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Fuel tap: a simplified breed and burn MSR
de Oliveira, R. G. G., & Hombourger, B. A. (2021). Fuel tap: a simplified breed and burn MSR. In M. Margulis & P. Blaise (Eds.), EPJ web of conferences: Vol. 247. PHYSOR2020 - international conference on physics of reactors: transition to a scalable nuclear future (p. 01007 (8 pp.). https://doi.org/10.1051/epjconf/202124701007
The EQL0D fuel cycle procedure and its application to the transition to equilibrium of selected molten salt reactor designs
Hombourger, B., Křepel, J., & Pautz, A. (2020). The EQL0D fuel cycle procedure and its application to the transition to equilibrium of selected molten salt reactor designs. Annals of Nuclear Energy, 144, 107504 (18 pp.). https://doi.org/10.1016/j.anucene.2020.107504
On the feasibility of Breed-and-Burn fuel cycles in Molten Salt Reactors
Hombourger, B., Krepel, J., Mikityuk, K., & Pautz, A. (2018). On the feasibility of Breed-and-Burn fuel cycles in Molten Salt Reactors. In Proceedings series (International Atomic Energy Agency): Vol. CN245. Fast reactors and related fuel cycles: next generation nuclear systems for sustainable development (FR17). Proceedings of an international conference organized by the International Atomic Energy Agency, hosted by the government of the Russian Federation through the state atomic energy corporation "Rosatom" and held in Yekaterinburg, Russian Federation, 26–29 June 2017 (p. 388 (11 pp.). International Atomic Energy Agency.
The effectiveness of full actinide recycle as a nuclear waste management strategy when implemented over a limited timeframe – Part II: thorium fuel cycle
Lindley, B. A., Fiorina, C., Gregg, R., Franceschini, F., & Parks, G. T. (2016). The effectiveness of full actinide recycle as a nuclear waste management strategy when implemented over a limited timeframe – Part II: thorium fuel cycle. Progress in Nuclear Energy, 87, 144-155. https://doi.org/10.1016/j.pnucene.2014.11.016
The effectiveness of full actinide recycle as a nuclear waste management strategy when implemented over a limited timeframe - part I: uranium fuel cycle
Lindley, B. A., Fiorina, C., Gregg, R., Franceschini, F., & Parks, G. T. (2015). The effectiveness of full actinide recycle as a nuclear waste management strategy when implemented over a limited timeframe - part I: uranium fuel cycle. Progress in Nuclear Energy, 85, 498-510. https://doi.org/10.1016/j.pnucene.2015.07.020