 – The Emerging River Murray Water Business – Developing Asset and Risk Management in an Inter-Government Context
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David Dole and Brian Haisman

The Murray-Darling Basin Commission recently created River Murray Water, an internal business unit, as a step towards the micro-economic goals of the COAG Water Reforms.

The assets which regulate the River Murray, have a replacement value around $1.4 billion. They range from the 4000 gigalitre Dartmouth Dam in the headwaters, to the 7.5 kilometres of barrages near the Murray mouth and are presently held in trust for the Contracting Governments of the Basin Initiative by one or other of the three riparian states. River Murray Water is bringing the assets together into a single, integrated business with the aim of securing long-run sustainability, funded through pricing for services provided. Broad institutional and pricing principles are described along with the special challenges of an inter-government environment.

These challenges are being met by adopting clarity and simplicity as driving principles, supported by best practice asset information. The paper describes the upfront development of explicit guiding principles and policies, including risk management and dam safety; coordination of activities; generation of life cycle information; and introduction of contestable service provision for the business.
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1998Papers

1998 – Hume Dam: The Dam Owner and the Community 1995 – 1997 – A Retrospective View
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Michelle Cowan

Increasingly, owners of ageing dams are having to reconcile with the notion of involving others in decisions affecting the management of their dams. Previously recognised as ‘expert’ exclusive arenas, doctors, lawyers, scientists and engineers are now expected to respond to enquiring consumers and communities. Individuals and communities are expressing their need to share responsibilities.

Events at Hume Dam provide an illustration of the potential challenges and opportunities that all Dam Owners may face. This paper is a narrative of the processes of involving the wider ‘community’ in the Hume Dam remedial work project. It remains for the stakeholders to rate the effectiveness of the process.
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1998Papers

1998 – Risk Assessment of Dams – Future Directions for Victoria
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David Watson and John Adem

For several years risk management has been promoted by the Victorian Department of Natural Resources and Environment – Water Agencies as the key mechanism for the effective and efficient business management of dams. As part of an extensive water reform program, the Victorian Government announced in October 1997, a financial assistance package for the water industry which included funding for dam improvements covering a majority of large dam owners in the State. One of the conditions for receipt of these improvement funds was the need for each water authority to undertake a Business Risk Assessment of all significant and high hazard dams under its responsibility.

This paper discusses the Business Risk Assessment document based on a framework developed by Water Agencies after consultation with the industry and expands on the following reasons why the document was produced:
- To stress the importance and value of risk assessment in managing dams and the major role it plays in business planning and understanding dam performance. Risk assessment is not an alternative to the traditional engineering or deterministic approach but an enhancement,
- To identify the minimum assessment required and examples of different approaches such as portfolio risk assessments,
- To provide preliminary reference risk criteria to assist water authorities to determine appropriate business performance requirements. This preliminary criteria was developed from considering likely (although subject to change) outcomes of the current revision of Australian National Committee on Large Dams (ANCOLD) 1994 Risk Assessment Guidelines and other guidelines involving risk aspects recently or being prepared,
- To indicate future reporting and actions expected over the five year duration of the package including project evaluations and further risk assessments,
- To assist with inputs into ANCOLD’s continuing development and revision of guidelines, and
- To provide a platform for development over the next 18 months of an appropriate regulatory framework for covering all referable dams in the State. Key considerations will included performance based requirements encompassing risk management concepts, appropriate drivers which promote duty of care and associated legal issues and liabilities.
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1999Papers

1999 – Using Contracts for Life Cycle Risk Management of Dams and Other Infrastructure Assets
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D.C. Green

Contracts are usually thought of as documents which set out the respective legal obligations of the contracting parties. If the focus is changed, however, away from closing legal loopholes to the use of contracts to achieving project management objectives, then, among other things, contracts may be drafted as an integral part of the risk management plan for particular infrastructure assets.

In this paper, where the emphasis is on dam projects, the principles of risk management are applied to contracts for construction, maintenance and surveillance and outsourced technical advice, thereby covering issues over the whole life cycle of the asset. The principles are then broader issues of project procurement. Such as selection of contractor, contract packaging, ,clauses within the contract and administration of the contract.
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1999Papers

1999 – The Kelian Waste Storage Dam for the Prevention of Acid Rock Drainage
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P. J. N. Pells and M. Hunter

The potential for generating acid leachate from waste dumps is a major consideration in many metalliferous and coal mines. This paper describes the construction of the highest embankment dam in Indonesia for the sole purpose of storing potentially acid producing waste under water. The paper discusses the features of embankment dam design peculiar to an open pit mining environment which involves moving more than three times the total volume of earth and rock than in the whole of the Snowy Mountains Scheme.
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1999Papers

1999 – Sustainable Development in Large Hydro Power Generation
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A. Stephen

Among the major energy options, Large Hydro Power is considered to be the front ranking and renewable. But, in most of the developing countries including India, the large multipurpose dam
projects are shrouded in controversies.

This paper, while dealing with positive and negative impacts of large multipurpose dam projects, Jocuses on Social Impact Assessment’ and its mitigatory measures, for the success of the project. The Environment cost as well the Human cost of such projects should be judiciously integrated in the project cycle from its conception to its post implementation stage, for sustainable development of this
power regime.
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1999Papers

1999 – Stresses & Deflections in Concrete Dams
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Dr. Azam Khan and Dr. Anil Patnaik

Concrete dams are thinner than embankment dams and impose more concentrated loads on the foundation and abutments. A narrow valley with sufficient rock foundation is a typical site for concrete dam, which require a solid foundation that is relatively free of faults, shears, and major changes in foundation strength. Such discontinuities can overstress the concrete by causing some areas of dams to carry more loads than other areas. The measurement of deflections and use of finite element technique can predict the stresses in the concrete dams. A computer model is underdeveloped for prediction of deflections and stresses in Concrete Dam by using finite element. At the first stage of this study, measured deflections from Burrinjuck Dam are compared with the predicted deflections by using finite element. This paper outlines the deflections measured in the dam due to temperature variations and comparison of the measured thermal deflections with those predicted from a finite element analysis.
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1999Papers

1999 – Lighting Protection for Dam Instrumentation – A Case Study of the New Victoria Dam
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Anthony Moulds and Anthony M Watson

The selection of lightning protection equipment will always remain within the cost versus benefit, or risk management area. As more and more monitoring equipment becomes electronic and microprocessor based, we need to have a better understanding of the ways to protect it, and maintain the data flow.

Recent experience has shown that utilising the Australian Standard (NZS/AS 1768-1991) Lightning Protection, in conjunction with a six-point plan, will go a long way to providing total integrated protection for both structures and contents. However, no matter how much protection is applied, damage due to lightning may still occur. For dam surveillance instrumentation the aim ultimately is to protect the transducer ‘in the ground’ or ‘in the dam’, because generally these instruments are inaccessible and non-replaceable without prohibitive drilling and retrofitting costs.

The six-point plan was applied initially to designing lightning protection for a large, well- instrumented RCC dam, completed in 1991. The protection proved to be not as good as was hoped. The paper describes how the lightning protection at the dam was subsequently developed. This experience, which has pointed the way to achieving a good level of protection at a reasonable cost, has been applied to a number of other, instrumented dams.
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1999Papers

1999 – Kinta RCC Dam – Are Over-Simplified Thermal – Structural Analyses Valid?
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Allan J Crichton , Ikhlef Benzenati, Tony J Qiu and Jon T Williams

The Sg Kinta Dam is a 90 m high Roller Compacted Concrete (RCC) gravity dam and is expected to be the first RCC dam in Malaysia when construction commences in 2000. The dam is part of the development of the Ipoh Water supply on mainland Malaysia. A thermal – structural analysis has been completed as part of detailed design using ANSYS finite element analysis software to assess the effect of the heat of hydration of the RCC on resulting structural stresses. The effect of using simple linear elastic material properties on the calculated stresses has been compared to more complex time variant material modulus and creep analyses. From these comparisons it is shown that the simple models overestimate initial stresses and underestimate or cannot predict the long term tensile stresses.
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