NUMERICAL ANALYSIS OF NUCLEATE BOILING FLOW IN A PILOT-SCALE THERMOSIPHON

Abstract

Thermosiphons, or natural circulation loops, are circuits in which a flow pattern is driven by buoyancy forces originated from density differences, a consequence of temperature gradient. In this study, an evaporation section was evaluated by numerical simulations, in order to determine heat flux conditions for a pilot-scale thermosiphon. A two-fluid Eulerian-Eulerian model was used to represent multiphase fluid dynamic, including heat transfer and phase change effects. The results showed that a 1000 W rate is enough to generate a nucleate boiling regime. Rates up to 2000 W produce a mean vapor volume fraction greater than 0.30 at boiling region. As a result, the pilot-scale thermosiphon was designed with four 500 W electrical resistances. Keywords: Pilot-scale thermosiphon. Nucleate boiling. CFD.