International Commission on Atomic Energy: Difference between revisions
No edit summary |
|||
Line 37: | Line 37: | ||
! style="width:35%;" | Notes | ! style="width:35%;" | Notes | ||
|- valign="center" | |- valign="center" | ||
| [[wikipedia:RBMK|Water-Graphite Reactor (WGR)]] | |||
| 1970's | |||
| I | |||
| 2 built <br> 1 damaged in accident <br> 1 decommissioned | |||
| Civil Nuclear Authority | |||
| {{flag|Gassasinia}} | |||
| Original design basis for the later Advanced Water-Graphite Reactor. | |||
|- | |||
| [[wikipedia:MKER|Advanced Water-Graphite Reactor (AWGR)]] | | [[wikipedia:MKER|Advanced Water-Graphite Reactor (AWGR)]] | ||
| 1980 | | 1980 |
Latest revision as of 12:34, 8 April 2024
This article is incomplete because it is pending further input from participants, or it is a work-in-progress by one author. Please comment on this article's talk page to share your input, comments and questions. Note: To contribute to this article, you may need to seek help from the author(s) of this page. |
Abbreviation | ICAE |
---|---|
Established | 1978 |
The International Commission on Atomic Energy (ICAE) is an international organisation that seeks to regulate the safe usage of atomic energy for peaceful purposes. The ICAE lists the following as it's mission statement:
- Peace: Encourage the utilisation of nuclear technologies for applications in clean energy generation and medicine.
- Cooperation: Facilitate cooperation between nations to ensure the safety and efficiency of nuclear technology.
- Safety: Coordination of international nuclear accident response, ensuring maintenance of international safety standards.
- Education: Educating the public about the advantages and safety of peaceful atomic energy.
The ICAE plays a vital role in coordinating international responses to nuclear accidents, along with establishing guidelines for the safe handling of nuclear material, and the operation of nuclear reactors.
History
Anti-Proliferation Activities
Although the ICAE officially exists to encourage the use of atomic energy for peaceful uses while explicitly condemning the development of nuclear armaments, the ICAE cannot enforce any prohibition against nuclear weapons. Instead, the ICAE takes a harm-reduction approach to its' anti-proliferation activities.
Structure
ICAE Acident Rating Scale
See the main page, ANAR
Nuclear Reactor Designs certified by ICAE
Reactor Name | Date | Generation | Amount of units | Manufacturer | Country | Notes |
---|---|---|---|---|---|---|
Water-Graphite Reactor (WGR) | 1970's | I | 2 built 1 damaged in accident 1 decommissioned |
Civil Nuclear Authority | Gassasinia | Original design basis for the later Advanced Water-Graphite Reactor. |
Advanced Water-Graphite Reactor (AWGR) | 1980 | II | 26 Operational | Civil Nuclear Authority | Gassasinia | |
Advanced Water-Moderated Reactor (AWMR) | 1998 | III | 12 Operational | Civil Nuclear Authority | Gassasinia | Essentially a development of the AWGR that eschews the graphite moderator and natural uranium fuel, resulting in a more compact core and a higher energy capacity. |
Nuclear Power Stations certified by ICAE
Active
Power station | Date of Construction | Amount of units | Type of Reactor | Net capacity(MWe) | Country | Location | Notes |
---|---|---|---|---|---|---|---|
Artem Kulagin Nuclear Power Facilty | 1977-1979 | 5 | GMRK | 5810 MWe | Tiskaiya | Kamydar | First Nuclear Power Plant made in Tiskaiya. |
H. Pejakovski Nuclear Power Station | 1979 | 5 | PWR | 5296 MWe | Kentalis | Sanvi | |
Nuclear Station Khomyuk | 1994-2000 | 4 | BWR/5 | 5306 MWe | Kentalis | Khomyuk | |
Kladaluk Nuclear Energy Station | 2005 | 1 | BWR/6 | 1207 MWe | Kentalis | Kladaluk | Newest power plant in Kentalis. |
Konstantin Tymoshenko Nuclear Power Facility | 2012-2015 | 4 | PWR | 4480 MWe | Tiskaiya | Belovorzhno | Newest Nuclear Power Plant in Tiskaiya, and the only one in Kolosiya Oblast. |
Rujas Nuclear Power Plant | 1971-1973 | 2 | PWR | 1230 MWe | Kentalis | Rujas | |
Shkrenshian Nuclear Power Facility | 1986-1988 | 3 | PWR | 2270 MWe | Tiskaiya | Shkrenshian | First Plant in Tiskaiya using a Pressurized Water Reactor. |
Matroun Atomic Power Station | 10 | 4 AWGR-500 4 AWGR-750 2 AWMR-750 |
6500 MWe | Gassasinia | Matroun, Bisouri Province | First Gassasinian nuclear power station. | |
Bekouri Atomic Power Station | 6 | 4 AWGR-500 4 AWMR-750 2 AWMR-1000 |
5500 MWe | Gassasinia | Bekouri, Karinia Province | ||
Dayr Botrous Atomic Power Station | 14 | 8 AWGR-500 6 AWGR-750 |
8500 MWe | Gassasinia | Dayr Botrous, Amiria Province | Largest nuclear power station in the world. | |
Qayba Atomic Power Station | 6 | 4 AWMR-750 2 AWMR-1000 |
5000 MWe | Gassasinia | Qayba, Hammam Province |
Under Construction
Power station | Amount of units | Type of Reactor | Net capacity(MWe) | Country | Location | Notes |
---|
Decommisioned
Power station | Date of Construction | Amount of units | Type of Reactor | Year Decommisioned | Country | Location | Notes |
---|---|---|---|---|---|---|---|
Pivilj Nuclear Energy Station | 1959 | 2 | BWR/1 | 1978 | Kentalis | Pivilj | First Nuclear Power plant in Kentalis, built 30 kilometres north of Jeseko, was replaced in 1974 with the J. V. Kazanvić NPP and decommisioned in 1978. |