A bubble-induced turbulence model is applied to subcooled boiling of water in a vertical pipe. The volume fractions, velocities, temperatures of water and steam and turbulence characteristics of the flow are estimated in a range of heat fluxes, subcooling temperatures and outlet pressures. The mathematical model involves solutions of transport equations for the variables of each phase with allowance for interphase transfer of momentum and energy. The numerical results agree satisfactorily with those of experimental and numerical results in the literature
Three-dimensional subcooled flow boiling of R134a in a horizontal tube was simulated by a VOF (volum...
In the top submerged lance (TSL) smelting process, flow boiling may occur in the lance’s inner pipe ...
Modeling subcooled flow boiling in vertical channels at low pressures requires not only the consider...
A bubble-induced turbulence model is applied to subcooled boiling of water in a vertical pipe. The v...
ASMEThe Science, Automation, and Control of Material Processes involving Coupled Transport and Rheol...
The results of numerical modeling of hydrodynamics and heat and mass transfer at boiling of subcoole...
International audienceA numerical study of boiling heat transfer in a turbulent liquid-vapor flow in...
This paper describes some of the key experimental results and features obtained from a study on upwa...
The present work builds on current numerical practices and techniques to simulate low pressure subco...
In this paper, the improved heat flux partitioning model based on first principal models of the unde...
[[abstract]]An asymptotic two time scales approach are proposed in the present modified two phase k-...
We report on the results of numerical simulation of the turbulent structure of a flow in a vertical ...
One of the essential industry problems is the critical heat flux (CHF) phenomenon in the flow boilin...
Bubble dynamics of a single condensing vapor bubble in a subcooled pool boiling system with a centra...
Abstract--This paper presents a numerical study for prediction of the void fraction in subcooled boi...
Three-dimensional subcooled flow boiling of R134a in a horizontal tube was simulated by a VOF (volum...
In the top submerged lance (TSL) smelting process, flow boiling may occur in the lance’s inner pipe ...
Modeling subcooled flow boiling in vertical channels at low pressures requires not only the consider...
A bubble-induced turbulence model is applied to subcooled boiling of water in a vertical pipe. The v...
ASMEThe Science, Automation, and Control of Material Processes involving Coupled Transport and Rheol...
The results of numerical modeling of hydrodynamics and heat and mass transfer at boiling of subcoole...
International audienceA numerical study of boiling heat transfer in a turbulent liquid-vapor flow in...
This paper describes some of the key experimental results and features obtained from a study on upwa...
The present work builds on current numerical practices and techniques to simulate low pressure subco...
In this paper, the improved heat flux partitioning model based on first principal models of the unde...
[[abstract]]An asymptotic two time scales approach are proposed in the present modified two phase k-...
We report on the results of numerical simulation of the turbulent structure of a flow in a vertical ...
One of the essential industry problems is the critical heat flux (CHF) phenomenon in the flow boilin...
Bubble dynamics of a single condensing vapor bubble in a subcooled pool boiling system with a centra...
Abstract--This paper presents a numerical study for prediction of the void fraction in subcooled boi...
Three-dimensional subcooled flow boiling of R134a in a horizontal tube was simulated by a VOF (volum...
In the top submerged lance (TSL) smelting process, flow boiling may occur in the lance’s inner pipe ...
Modeling subcooled flow boiling in vertical channels at low pressures requires not only the consider...