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Conceptual design of Indian molten salt breeder reactor

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Abstract

The third stage of Indian nuclear power programme envisages the use of thorium as the fertile material with 233U, which would be obtained from the operation of Pu/Th based fast reactors in the later part of the second stage. Thorium-based reactors have been designed in many configurations, from light water-cooled designs to high-temperature liquid metal-cooled options. Another option, which holds promise, is the molten salt-fuelled reactor, which can be configured to give significant breeding ratios. A crucial part for achieving reasonable breeding in such reactors is the need to reprocess the salt continuously, either online or in batch mode. India has recently started carrying out fundamental studies so as to arrive at a conceptual design of Indian molten salt breeder reactor (IMSBR). Presently, various design options and possibilities are being studied from the point of view of reactor physics and thermal hydraulic design. In parallel, fundamental studies on natural circulation and corrosion behaviour of various molten salts have also been initiated.

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References

  1. R C Robertson, Conceptual design study of a single-fluid molten-salt breeder reactor, Tech. Rep. ORNL-4541, ORNL (1971)

  2. R C Robertson, O L Smith, R B Briggs and E S Bettis, Two-fluid molten salt breeder reactor, design study, Tech. Rep. ORNL-4528, ORNL (1970)

  3. R B Briggs, Summary of the objectives, the design, and a program of development of molten salt breeder reactors, Tech. Rep. ORNL-TM-1851, ORNL (1967)

  4. Uri Gat, Nucl. Engg. Design 5, 113 (1967)

  5. E S Bettis, R W Schroeder, G A Christy, H W Savage, R G Affel and L F Hemphill, Nucl. Sci. Eng. 2, 804 (1957)

  6. M W Rosenthal, An account of Oak Ridge National Laboratorys thirteen nuclear reactors, Tech. Rep. ORNL/TM-2009/181, ORNL (2009)

  7. P R Kasten, E S Bettis and R C Robertson, Design studies of 1000-MW(e) molten salt breeder reactor, Tech. Rep. ORNL-3996, ORNL (1966)

  8. V Ignatiev, O Feynberg, I Gnidoi, A Merzlyakov, V Smirnov, A Surenkov, I Tretiakov, R Zakirov, V Afonichkin, A Bovet, V Subbotin, A Panov, A Toropov and A Zherebtsov, in: Int. Congress on Advances in Nuclear Power Plants (ICAPP 2007) (Societe Francaise dEnergie Nucleaire, Nice, France, 2007)

  9. IAEA, Status of small reactor designs without on-site refuelling, Tech. Rep. IAEA-TECDOC- 1536, IAEA (2007)

  10. K Sridharan, Fluoride salt-cooled high temperature reactor (FHR) materials and corrosion, Technical Meeting on High-Temperature Qualification of High Temperature Gas Cooled Reactor Materials, IAEA, Vienna (2014)

  11. D D Sood, P N Iyer, R Prasad, V N Vaidya, K N Roy, V Venugopal, P Venkataramana, Z Singh, P S Nair, B N Patil and M V Ramaniah, Chemical development work in molten salt breeder reactor concept, Tech. Rep. BARC-690, BARC (1972)

  12. P N Iyer, R Prasad, V N Vaidya, K Nag, Z Singh, D D Sood and M V Ramaniah, Molten salt chemistry - Part I, preparation of CeF 3, PuF 3, ThF 4 and purification of LiF–BeF 2ThF 4 mixture, Tech. Rep. BARC-670, BARC (1973)

  13. P N Iyer, R Prasad, V N Vaidya, K Nag, Z Singh, D D Sood and M V Ramaniah, Molten salt chemistry Part II, solubility of CeF 3 in molten LiF–BeF 2–ThF4 mixture, Tech. Rep. BARC-671, BARC (1973)

  14. D D Sood, P N Iyer, R Prasad, V N Vaidya, K N Roy, V Venugopal, Z Singh and M V Ramaniah, Nucl. Technol. 27, 3, 411 (1975)

  15. V Venugopal, in: Proc. Conf. on Molten Salts in Nucl. Technol. (CMSNT-2013) (BARC, Mumbai, India, 2013)

  16. International Fuel Cycle Evaluation, Alternate Fuel Cycles for Fast Breeder Reactors, Tech. Rep. INFCE/DEP/WG.5/78, IAEA (1978)

  17. E Merle-Lucotte, M Allibert, M Brovchenko, V Ghetta, D Heuer and P Rubiolo, in: Proceedings of the European nuclear conference ENC2012 (Manchester, UK, 2012)

  18. Mariya Brovchenko, Elsa Merle-Lucotte, Hervé Rouch, Fabio Alcaro, Manuele Aufiero, Antonio Cammi, Sandra Dulla, Olga Feynberg, Lodewijk Frima, Olivier Geoffroy, Daniel Heuer, Victor Ignatiev, Jan-Leen Kloosterman, Danny Lathouwers, Axel Laureau, Lelio Luzzi, Bruno Merk, Piero Ravetto, Andrei Rineiski, Pablo Rubiolo, Maté Szieberth, Shisheng Wang and Bogdan Yamaji, Optimization of the pre-conceptual design of the MSFR, Tech. Rep. R_EVOL_D2.2, EVOL (2013)

  19. A Basak, I V Dulera, P K Vijayan and K K Vaze, Molten salt breeder reactors, Tech. Rep. RED/HTRS/MSBR/1, BARC (2013)

  20. I V Dulera, P K Vijayan and R K Sinha, in: Proc. Conf. Molten Salts in Nucl. Technol. (CMSNT-2013) (BARC, Mumbai, India, 2013)

  21. P K Vijayan, Nucl. Eng. Design 215, 139 (2002)

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Authors and Affiliations

  1. Reactor Engineering Division, Bhabha Atomic Research Centre, Trombay, Mumbai, 400 085, India

    P K VIJAYAN, A BASAK, I V DULERA, K K VAZE & S BASU

  2. Department of Atomic Energy, Mumbai, 400 001, India

    R K SINHA

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  1. P K VIJAYAN
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  2. A BASAK
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  3. I V DULERA
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  4. K K VAZE
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  5. S BASU
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  6. R K SINHA
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Correspondence to P K VIJAYAN.

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VIJAYAN, P.K., BASAK, A., DULERA, I.V. et al. Conceptual design of Indian molten salt breeder reactor. Pramana - J Phys 85, 539–554 (2015). https://doi.org/10.1007/s12043-015-1070-0

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  • DOI: https://doi.org/10.1007/s12043-015-1070-0

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