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STEAM Experimental Facility: A Step Forward for the Development of the EU DEMO BoP Water Coolant Technology

Author

Listed:
  • Alessandra Vannoni

    (DIAEE Department, Sapienza University of Rome, 00186 Rome, Italy)

  • Pierdomenico Lorusso

    (Department of Fusion and Nuclear Safety Technology, ENEA, 00044 Frascati, Italy)

  • Pietro Arena

    (Department of Fusion and Nuclear Safety Technology, ENEA, 40032 Camugnano, Italy)

  • Marica Eboli

    (Department of Fusion and Nuclear Safety Technology, ENEA, 40032 Camugnano, Italy)

  • Ranieri Marinari

    (Department of Fusion and Nuclear Safety Technology, ENEA, 40032 Camugnano, Italy)

  • Amelia Tincani

    (Department of Fusion and Nuclear Safety Technology, ENEA, 40032 Camugnano, Italy)

  • Cristiano Ciurluini

    (DIAEE Department, Sapienza University of Rome, 00186 Rome, Italy)

  • Fabio Giannetti

    (DIAEE Department, Sapienza University of Rome, 00186 Rome, Italy)

  • Nicolò Badodi

    (Nuclear Engineering Division, Department of Energy, Politecnico di Milano, 20156 Milan, Italy)

  • Claudio Tripodo

    (Nuclear Engineering Division, Department of Energy, Politecnico di Milano, 20156 Milan, Italy)

  • Antonio Cammi

    (Nuclear Engineering Division, Department of Energy, Politecnico di Milano, 20156 Milan, Italy)

  • Luciana Barucca

    (Ansaldo Nucleare, 16152 Genoa, Italy)

  • Andrea Tarallo

    (CREATE Consortium, Università di Napoli Federico II, 80125 Naples, Italy)

  • Pietro Agostini

    (Department of Fusion and Nuclear Safety Technology, ENEA, 40032 Camugnano, Italy)

  • Alessandro Del Nevo

    (Department of Fusion and Nuclear Safety Technology, ENEA, 40032 Camugnano, Italy)

Abstract

Within the EUROfusion roadmap for the technological development of the European-DEMOnstration (EU-DEMO) reactor, a key point has been identified in the discontinuous operation (pulse-dwell-pulse) of the machine. Water Cooled Lithium Lead (WCLL) Breeding Blanket (BB) Primary Heat Transfer Systems (PHTSs) adopt technology and components commonly used in nuclear fission power plants, whose performances could be negatively affected by the above mentioned pulsation, as well as by low-load operation in the dwell phase. This makes mandatory a full assessment of the functional feasibility of such components through accurate design and validation. For this purpose, ENEA Experimental Engineering Division at Brasimone R.C. aims at realizing STEAM, a water operated facility forming part of the multipurpose experimental infrastructure Water cooled lithium lead -thermal-HYDRAulic (W-HYDRA), conceived to investigate the water technologies applied to the DEMO BB and Balance of Plant systems and components. The experimental validation has the two main objectives of reproducing the DEMO operational phases by means of steady-state and transient tests, as well as performing dedicated tests on the steam generator aiming at demonstrating its ability to perform as intended during the power phases of the machine. STEAM is mainly composed of primary and secondary water systems reproducing the thermodynamic conditions of the DEMO WCLL BB PHTS and power conversion system, respectively. The significance of the STEAM facility resides in its capacity to amass experimental data relevant for the advancement of fusion-related technologies. This capability is attributable to the comprehensive array of instruments with which the facility will be equipped and whose strategic location is described in this work. The operational phases of the STEAM facility at different power levels are presented, according to the requirements of the experiments. Furthermore, a preliminary analysis for the definition of the control strategy for the OTSG mock-up was performed. In particular, two different control strategies were identified and tested, both keeping the primary mass flow constant and regulating the feedwater mass flow to follow a temperature set-point in the primary loop. The obtained numerical results yielded preliminary feedback on the regulation capability of the DEMO steam generator mock-up during pulsed operation, showing that no relevant overtemperature jeopardized the facility integrity, thanks to the high system responsivity to rapid load variations.

Suggested Citation

  • Alessandra Vannoni & Pierdomenico Lorusso & Pietro Arena & Marica Eboli & Ranieri Marinari & Amelia Tincani & Cristiano Ciurluini & Fabio Giannetti & Nicolò Badodi & Claudio Tripodo & Antonio Cammi & , 2023. "STEAM Experimental Facility: A Step Forward for the Development of the EU DEMO BoP Water Coolant Technology," Energies, MDPI, vol. 16(23), pages 1-26, November.
  • Handle: RePEc:gam:jeners:v:16:y:2023:i:23:p:7811-:d:1288982
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    References listed on IDEAS

    as
    1. Aldo Collaku & Pietro Arena & Alessandro Del Nevo & Ranieri Marinari & Laura Savoldi, 2023. "Design of a Test Section for the Experimental Investigation of the WCLL Manifold Hydraulic Features," Energies, MDPI, vol. 16(5), pages 1-13, February.
    2. Francesco Casella & Alberto Leva, 2006. "Modelling of thermo-hydraulic power generation processes using Modelica," Mathematical and Computer Modelling of Dynamical Systems, Taylor & Francis Journals, vol. 12(1), pages 19-33, February.
    3. Amelia Tincani & Cristiano Ciurluini & Alessandro Del Nevo & Fabio Giannetti & Andrea Tarallo & Claudio Tripodo & Antonio Cammi & Alessandra Vannoni & Marica Eboli & Tommaso Del Moro & Pierdomenico Lo, 2023. "Conceptual Design of the Steam Generators for the EU DEMO WCLL Reactor," Energies, MDPI, vol. 16(6), pages 1-11, March.
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