Influence of Triggered Seed Bubbles on Flow Boiling in Microchannels

Lu Xiang Zong; Jin Liang Xu

doi:10.4028/www.scientific.net/AMM.442.405

Paper Titles

The Stability Analysis Based on EDF Scheduling Algorithm in CAN Bus
p.381

Driving Power Supply of Single-Chamber and Single-Vibrator Piezoelectric Pump
p.386

Vibration Characteristics Analysis for the Stator of Dynamic Friction Linear Piezoelectric Stack Motors
p.392

Method of Automobile-Sensitive Component of Safety Belt's Dimensional Inspection Based on Machine Vision
p.397

Influence of Triggered Seed Bubbles on Flow Boiling in Microchannels
p.405

Research of Evolutionary Multi-Objective Optimization Algorithm Model Based on AIS
p.413

A Kind of Evolutionary Multi-Objective Optimization Algorithm Based on AIS
p.419

Control System Design of Pneumatic Conveying in Sand/Dust Environment Simulation Test
p.424

DRNN Based Decoupling Algorithm of Self-Tuning Controller on Line
p.430

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 442Influence of Triggered Seed Bubbles on Flow...

Influence of Triggered Seed Bubbles on Flow Boiling in Microchannels

Abstract:

Combined with a simple phase change model, the Volume of Fluid (VOF) method is used for simulating the seed bubble triggered boiling in a single circular microchannel with 6.5mm length. Simulation results show that the introduction of seed bubbles improves the heat transfer performance and suppresses the flow instability simultaneously. The seed bubbles are triggered into the microchannel for f=2000 Hz, passing by only about five numbers of periods, the wall superheats remarkably decreased, a complete thermal equilibrium between the liquid and vapor phases is approached, the flow instability can be controlled successfully. At the stable flow stage, the heat transfer which can reach more than 3 times the single liquid phase heat transfer dominated by the local liquid film thickness, which is the actual heat transfer length-scale in the liquid film regime. However, the liquid bridge region existing between the bubbles produces a week heat transfer mechanism.