Iran's Nuclear Sites

Semira N. Nikou
 
Bushehr Nuclear Facility
 
The Bushehr facility contains Iran’s first nuclear power plant. Its light-water reactor was loaded with nuclear fuel in August 2010. It has an operating capacity of 1,000 megawatts. Bushehr was originally launched in 1976 under contract with a Germany company, but after the 1979 revolution, Washington opposed it on the grounds that weapons grade plutonium could be extracted from the reactor’s waste, allowing Iran to construct nuclear weapons. Iran says the plant is for power-generation purposes only and will be subject to International Atomic Energy Agency safeguards.
 
The theocracy halted construction of the Bushehr reactor after the 1979 revolution, and it was badly damaged during the 1980-1988 Iran-Iraq War. But Tehran decided to revive the project in 1990 to provide energy. The contract was awarded to Russia’s Rosatom Corp. To address international concerns, Moscow agreed to supply the enriched uranium fuel for the power plant and take back its plutonium-bearing spent fuel. In February 2005, Tehran and Moscow signed an agreement designed to ensure Iran could not divert enriched uranium for a weapons program.  
 
Natanz Fuel Enrichment Facility
 
This fuel enrichment facility is at the heart of Iran’s dispute with the United Nations. The National Council of Resistance of Iran, an exiled opposition group, revealed the existence of the facility in 2002. It is located just outside the city of Natanz, approximately 130 miles south of Tehran.
 
The site consists of two facilities:
 
  • An above-ground pilot fuel enrichment plant (PFEP)
  • A larger, underground fuel enrichment plant with the capacity to hold up to 50,000 centrifuges (FEP). 
 
Activities at Natanz were suspended in 2004 following an agreement negotiated by Britain, France and Germany. But Iran restarted its uranium enrichment at the FEP after President Mahmoud Ahmadinejad’s election in 2005. By mid-2010, Iran had 3,936 P-1 centrifuges producing low enriched uranium up to 3.5 percent, and a total of 8,428 P-1 centrifuges installed. The PFEP is currently used for centrifuge research and development as well as re-feeding of LEU to produce 20 percent enriched uranium for the Tehran Research Reactor. 
 
The international community is concerned that Iran may use the enrichment technology at Natanz for nuclear weapons. These activities were proscribed by U.N. Security Council Resolution 1696 in 2006. Iran rejects the legality of these resolutions.
 
Isfahan Uranium Conversion Facility
 
The historic city of Isfahan is home to several nuclear-related sites, but the most significant facility is the Isfahan Uranium Conversion Plant. Isfahan also has a fuel fabrication laboratory, a uranium chemistry laboratory and a zirconium production plant. The conversion plant has been operational since 2006, and converts uranium yellowcake into uranium hexafluoride (UF6) for Iran's uranium enrichment facilities. The facility can also produce uranium metal and oxides for fuel and other purposes.
 
Tehran Nuclear Research Center
 
The Tehran Nuclear Research Center is a complex of several laboratories, including the Tehran Research Reactor (TRR). The TRR produces radioisotopes for medical and research purposes. The United States supplied Iran with the 5-megawatt light-water reactor in 1967; it was fueled with highly enriched uranium (around 90 percent). In 1987, Argentina concluded a deal with Iran to change the core of the reactor so it could operate on low-enriched uranium (20 percent).
 
Arak Heavy Water Plant and Reactor
 
The Arak nuclear facility includes a heavy water production plant, which has been operational since 2006, and a 40-megawatt heavy water reactor still under construction. The National Council of Resistance of Iran, an exiled opposition group, also revealed the existence of this facility in 2002.
 
Heavy water production plants are not subject to traditional safeguards of the Nuclear Non-Proliferation Treaty, to which Iran is a signatory. Under the International Atomic Energy Agency’s Additional Protocol, Tehran would be subject to declarations and complementary access for IAEA inspectors. Since Iran has signed but not yet ratified the Additional Protocol, the IAEA uses satellite imagery to monitor the facility. Iran's heavy-water-related activities are also proscribed by U.N. Resolution 1696, which Iran rejects.
 
Qom Uranium Enrichment Facility
 
This secret uranium enrichment facility was made public in 2009 after the United States shared intelligence about it with allies, and Iran confirmed its existence. Construction of the uranium enrichment plant near the holy city of Qom began around 2006, but Tehran maintained that it was not required to report its existence under the safeguard obligations until six months before it became operational. The plant has a few installed centrifuges, but Iran stopped all work once the site was publicized. The facility is located on a mountain on what was reportedly a former Iranian Revolutionary Guards’ missile site.
 
The facility’s revelation prompted concern that Iran intended to construct a potential breakout facility where it could make weapon-grade uranium for a nuclear bomb. Iran told the IAEA that the plant was intended to enrich uranium only to 5 percent, which is not enough for a nuclear weapon. The plant is believed to have room for 3,000 centrifuges for uranium enrichment.
 
In August 2010, Iran announced plans for the construction of 10 more uranium enrichment plants, with construction of the first site scheduled to start in March 2011.
 
Gchine Mine and Mill
 
The Gchine mine is located in southern Iran in Bandar Abbas. The associated mill is located at the same site. According to the IAEA, it began production in 2004 and has an estimated production capacity of 21 tons of uranium per year. The IAEA has questioned the mine’s ownership and relationship to Iran’s military.
 
With the assistance of John E. Pike of GlobalSecurity.org.