The computational fluid dynamics (CFD) analysis of the FW06 panel of the ITER shielding blanket is presented in two companion papers. In this Part II we concentrate on the thermal-hydraulics of the water coolant, driven by the nuclear volumetric and plasma surface heat loads discussed in Part I. Both the detailed steady state analysis of a single cooling channel and the coarse transient analysis of the whole panel are considered. The compatibility of the hot spots with the maximum recommended temperatures for the different materials is confirmed. The heat transfer coefficient between coolant and walls is obtained post-processing the results of the simulation and compared with the results of available correlations, which may be used for simpler analyses: in the fully developed flow regions of the cooling pipes, it turns out to be well approximated by the Sieder–Tate correlation. The operation margin with respect to the critical heat flux is also computed and turns out to be sufficiently large compared with the design limit.

CFD analysis of the ITER first wall 06 panel. Part II: Thermal-hydraulics / Zanino, Roberto; Bonifetto, Roberto; Cau, F.; Portone, A.; Savoldi, Laura. - In: FUSION ENGINEERING AND DESIGN. - ISSN 0920-3796. - STAMPA. - 89:(2014), pp. 431-441. [10.1016/j.fusengdes.2014.03.088]

CFD analysis of the ITER first wall 06 panel. Part II: Thermal-hydraulics

ZANINO, Roberto;BONIFETTO, ROBERTO;SAVOLDI, LAURA
2014

Abstract

The computational fluid dynamics (CFD) analysis of the FW06 panel of the ITER shielding blanket is presented in two companion papers. In this Part II we concentrate on the thermal-hydraulics of the water coolant, driven by the nuclear volumetric and plasma surface heat loads discussed in Part I. Both the detailed steady state analysis of a single cooling channel and the coarse transient analysis of the whole panel are considered. The compatibility of the hot spots with the maximum recommended temperatures for the different materials is confirmed. The heat transfer coefficient between coolant and walls is obtained post-processing the results of the simulation and compared with the results of available correlations, which may be used for simpler analyses: in the fully developed flow regions of the cooling pipes, it turns out to be well approximated by the Sieder–Tate correlation. The operation margin with respect to the critical heat flux is also computed and turns out to be sufficiently large compared with the design limit.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2555547
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