Design of rectangular single-phase natural circulation loop based on working fluid and geometry parameters to enhancement stability and mass flow rates: A research review

This literature review examines diverse experimental and numerical investigations of single-phase natural circulation loops, with particular emphasis on rectangular configurations. The analysis focused on two critical aspects: mass flow rate and instability phenomena. The examination of instability is categorized into three main sections: (1) The influence of geometric parameters and operational variables on single-phase natural circulation loop stability, (2) Methods for improving single-phase natural circulation loop stability through loop configuration modifications and component additions, and (3) stability mapping approaches for single-phase natural circulation loops. The study also explores how nanofluid implementation as a working medium affects mass flow characteristics and system stability. Our paper synthesizes contemporary developments in natural circulation loop studies, drawing parallels with passive cooling mechanisms in nuclear facilities. We seek to comprehensively assess present conditions and obstacles in enhancing mass flow and stability characteristics within single-phase natural circulation loops. Additionally, this analysis offers guidance for developing rectangular loops with optimized configurations, operational protocols, and geometric specifications.