References
- IAEA, Ageing Management for Research Reactors, Specific Safety Guide No. SSG-10, International Atomic Energy Agency (IAEA), Vienna, Austria, 2010.
- V.V. Kalygin, A.P. Malkov, V.V. Pimenov, Effect of 3He and 6Li accumulation in beryllium blocks on the neutron-physical characteristics of the MIR reactor, Atom. Energy 104 (2008) 114-119. https://doi.org/10.1007/s10512-008-9009-x
- X.-L. Zou, Y.-Q. Bai, M.-H. Wang, B. Hong, Analysis of beryllium poisoning effect on liquid metal reactor with U-Be alloy fuel, Nucl. Sci. Tech. 30 (35) (2019) 7.
- K.J. Andrzejewski, T.A. Kulikowska, Z.E. Marcinkowska, Computations of fuel management in MARIA reactor with highly poisoned beryllium matrix, Nukleonika 53 (2008) 173-179.
- David Chandler, G. Ivan Maldonado, L.D. Proctor, R.T. Primm III, Transmutations in HFIR's beryllium reflector and their impact on reactor operation and reflector disposal, Nucl. Technol. 177 (2012) 395-412. https://doi.org/10.13182/NT12-A13483
- A.L. Izhutov, A.P. Malkov, A.L. Petelin, S.A. Sazontov, V.A. Starkov, SM Reactor Core Modernization Program, RRFM2017 Proceeding, Rotterdam, Netherlands, 2017.
- E. Villarino, I. Mochi, P. Sartorio, INVAP neutronic calculation line, Mecanica ' Computacional XXXIII (2014) 3217-3226.
- T. Kulikowska, K. Andrzejewski, M.M. Bretscher, He-3 and Li-6 poisoning of the MARIA reactor beryllium matrix, in: Report IAE-40/A, Institute of Atomic Energy, Swierk, Poland, 1999.
- K.J. Andrzejewski, T.A. Kulikowska, Isotopic transmutations in irradiated beryllium and their implications on MARIA reactor operation, Nucl. Technol. Fusion (2004) 72-82.
- IAEA, Research Reactor Benchmarking Data Base, Facility Specification and Experimental Data, Technical Reports Series No. 480, International Atomic Energy Agency (IAEA), Vienna, Austria, 2016.
- Elhefnawy, Modeling and Characterization of Beryllium Reflector Elements under Irradiation Conditions, Master Thesis, Alexandria University, Egypt, 2019.
- D. Amaya, R. Mazzi, Improving the Cooling Conditions of the Irradiation Grid of a 22 MW Multipurpose Research Reactor, 18th International Conference on Structural Mechanics in Reactor Technology (SMiRT 18) Beijing, China, 2005.
- F. Puig, H. Dennis, Neutron fluence effects on SLOWPOKE-2 beryllium reflector composition and reactivity, Nucl. Eng. Des. 305 (2016) 451-460. https://doi.org/10.1016/j.nucengdes.2016.05.033
- M. Aziz, A.M. El Messiry, The effect of beryllium interaction with fast neutrons on the reactivity of ETRR-2 research reactor, in: Seventh Conference of Nuclear Sciences & Applications 6-10 February, 2000. Cairo, Egypt.
- IAEA, Benchmarking against Experimental Data of Neutronics and Thermohydraulic Computational Methods and Tools for Operation and Safety Analysis of Research Reactors, International Atomic Energy Agency (IAEA), Vienna, Austria, 2019. IAEA-TECDOC-1879.
- L.E. Moloko, Master thesis, in: Impact of Beryllium Reflector Ageing on SAFARI-1 Reactor Core Parameters, North-West University, South Africa, 2011.
- G.R. Longhurst, K. Tsuchiya, C.H. Dorn, S.L. Folkman, T.H. Fronk, M. Ishihara, H. Kawamura, T.N. Tranter, R. Rohe, M. Uchida, E. Vidal, Managing beryllium in nuclear facility applications, Nucl. Technol. 176 (3) (2011) 430-441. https://doi.org/10.13182/NT11-A13318