AUTHOR=Lian Qiang , Liang Yu , Liao Haoyu , Tang Simiao , Zhang Luteng , Ma Zaiyong , Sun Wan TITLE=Parametric study of density wave instability in parallel channels of a water-cooled blanket in a fusion reactor JOURNAL=Frontiers in Energy Research VOLUME=Volume 11 - 2023 YEAR=2023 URL=https://www.frontiersin.org/journals/energy-research/articles/10.3389/fenrg.2023.1251233 DOI=10.3389/fenrg.2023.1251233 ISSN=2296-598X ABSTRACT=In fusion reactor, many blanket concepts are designed with water as coolant to transfer the high-density heat from fusion reaction out of the reactor core. The coolant temperature and pressure are maintained as the validated use in water-cooled fission reactors. However, the flow channel in water-cooled blanket is independent to each other and there is no flow mixing between coolant channels. Therefore, flow instability may occur in the independent parallel channels in water-cooled blanket due to its unique structure and heat distribution, especially under the high heat flux caused by plasma rupture. In this study, the parametric analysis of density wave instability is performed using a thermal-hydraulic code developed for independent parallel channels based on the homogeneous model for two-phase flow. The parallel-channel system in water-cooled ceramic breeder (WCCB) blanket of China Fusion Engineering Experimental Reactor (CFETR) is established for its first wall structure. A small disturbance is introduced into the system to determine if it is stable under different conditions. It is found that the channel number has no obvious influence on the prediction of flow instability boundary. Therefore, the two-channel system is adopted to investigate the influence of different parameters, such as pressure, resistance, flow rate, and inclination, on the flow instability boundary of parallel channel system in CFETR WCCB blanket. The results show that the flow instability occurs more easily in this study compared to the traditional instability analysis especially under high-pressure condition. In general, the condition with high pressure, large flow rate and no inclination can stabilize the system, while the influence of resistance is quite different under different condition of resistance and pressure. The research work indicates that the joint influence of different parameters should be paid more attention to for the water-cooled blanket during its design and operation.