| Africa |
5/08 |
| Argentina |
8/07 |
| Armenia |
2/08 |
| Australia |
6/08 |
| Belgium |
3/08 |
| Brazil |
3/08 |
| Bulgaria |
5/08 |
| Canada |
6/08 |
| Central African Republic |
- |
| Central Asia |
5/08 |
| China |
6/08 |
| Czech Republic |
7/08 |
| Denmark |
9/07 |
| Emerging nuclear energy countries |
7/08 |
| Finland |
5/08 |
| France |
5/08 |
| Gabon |
- |
| Germany |
6/08 |
| Hungary |
7/08 |
| India, China & NPT |
10/07 |
| India |
7/08 |
| Iran |
7/08 |
| Italy |
6/08 |
| Japan |
7/08 |
| Kazakhstan |
6/08 |
| Korea |
5/08 |
| Lithuania |
7/08 |
| Malawi |
- |
| Mexico |
6/07 |
| Namibia |
7/08 |
| Netherlands |
3/08 |
| New Zealand |
2/08 |
| Niger and Gabon |
4/08 |
| Pakistan |
6/08 |
| Romania |
3/08 |
| Russia |
7/08 |
| Slovakia |
7/08 |
| Slovenia |
5/07 |
| South Africa |
6/08 |
| Spain |
7/07 |
| Sweden |
7/08 |
| Switzerland |
6/08 |
| Ukraine |
6/08 |
| United Kingdom |
7/08 |
| USA |
6/08 |
| Uzbekistan |
- |
| Zambia |
- |
| |
|
| Related Papers : |
| Asia's Nuclear Energy Growth |
2/07 |
| California's Electricity |
7/08 |
| Early Soviet Reactors & EU Accession |
4/07 |
Back to Top
|
| Nuclear Power Facts |
| Table of the World's Nuclear Power Reactors |
6/08 |
| Nuclear Power in the World Today |
6/08 |
| Nuclear Share of Electricity Generation Figures |
4/07 |
| The Economics of Nuclear Power |
7/08 |
| Global Nuclear Energy Partnership |
1/08 |
| World Energy Needs and Nuclear Power |
6/07 |
| Nuclear Power Reactors |
6/08 |
| Plans for New Reactors Worldwide |
3/08 |
| Renewable Energy and Electricity |
5/08 |
| Sustainable Energy |
2/05 |
| Energy Balances and CO2 Implications |
11/05 |
| Energy Analysis of Power Systems |
3/06 |
| Energy Subsidies & External Costs |
6/08 |
| Nuclear Fuel Cycle |
2/07 |
| Cooling Power Plants |
5/08 |
Back to Top
|
| Mining & Uranium Market |
| World Uranium Mining |
7/08 |
| Environmental Aspects of Uranium Mining |
2/06 |
| In Situ Leach Mining of Uranium |
3/08 |
| Uranium Production Figures |
5/07 |
| Supply of Uranium |
6/08 |
| Sustainable Energy |
2/05 |
| Uranium Markets |
5/06 |
| Military Warheads as a Source of Nuclear Fuel |
3/08 |
| Geology of Uranium Deposits |
11/01 |
| Thorium |
5/08 |
| Link:Australia's Uranium Mines + Deposits |
|
Back to Top
|
| Aspects of Fuel Cycle |
| Nuclear Fuel Cycle |
1/07 |
| Uranium Enrichment |
7/08 |
| Mixed Oxide Fuel |
2/08 |
| Plutonium |
4/08 |
| Japanese Waste and MOX Shipments from Europe |
8/07 |
| Uranium and Depleted Uranium |
8/07 |
Back to Top
|
| Radioactive Wastes |
| Waste Management in the Nuclear Fuel Cycle |
4/07 |
| Radioactive Wastes |
3/01 |
| Processing of Used Nuclear Fuel for Recycle |
6/08 |
| Transport of Radioactive Materials |
2/08 |
| Radioactive Wastes - Myths and Realities |
6/06 |
| Decommissioning Nuclear Facilities |
12/07 |
| International Nuclear Waste Disposal Concepts |
9/06 |
| Synroc |
10/07 |
| Accelerator-driven Nuclear Energy |
8/03 |
| Japanese Waste and MOX Shipments from Europe |
8/07 |
| Uranium and Depleted Uranium |
8/07 |
Back to Top
|
| Radiation, Health & Safety |
| Radiation and Nuclear Energy |
8/07 |
| Occupational Safety in Uranium Mining |
3/06 |
| Naturally-Occurring Radioactive Materials (NORM) |
7/08 |
| Safety of Nuclear Power Reactors |
6/08 |
| Nuclear Power Plants and Earthquakes |
5/08 |
| Cooperation in the Nuclear Power Industry |
6/08 |
| Chernobyl Accident |
5/08 |
| Three Mile Island: 1979 |
3/01 |
| Tokai-mura Criticality Accident |
7/07 |
| Civil Liability for Nuclear Damage |
5/08 |
| Early Soviet Reactors & EU Accession |
4/07 |
Back to Top
|
| Avoiding Weapons Proliferation |
| Safeguards to Prevent Nuclear Proliferation |
10/07 |
| Military Warheads as a Source of Nuclear Fuel |
11/07 |
| Iran, North Korea & Iraq - Implications for Safeguards - also S. Africa, Israel, Syria |
7/08 |
| India, China & NPT |
10/07 |
Back to Top
|
| Climate Change |
| Global Warming - science |
5/07 |
| Global Warming - policy responses |
1/08 |
| Sustainable Energy |
2/05 |
| Energy Balances and CO2 Implications |
3/06 |
| Energy Analysis of Power Systems |
3/06 |
Back to Top
|
| New Reactor Technology |
| Advanced Nuclear Power Reactors |
7/08 |
| Generation IV Nuclear Reactors |
9/07 |
| Accelerator-driven Nuclear Energy |
2/08 |
| Small Nuclear Power Reactors |
7/08 |
| Thorium |
5/08 |
| Nuclear Fusion Power |
5/07 |
| Fast Neutron Reactors |
2/08 |
Back to Top
|
| Non-Electricity Uses of Nuclear Energy |
| Nuclear Reactors for Space |
5/06 |
| Research Reactors |
5/07 |
| Radioisotopes in Medicine |
1/08 |
| Radioisotopes in Industry |
6/06 |
| Nuclear-powered Ships |
5/08 |
| Transport and the Hydrogen Economy |
5/08 |
| Electricity and Cars |
6/08 |
| Nuclear Desalination |
|
| Nuclear Process Heat for Industry |
|
| Smoke Detectors and Americium |
|
| Uranium and Depleted Uranium |
8/07
|
Back to Top
|
| General |
| Glossary |
12/05 |
| The Cosmic Origins of Uranium |
11/06 |
| Sustainable Energy |
2/08 |
| Renewable Energy and Electricity |
4/08 |
| "Clean Coal" Technologies |
6/08 |
| The Nuclear Debate |
5/08 |
| The Nuclear Renaissance |
5/07 |
| Outline History of Nuclear Energy |
9/05 |
| Hiroshima and Nagasaki |
6/08 |
| Uranium and Depleted Uranium |
8/07 |
| Nuclear Fusion Power |
5/07 |
Back to Top
|