1 |
NF-T-1.4
In situ leach uranium mining : an overview of operations
Vienna : International Atomic Energy Agency , 2016
|
2 |
NF-T-1.5
Advances in airborne and ground geophysical methods for uranium exploration
Vienna : International Atomic Energy Agency , 2013
|
3 |
NG-T-1.1
Managing organizational change in nuclear organizations
Vienna : International Atomic Energy Agency , 2014
|
4 |
NG-T-1.3
Development and implementation of a process based management system
Vienna, Austria : International Atomic Energy Agency , 2015
|
5 |
NP-T-1.10
Nuclear reactor technology assessment for near term deployment
Vienna : International Atomic Energy Agency , 2013
|
6 |
NP-T-1.11
Options to enhance proliferation resistance of innovative small and medium sized reactors
Vienna : International Atomic Energy Agency , 2014
|
7 |
NP-T-1.13
Techincal challenges in the application and licensing of digital instrumentation and control systems in nuclear power plants
Vienna : International Atomic Energy Agency , 2015
|
8 |
NP-T-1.14
Framework for assessing dynamic nuclear energy systems for sustainability : final report of the INPRO collaborative project GAINS
Vienna : International Atomic Energy Agency , 2013
|
9 |
NP-T-1.3
The role of instrumentation and control systems in power uprating projects for nuclear power plants : report prepared within the framework of the Technical Working Group on Nuclear Power Plants Control and Instrumentation
Vienna, Austria : International Atomic Energy Agency , 2008
|
10 |
NP-T-1.9
Design features and operating experience of experimental fast reactors
Vienna : International Atomic Energy Agency , 2013
|
11 |
NW-T-1.10
Advancing implementation of decommissioning and environmental remediation programmes : CIDER project : baseline report
Vienna, Austria : International Atomic Energy Agency , 2016
|
12 |
NW-T-1.14
Status and trends in spent fuel and radioactive waste management
Vienna, Austria : International Atomic Energy Agency , 2018
|
13 |
NW-T-1.14(Rev. 1)
Status and trends in spent fuel and radioactive waste management
Vienna, Austria : International Atomic Energy Agency , 2022
|
14 |
NW-T-1.16
Communication and stakeholder involvement in radioactive waste disposal
Vienna, Austria : International Atomic Energy Agency , 2022
|
15 |
NW-T-2.12
Data analysis and collection for costing of research reactor decommissioning: Final report of the DACCORD collaborative project
Vienna, Austria : International Atomic Energy Agency , 2021
|
16 |
NW-T-1.17
Locating and characterizing disused sealed radioactive sources in historical waste
Vienna : International Atomic Energy Agency , 2008
|
17 |
NW-T-1.19
Geological disposal of radioactive waste : technological implications for retrievability
Vienna : International Atomic Energy Agency , 2009
|
18 |
NW-T-1.24
Options for management of spent fuel and radioactive waste for countries developing new nuclear power programmes
Vienna : International Atomic Energy Agency , 2013
|
19 |
NW-T-1.24 (Rev.1)
Options for management of spent nuclear fuel and radioactive waste for countries developing new nuclear power programmes
Vienna : International Atomic Energy Agency , 2018
|
20 |
NW-T-1.3
Management of disused sealed radioactive sources
Vienna : International Atomic Energy Agency , 2014
|
21 |
NW-T-1.4
Modular design of processing and storage facilities for small volumes of low and intermediate level radioactive waste including disused sealed sources
Vienna : International Atomic Energy Agency , 2014
|
22 |
NW-T-1.5
Framework and challenges for initiating multinational cooperation for the development of a radioactive waste repository
Vienna, Austria : International Atomic Energy Agency , 2016
|
23 |
NW-T-1.8
Mobile processing systems for radioactive waste management
Vienna : International Atomic Energy Agency , 2014
|
24 |
NG-T-1.6
Management of nuclear power plant projects
Vienna : International Atomic Energy Agency , 2020
|
25 |
NW-T-1.25
Costing methods and funding schemes for radioactive waste disposal programmes
Vienna : International Atomic Energy Agency , 2020
|
26 |
NW-T-1.27
Design principles and approaches for radioactive waste repositories
Vienna : International Atomic Energy Agency , 2020
|
27 |
NF-G-2.1
Quality and reliability aspects in nuclear power reactor fuel engineering
Vienna : International Atomic Energy Agency , 2015
|
28 |
NF-T-2.4
Role of thorium to supplement fuel cycles of future nuclear energy systems
Vienna : International Atomic Energy Agency , 2012
|
29 |
NG-T-2.2
Commissioning of nuclear power plants : training and human resource considerations
Vienna, Austria : International Atomic Energy Agency , 2008
|
30 |
NG-T-2.3
Decommissioning of nuclear facilities : training and human resource considerations
Vienna, Austria : International Atomic Energy Agency , 2008
|
31 |
NG-T-2.7
Managing human performance to improve nuclear facility operation
Vienna : International Atomic Energy Agency , 2013
|
32 |
NP-T-2.8
International safeguards in nuclear facility design and construction
Vienna : International Atomic Energy Agency , 2013
|
33 |
NW-T-2.4
Cost estimation for research reactor decommissioning
Vienna : International Atomic Energy Agency , 2013
|
34 |
NW-T-2.5
An overview of stakeholder involvement in decommissioning
Vienna : International Atomic Energy Agency , 2009
|
35 |
NW-T-2.6
Decommissioning of pools in nuclear facilities
Vienna : International Atomic Energy Agency , 2015
|
36 |
NW-T-2.7
Experiences and lessons learned worldwide in the cleanup and decommissioning of nuclear facilities in the aftermath of accidents
Vienna : International Atomic Energy Agency , 2014
|
37 |
NW-T-2.8
Managing the unexpected in decommissioning
Vienna, Austria : International Atomic Energy Agency , 2016
|
38 |
NF-T-2.7
Impact of fuel density on performance and economy of research reactors
Vienna : International Atomic Energy Agency , 2021
|
39 |
NR-T-2.12
Human factors engineering aspects of instrumentation and control system design
Vienna : International Atomic Energy Agency , 2021
|
40 |
NW-T-2.9
Decommissioning of particle accelerators
Vienna : International Atomic Energy Agency , 2020
|
41 |
NF-T-3.1
International safeguards in the design of facilities for long term spent fuel management
Vienna : International Atomic Energy Agency , 2018
|
42 |
NF-T-3.9
Research reactor spent fuel management: Options and support to decision making
Vienna : International Atomic Energy Agency , 2021
|
43 |
NF-T-3.5
Costing of spent nuclear fuel storage
Vienna : International Atomic Energy Agency , 2009
|
44 |
NG-G-3.1
Milestones in the development of a national infrastructure for nuclear power
Vienna, Austria : International Atomic Energy Agency , 2007
|
45 |
NG-G-3.1(Rev.1)
Milestones in the development of a national infrastructure for nuclear power
Vienna : International Atomic Energy Agency , 2015
|
46 |
NG-T-3.11
Managing environmental impact assessment for construction and operation in new nuclear power programmes
Vienna : International Atomic Energy Agency , 2014
|
47 |
NG-T-3.12
INPRO methodology for sustainability assessment of nuclear energy systems : infrastructure : INPRO manual
Vienna : International Atomic Energy Agency , 2014
|
48 |
NG-T-3.13
INPRO methodology for sustainability assessment of nuclear energy systems : environmental impact from depletion of resources
Vienna, Austria : International Atomic Energy Agency , 2015
|
49 |
NG-T-3.14
Building a national position for a new nuclear power programme
Vienna, Austria : International Atomic Energy Agency , 2016
|
50 |
NG-T-3.15
INPRO methodology for sustainability assessment of nuclear energy systems : environmental impact of stressors : INPRO manual
Vienna, Austria : International Atomic Energy Agency , 2016
|
51 |
NG-T-3.2
Evaluation of the status of national nuclear infrastructure development
Vienna, Austria : International Atomic Energy Agency , 2008
|
52 |
NG-T-3.2 (Rev.1)
Evaluation of the status of national nuclear infrastructure development
Vienna, Austria : International Atomic Energy Agency , 2016
|
53 |
NR-T-1.20
Summary review on the application of computational fluid dynamics in nuclear power plant design
Vienna, Austria : International Atomic Energy Agency , 2022
|
54 |
NG-T-3.4
Industrial involvement to support a national nuclear power programme
Vienna : International Atomic Energy Agency , 2016
|
55 |
NG-T-3.5
Legal and institutional issues of transportable nuclear power plants : a preliminary study
Vienna : International Atomic Energy Agency , 2013
|
56 |
NG-T-3.7
Managing siting activities for nuclear power plants
Vienna : International Atomic Energy Agency , 2012
|
57 |
NG-T-3.8
Electric grid reliability and interface with nuclear power plants
Vienna : International Atomic Energy Agency , 2012
|
58 |
NG-T-3.9
Invitation and evaluation of bids for nuclear power plants
Vienna : International Atomic Energy Agency , 2011
|
59 |
NP-T-3.14
Advanced surveillance, diagnostic and prognostic techniques in monitoring structures, systems and components in nuclear power plants
Vienna : International Atomic Energy Agency , 2013
|
60 |
NW-T-3.4
Overcoming barriers in the implementation of environmental remediation projects
Vienna : International Atomic Energy Agency , 2013
|
61 |
NW-T-3.5
Communication and stakeholder involvement in environmental remediation projects
Vienna : International Atomic Energy Agency , 2014
|
62 |
NW-T-3.6
Lessons learned from environmental remediation programmes
Vienna : International Atomic Energy Agency , 2014
|
63 |
NR-T-3.29
Application of wireless technologies in nuclear power plant instrumentation and control systems
Vienna : International Atomic Energy Agency , 2020
|
64 |
NR-T-3.30
Computer security aspects of design for instrumentation and control systems at nuclear power plants
Vienna : International Atomic Energy Agency , 2020
|
65 |
NR-T-3.31
Challenges and approaches for selecting, assessing and qualifying commercial industrial digital instrumentation and control equipment for use in nuclear power plant applications
Vienna : International Atomic Energy Agency , 2020
|
66 |
NR-T-3.33
Asset management for sustainable nuclear power plant operation
Vienna : International Atomic Energy Agency , 2021
|
67 |
NF-T-4.1
Status and trends of nuclear fuels technology for sodium cooled fast reactors
Vienna : International Atomic Energy Agency , 2011
|
68 |
NF-T-4.3
Structural materials for liquid metal cooled fast reactor fuel assemblies : operational behaviour
Vienna : International Atomic Energy Agency , 2012
|
69 |
NG-T-4.5
Indicators for nuclear power development
Vienna, Austria : International Atomic Energy Agency , 2015
|
70 |
NG-T-2.8
Systematic approach to training for nuclear facility personnel: Processes, methodology and practices
Vienna, Austria : International Atomic Energy Agency , 2021
|
71 |
NG-T-3.19
Planning enhanced nuclear energy sustainability: An INPRO service to member states, analysis support for enhanced nuclear energy sustainability (ASENES)
Vienna, Austria : International Atomic Energy Agency , 2021
|
72 |
NG-T-3.22
Developing roadmaps to enhance nuclear energy sustainability: Final report of the INPRO collaborative project ROADMAPS
Vienna, Austria : International Atomic Energy Agency , 2021
|
73 |
NG-T-6.12
International nuclear management academy Master's programmes in nuclear technology management
Vienna, Austria : International Atomic Energy Agency , 2021
|
74 |
NG-T-6.15
Exploring semantic technologies and their application to nuclear knowledge management
Vienna, Austria : International Atomic Energy Agency , 2021
|
75 |
NR-T-1.18
Technology roadmap for small modular reactor deployment
Vienna, Austria : International Atomic Energy Agency , 2021
|
76 |
NR-T-5.9
Specific considerations in the assessment of the status of the national nuclear infrastructure for a new research reactor programme
Vienna, Austria : International Atomic Energy Agency , 2021
|
77 |
NG-T-3.10(Rev.1)
Human resource management for new nuclear power programmes
Vienna, Austria : International Atomic Energy Agency , 2022
|
78 |
NG-T-3.21
Resource requirements for nuclear power infrastructure development
Vienna, Austria : International Atomic Energy Agency , 2022
|
79 |
NF-T-5.2
Good practices for qualification of high density low enriched uranium research reactor fuels
Vienna : International Atomic Energy Agency , 2009
|
80 |
NF-T-5.4
Non-HEU production technologies for molybdenum-99 and technetium-99m
Vienna : International Atomic Energy Agency , 2013
|
81 |
NR-G-5.1
Digital instrumentation and control systems for new and existing research reactors
Vienna : International Atomic Energy Agency , 2021
|
82 |
NG-T-6.10
Knowledge management and its implementation in nuclear organizations
Vienna, Austria : International Atomic Energy Agency , 2016
|
83 |
NG-T-6.4
Nuclear engineering education : a competence based approach to curricula development
Vienna : International Atomic Energy Agency , 2014
|
84 |
NG-T-6.6
Web harvesting for nuclear knowledge preservation
Vienna, Austria : International Atomic Energy Agency , 2008
|
85 |
NG-T-6.8
Nuclear accident knowledge taxonomy
Vienna, Austria : International Atomic Energy Agency , 2016
|
86 |
NG-T-6.14
Mapping organizational competencies in nuclear organizations
Vienna : International Atomic Energy Agency , 2020
|