Difference between revisions of "Nuclear knowledge"

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(Description)
(Description)
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== Description ==
 
== Description ==
 +
 +
Nuclear knowledge has been developed and accumulated over decades. This knowledge base stems from both
 +
research and development and the industrial application of nuclear technologies, and includes both energy and nonenergy
 +
applications. In response to an increased awareness in many countries of the importance of managing
 +
nuclear knowledge, the IAEA has published a number of guidance and technical documents, including a document
 +
outlining high level issues and objectives for nuclear KM [1]; it is widely agreed that these are relevant and
 +
applicable to activities in the nuclear sector as a whole. This section draws from and builds upon these IAEA
 +
publications to provide a general summary introduction to the subject of KP in the context of nuclear KM (for
 +
further information see Ref. [1]).
  
 
Nuclear knowledge is knowledge specific or relevant to nuclear related activities. Nuclear knowledge is
 
Nuclear knowledge is knowledge specific or relevant to nuclear related activities. Nuclear knowledge is

Revision as of 14:44, 14 August 2013

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Definition

Nuclear knowledge is Knowledge in the nuclear domain. Nuclear knowledge is characterised by a unique combination of factors which make the management of it particularly challenging, these are: fragmentation, safety, complexity, government involvement, high costs, long timescales, international cooperation and education. Source: [[]]

Summary

Nuclear knowledge is specific or relevant to nuclear related activities, including, but not limited to, scientific and technical engineering knowledge and exists at all levels and in all sectors within the industry. A wide variety of stakeholders will legitimately claim an interest in managing, using, applying, developing and sharing nuclear knowledge — each with their own objectives, requirements, and limitations.

Nuclear knowledge is unique in many ways — different from knowledge developed and used in other industrial domains. It is complex, involving high development costs often requiring significant governmental support. Nuclear knowledge must be developed and retained over long time frames to service operational nuclear facilities and over even longer time frames to enable global sustainable growth. Special constraints exist due to the dual (peaceful and non-peaceful) nature of nuclear technology, and these characteristics have often led to serious public concerns. As further elucidated below, these unique characteristics make efforts to effectively manage nuclear knowledge most desirable or even mandatory.

In response to an increased awareness of the importance to manage nuclear knowledge in many Member States, the IAEA has published a number of technical guidance documents (including nuclear management objectives [9]) containing the highest level issues for knowledge management that are commonly agreed as being relevant and applicable to activities in the nuclear sector.

Basic scientific nuclear knowledge has been accumulating for around one hundred years but this has been further enhanced through practical experience of its application over the last sixty years. The combination of this ‘pure and applied’ nuclear knowledge has brought our understanding to its current mature stage, with significant contributions being made to a wide variety of secondary applications. However, this extensive portfolio of nuclear knowledge — often derived with government support — is beginning to exceed present commercial demand with the consequence that some of it is in danger of being permanently lost. The risk is compounded by the fact that there is an absence of effective systems for transferring the knowledge between successive generations.

Nuclear knowledge is different from the knowledge developed and used in other industrial domains. It is very complex and has high investment costs, which often require massive governmental support. It must be developed and retained over very long timescales to service operational nuclear facilities and even longer timescales to enable global sustainable growth. Special constraints exist to limit its unrestricted dissemination, due to the dual (civil and military) uses of nuclear technology. These unique characteristics mean that there is an unwritten obligation for the industry to effectively manage nuclear knowledge.

Description

Complexity

The effective use of nuclear power and other nuclear applications for the benefit of humanity at large requires highly complex and multifaceted knowledge of several disciplines, including many branches of basic science and engineering, law, economics, finance, commerce, management and public communication. The acquisition of considerable nuclear knowledge is a necessary pre-requisite for any country aspiring to harness the benefits of nuclear science and engineering. The uniqueness of this technology, especially the strict requirements for proper control, necessitates an intensive knowledge base in considerably more breadth and depth than for other technologies. Owing to this complexity, and in contrast to other resource types, the nuclear knowledge base is finite — both at the national and international levels. Whereas it may be possible to inject huge financial resources into some areas of endeavour to greatly accelerate progress, such as building low income or temporary housing to provide accommodation in the aftermath of a natural disaster, there is simply no way to short-circuit the time necessary to create or re-create nuclear knowledge. Once a crucial piece of it is lost, the time necessary to recreate such unique knowledge is very substantial.

High costs

Long term development and utilization

The timescales involved in generating nuclear knowledge are relatively long due to the long gestation periods of nuclear facilities for research and industrial applications. The knowledge developed in each area of application is required to be preserved over several decades and effectively transferred to successive generations of professionals, due to the very long life cycles of many nuclear facilities.

Importance of international cooperation

Nuclear knowledge has been used successfully in the past by many countries as a catalyst for socioeconomic development. It is becoming increasingly clear that a wide range of benefits can be obtained from the appropriate use of nuclear power and other nuclear applications. However, the ‘appropriate’ use presupposes a certain level of maturity in the industrial and societal context, especially in terms of accountability and decision making systems and a general awareness and understanding of nuclear issues beyond mere technological aspects. Hence, it is not surprising that international cooperation has played a crucial role in the development of nuclear knowledge right from the very beginning of its application for civilian purposes. Indeed, the importance of international cooperation to any country embarking on a nuclear programme today is a unique characteristic of nuclear science and technology.

Balance between sharing and protection

The inherently dual nature of nuclear technology necessitates constraints on the sharing of nuclear knowledge. In contrast to knowledge in other scientific domains, the sharing and use of nuclear knowledge are restricted due to concerns about nuclear safeguards and proliferation. On the other hand, ensuring safety requires ready availability of high quality, well documented experience and knowledge. The risk to nuclear safety from the loss of or lack of access to nuclear knowledge could be very high. Thus an appropriate balance between nuclear safety and safeguard requirements needs to be established in managing nuclear knowledge.

Government involvement

Owing to the long term return on investment compared with other industries, as well as safety, security and non-proliferation issues, a high level of government involvement and close monitoring of activities is essential during the development, application and transfer of nuclear knowledge. This involvement is necessary not only to underwrite a large portion of the development cost but also to manage nuclear liability (including its trans boundary nature), nuclear safety concerns and the prevention of nuclear knowledge misuse under all circumstances.

Source: Knowledge management for radioactive waste management organisations

Source: Guide on nuclear knowledge management

Description

Template:Characteristics of nuclear knowledge

Source: Knowledge Management for Nuclear Research and Development Organizations

Description

Nuclear knowledge has been developed and accumulated over decades. This knowledge base stems from both research and development and the industrial application of nuclear technologies, and includes both energy and nonenergy applications. In response to an increased awareness in many countries of the importance of managing nuclear knowledge, the IAEA has published a number of guidance and technical documents, including a document outlining high level issues and objectives for nuclear KM [1]; it is widely agreed that these are relevant and applicable to activities in the nuclear sector as a whole. This section draws from and builds upon these IAEA publications to provide a general summary introduction to the subject of KP in the context of nuclear KM (for further information see Ref. [1]).

Nuclear knowledge is knowledge specific or relevant to nuclear related activities. Nuclear knowledge is owned today by many different organizations at all levels. Wide varieties of different stakeholders claim interest in managing, using, applying, developing and sharing such knowledge — each with specific objectives, requirements, and limitations. These stakeholders include:

  • Governments, including regulators;
  • Designers, vendors, utilities, operators, suppliers, consultants, and support organizations;
  • Training and academic institutions;
  • Research and development (R&D) organizations;
  • The general public and non-governmental organizations (NGOs);
  • International organizations.

The resources required to sustain nuclear knowledge, which was often developed with government support, may exceed current available resources and as a result may face the risk of being permanently lost. There is also often a lack of effective planning and mechanisms are not in place to transfer knowledge from one generation to the next. Given the significant impact nuclear technology has had over the past century, there is widespread consensus that the need for nuclear knowledge will increase in the future, and in particular with respect to the following three important areas:

  • The continued secure and safe operation and eventual decommissioning of existing nuclear facilities;
  • The design and building of new nuclear facilities;
  • Acceleration of the growth of new nuclear applications.


Source: Comparative Analysis of Methods and Tools for Nuclear Knowledge Preservation

Description

Nuclear knowledge is that knowledge specific or relevant to nuclear-related activities, including at least technical engineering knowledge. Nuclear knowledge can have various owners today at various levels. A wide variety of stakeholders can claim interest in managing, using, applying, developing and sharing knowledge — each with specific objectives, requirements and limitations. These stakeholders include:

  1. Governments, including industry regulators;
  2. Designers, vendors, utilities, operators, suppliers, consultants and support organizations;
  3. Training and academic institutions;
  4. R&D organizations;
  5. The public and non-governmental organizations (NGOs);
  6. International organizations.

Over the last sixty years, technology has enabled this knowledge base to grow exponentially. Humankind has moved from the industrial revolution to the information revolution, and now to the knowledge revolution. Employees have evolved from worker to knowledge worker, and competitive organizations have recognized that knowledge is a valuable resource to be managed.

Nuclear knowledge (NK) is unique especially with regard to safety considerations. Specific physical properties of nuclear power processes and severe damage from nuclear accidents promoted such specific area of NK as risk analysis. Now it is the only numerical method for nuclear facilities safety assessment. IAEA document established acceptable risk level for operating and new nuclear power plants (NPP) — (10-4–10-5) severe core damage events per plant operating year.

And so nuclear knowledge is ‘a must’ base for responsible decision making on nuclear energy programmes, especially relevant to ‘embarking’ countries during Phase 1

Source: Guide on nuclear knowledge management

Description

Broad spectrum of knowledge is that gained from each phase of the disposal facility operation (site investigations through to disposal facility closure), the totality of the materials (active and non-active) contained within the disposal facility and relevant contextual information. The need to access information, once it has been recorded, must be a high priority.

Source: Knowledge management for radioactive waste management organisations

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Development of nuclear knowledge

Historical development of nuclear knowledge

Current status of nuclear knowledge

Nuclear organizations and nuclear knowledge