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Recuperated versus single-recuperator re-compressed supercritical CO2 Brayton power cycles for DEMO fusion reactor based on dual coolant lithium lead blanket

J.I. Linares, A. Cantizano, E.M. Arenas, B.Y. Moratilla, V. Martín Palacios, L. Batet

Energy Vol. 140, nº. Part 1, pp. 307 - 317

Summary:
The EUROfusion research program is currently exploring alternative solutions for a future fusion power plant with DEMO (DEMOnstration Power Plant) prototype. One of the most important issues arising from a dual coolant lithium lead blanket-based reactor is the correct integration of the four thermal sources in order to achieve the highest electricity production. This study analyses the technical feasibility of supercritical CO2 Brayton power cycles. Starting with a classical re-compressed cycle, which is taken as the baseline case, two alternative proposals are investigated. On the one hand, a modified re-compressed layout with only one recuperator is studied, and is found to achieve the same electric efficiency as that of the baseline case (34.6%). On the other hand, an optimised recuperated layout is proposed, which achieves a 33.6% electric efficiency. A parametric study is conducted in order to optimise the heat exchanger size. When the re-compressed layout is optimised, a loss of efficiency (5%) is experienced. In the case of the recuperated layout optimisation the efficiency loss is reduced to 3%, achieving a reduction in heat exchanger size of 2/3.


Keywords: Balance of plant; Fusion power; Supercritical CO2 Brayton cycle; DCLL; DEMO


JCR Impact Factor and WoS quartile: 4,968 - Q1 (2017); 9,000 - Q1 (2023)

DOI reference: DOI icon https://doi.org/10.1016/j.energy.2017.08.105

Published on paper: December 2017.

Published on-line: September 2017.



Citation:
J.I. Linares, A. Cantizano, E.M. Arenas, B.Y. Moratilla, V. Martín Palacios, L. Batet, Recuperated versus single-recuperator re-compressed supercritical CO2 Brayton power cycles for DEMO fusion reactor based on dual coolant lithium lead blanket. Energy. Vol. 140, nº. Part 1, pp. 307 - 317, December 2017. [Online: September 2017]


    Research topics:
  • Numerical modelling
  • Thermal and Fluids Engineering

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