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From Wikipedia, the free encyclopedia

(Multi-Purpose) Experimental Training Research Reactor No. 2
Location of (Multi-Purpose) Experimental Training Research Reactor No. 2
Operating InstitutionNuclear Research Center
LocationInshas, Egypt
Coordinates30°17′35.0″N 31°24′32.5″E / 30.293056°N 31.409028°E / 30.293056; 31.409028[1]
TypeLight Water open pool reactor
Power22 MW (thermal)
Construction and Upkeep
Construction CostUS$75 million
Construction BeganDecember 1, 1992 (1992-12-01)
First CriticalityNovember 27, 1997 (1997-11-27)
Annual Upkeep CostUS$6 million
Staff25
Operators8
Technical Specifications
Max Thermal Flux2.8E14
Max Fast Flux2.2E14
CoolingLight Water
Neutron ModeratorLight Water
Neutron ReflectorBE
Control RodsAG, IN, CD
Cladding MaterialAluminum Alloy
Source(s): [2][3][4][5]
Website
www.eaea.org.eg

ETRR-2 or ET-RR-2 (Experimental Training Research Reactor Number two), (Egypt Test and Research Reactor Number two)[6] or (Multi-Purpose Reactor) is the second nuclear reactor in Egypt supplied by the Argentine company Investigacion Aplicada (INVAP) in 1992.[7] The reactor is owned and operated by Egyptian Atomic Energy Authority (EAEA) at the Nuclear Research Center in Inshas, 60 kilometres (37 mi) northeast of Cairo.[8]

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Transcription

History

Since 1990, Egypt started to search for a new research reactor to replace the aging ETRR-1 and the Israeli press claimed that Egypt was cooperating with Pakistan, Iraq and Argentina to build a plutonium-producing reactor for nuclear weapons. Finally, Egypt announced international tender and among the bidders were the Canadian Atomic Energy of Canada Limited, the French Framatome and the Argentinian INVAP.[9]

In September 1992, a contract was signed between INVAP and the Egyptian Atomic Energy Authority (EAEA) and a branch office of INVAP in Nasr City was established to oversee the project with the construction works began in 1993 jointly by Argentina and Egypt.[10]

In November 1997, ETRR-2 achieved initial criticality, and was inaugurated by the former Egyptian president Hosni Mubarak and the Argentine president Carlos Menem in February 1998.[10]

Overview

The ETRR-2 reactor hall, showing the main and auxiliary pools.

ETRR-2 is a Material Testing Reactor (MTR),[11][12] multi-purpose open pool type 22 MW reactor[13][14] with an initial fuel load of 19.75% enriched uranium U235 imported from Russia and the last shipment was delivered by Argentina in 1997. Since that, Egypt has fabricated the fuel rods for the ETRR-2 from the Fuel Manufacturing Pilot Plant (FMPP), which is located at the Nuclear Research Center in Inshas.[14][15] The reactor core is cooled and moderated by light water and beryllium reflector. The spent fuel from the ETRR-2 reactor stored in a water-filled spent fuel pool near the reactor waiting for final disposal in deep geological formations.[14]

According to the Wisconsin Project on Nuclear Arms Control and the International Institute for Strategic Studies, ETRR-2 could produce over 6 kilograms (13 lb) of plutonium annually which is enough for one nuclear weapon per year.[14]

Unreported nuclear experiments

In 2004–2005, an investigation by International Atomic Energy Agency (IAEA) discovered that between 1999 and 2003, Egypt conducted about 4 unreported experiments using a total of 0.24 g of natural uranium compounds irradiated at the ETRR-2 to test the production of fission product isotopes for medical purposes. The irradiated compounds had been dissolved in three laboratories located in the Nuclear Chemistry Building, but no plutonium or U-233 was separated during these experiments. Also, during the investigation Egypt disclosed the Radioisotope Production Facility which was a new facility under construction at Inshas, designed for the separation of radioisotopes from enriched 19.7% U-235 irradiated at the ETRR-2 reactor. Egypt should have reported the decision to construct the new facility no later than 1997.[16][17][18]

Egypt justified its reporting failures as the government and the IAEA had “differing interpretations” of Egypt's safeguards obligations, emphasizing that the country's “nuclear activities are strictly for peaceful purposes.”[16] Accordingly, Egypt showed full cooperation during the 2004–2005 investigation and had taken corrective actions by submitting inventory change reports (ICRs) and providing a modified design information for the ETRR-2 reactor and the Radioisotope Production Facility.[15][17][18][19]

In 2009, The IAEA's Safeguards Implementation Report (SIR) for 2008, concludes that earlier issues of undeclared nuclear activities and material reported to the Board of Governors in February 2005 are no longer outstanding as the IAEA found no discrepancies between what have been declared during the investigation and IAEA's findings, and no evidences of extraction of plutonium or enrichment of uranium.[15][17]

Reactor specifications

Data from[2][3][4]

General data

  • Safeguards: IAEA
  • Initial Cost: 75 M US$
  • Annual Cost: 6 M US$
  • Total Staff: 25
  • No of Operators: 8

Technical data

  • Reactor Type: Open pool
  • Thermal Power, Steady (kW): 22,000.00
  • Max Flux SS, Thermal (n/cm2-s): 2.8E14
  • Max Flux SS, Fast (n/cm2-s): 2.2E14
  • Thermal Power, Pulsed (MW): 0.00
  • Moderator: Light Water
  • Coolant: Light Water
  • Forced Cooling: 2000 M3/H, upward
  • Coolant Velocity in Core: 4.7 M/S
  • Reflector: BE
  • Reflector Number of Sides: 4
  • Control Rods Material: AG, IN, CD[clarification needed]
  • Control Rods number: 6

Experimental facilities

  • Horizontal Channels: 5
  • Horizontal Max Flux (n/cm2-s): 4.0E9
  • Horizontal Use: Neutron research and radiography
  • Vertical Channels: none
  • Core Irradiation Facilities: 3
  • Core Max Flux (n/cm2-s): 1.25E14, thermal
  • Reflector Irradiation Facilities: 26
  • Loops Number: 2
  • Loops Max Flux: 8E13
  • Loops use: research, instrumental neutron activation analysis

Fuel data

  • Origin of Fissile Material: Russia
  • Enrichment Supplier: INVAP, Argentina
  • Equilibrium Core Size: 40 DIA. X 48 X 80
  • Plates per Element: 19
  • Dimensions of Plates: 64 X 800 X 1.5
  • Cladding Material: Aluminum Alloy
  • Cladding Thickness, mm: 0.4
  • Fuel Thickness, mm: 0.7
  • Uranium Density, g/cm3: 3.017
  • Burnup on Discharge, max %: 63.7
  • Burnup Average, %: 61.7
  • Last Shipment Year: 1997
  • Last Receipt Year: 1997
  • Fuel Fabricator: Argentina

Utilization

  • Hours per Day: 24
  • Days per Week: 1
  • Weeks per Year: 48
  • MW Days per Year: 920
  • Materials/fuel test experiments: Yes
  • Isotope production: Yes
  • Neutron Scattering: No
  • Neutron radiography: Yes
  • Neutron capture therapy: No
  • Activation Analysis: Yes
  • Transmutation: Yes
  • Geochronology: No
  • Teaching: Yes
  • Training: Yes
  • Other Uses: medical and nuclear solid state research, condensed matter research, nuclear engineering experiments

See also

References

  1. ^ "Pinch Hitters • Where is Inshas?". Archived from the original on 2014-09-29. Retrieved 2015-04-07.
  2. ^ a b Global Research Nuclear Reactors Handbook: Strategic Information and Nuclear Reactors in Selected Countries (Algeria, Germany). [S.l.]: Intl Business Pubns Usa. 2013. pp. 161–163. ISBN 978-1577514503. Retrieved 11 July 2014.
  3. ^ a b "Research Reactor Details - ETRR-2". iaea.org. International Atomic Energy Agency. Retrieved 17 July 2014.
  4. ^ a b "Research Reactors - ETRR-2". nucleus.iaea.org. International Atomic Energy Agency. Retrieved 30 August 2014.
  5. ^ "Nuclear Research Center (NRC)". Nuclear Threat Initiative. James Martin Center for Nonproliferation Studies. Archived from the original on 3 June 2012. Retrieved 9 April 2015.
  6. ^ El-Messiry, A.M. (2000). "ETRR-2 control rod withdrawal accident". Annals of Nuclear Energy. Elsevier Ltd. 27 (8): 745–755. doi:10.1016/S0306-4549(00)82015-0.
  7. ^ Bissani, M.; O'Kelly, D. S. "Joint Assessment of ETRR-2 Research Reactor Operations Program, Capabilities, and Facilities" (PDF). Office of Scientific and Technical Information. University of California, Lawrence Livermore National Laboratory. Retrieved 19 July 2014.
  8. ^ "ETRR-2 reactor (Egypt)". INVAP. Archived from the original on 2015-04-02. Retrieved 9 April 2015.
  9. ^ "Egypt's Budding Nuclear Program". Wisconsin Project on Nuclear Arms Control. Archived from the original on 21 October 2014. Retrieved 3 September 2014.
  10. ^ a b Ragheb, M. "Safeguards, Non-Proliferation and Peaceful Nuclear Energy" (PDF). mragheb. Retrieved 9 April 2015.
  11. ^ Gahieen, Mohamed A. (November 2008). "Utilization of Egyptian Research Reactor and modes of collaboration" (PDF). IAEA. Retrieved 7 May 2016.
  12. ^ Shaat, M.K. (July 2010). "Products and Services of Research Reactors" (PDF). IAEA. Retrieved 7 May 2016.
  13. ^ Villarino, Eduardo; Doval, Alicia (2011). "INVAP's Research Reactor Designs". Science and Technology of Nuclear Installations. 2011: 4. doi:10.1155/2011/490391.
  14. ^ a b c d "ETRR-2". Nuclear Threat Initiative. James Martin Center for Nonproliferation Studies. Archived from the original on 12 February 2015. Retrieved 19 July 2014.
  15. ^ a b c Fitzpatrick, Mark (July 2011). "Nuclear capabilities in the Middle East" (PDF). nonproliferation.eu. EU Non-Proliferation Consortium. Archived from the original (PDF) on 4 March 2016. Retrieved 22 April 2015.
  16. ^ a b Kerr, Paul (1 March 2005). "IAEA: Egypt's Reporting Failures 'Matter of Concern'". Arms Control Association. Retrieved 22 April 2015.
  17. ^ a b c "Implementation of the NPT Safeguards Agreement in the Arab Republic of Egypt" (PDF). globalsecurity.org. International Atomic Energy Agency. Retrieved 21 April 2015.
  18. ^ a b "Radioisotope Production Facility". Nuclear Threat Initiative. James Martin Center for Nonproliferation Studies. Retrieved 22 April 2015.
  19. ^ Nartker, Mike (14 February 2005). "Egypt Failed to Report "A Number" of Nuclear Materials, Activities, Facilities, IAEA Says". Nuclear Threat Initiative. Global Security Newswire. Retrieved 22 April 2015.
This page was last edited on 19 February 2024, at 21:49
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