Article ID Journal Published Year Pages File Type
1729217 Annals of Nuclear Energy 2011 24 Pages PDF
Abstract

The objective of the present paper is to present a 1-D model for simulating the startup from rest of water cooled single-phase natural circulation loops having horizontal heaters. The starting point of analysis is the inability of the 1-D codes to account for natural convection in the heater. Present 1-D models are unable to account for axial diffusion in the fluid caused by natural convection. Start-up from rest and many other characteristics cannot be simulated using classical 1-D models because of the inherent tendency of the predicted dynamics to be attracted by zero flow condition. The paper presents an elegant approach for taking into account both natural and forced convection. The enhancement of fluid motion and thermal mixing by natural convection is an important consideration in the design of nuclear reactors. Hence, the model developed is of direct relevance to nuclear reactor thermal hydraulics. The model developed for natural convection has been validated against the CFD simulations. The model developed has been incorporated in a classical 1-D model developed by the authors previously. The application of model to a rectangular single-phase natural circulation loop show that the model can predict the loop behavior from start-up with fidelity. The model reproduces most of the characteristics like unidirectional oscillation, bidirectional oscillations and chaotic switching reasonably well. Finally, model has been used to investigate the phenomenon of hysteresis observed in experimental loop. The paper also brings out the role of constitutive laws for wall friction in predicting the loop dynamics.

► A model has been developed for natural convection and mixed convection in pipes using scale analysis. ► The model has been integration with a 1-D model and its utility in predicting start-up from rest has been demonstrated. ► Start-up of single-phase natural circulation loops from rest state has been simulated successfully. ► Unidirectional, bidirectional and chaotic pulsation behavior of NCLs has been simulated successfully. ► Role of constitutive laws for wall friction factor in predicting NCL dynamics has been brought out.

Related Topics
Physical Sciences and Engineering Energy Energy Engineering and Power Technology
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