TY - JOUR
TI - Computational fluid dynamics parametric investigation for two-phase flow of ammonia-water mixing in bubble pump tube
AU - Benhmidene Ali
AU - Arjun Kozhikkatil Sunil
AU - Chaouachi Bechir
JN - Thermal Science
PY - 2021
VL - 25
IS - 1
SP - 433
EP - 448
PT - Article
AB - The 2-D numerical simulation of two-phase NH3-water flowing under uniformly heated tube is used. The ANSYS FLUENT is used to predict the time evolution of thermal and hydrodynamic parameters of the bubble pump. Phase-dependent turbulent models are used to calculate the turbulent viscosity of each phase. Through user-defined functions, different interfacial force models and the wall boiling model are implemented in the code. The simulation results show a slow oscillation of hydrodynamic parameters such as: pressure, mass flux, vapor velocity, and liquid velocity during the initial stage of operation. However, a vigorous oscillation is detected for the temperature behavior. The amplitude and period of oscillation decrease with the heat input increasing. By using the void fraction contour, it is possible to predict the flow regime along the bubble pump at different times of the operation. The domination of flow regime is the function of heat flux too. It is bubbly to slug for heat fluxes less than 5 kW/m² and transits from churn to annular for 15 kW/m² and 50 kW/m² of heat flux.