Email-ID
Password
Forget password?






New User Registration
%20%20%20%20Homogeneous%20Combustion%20Characteristics%20and%20Flame%20Stabilization%20in%20Small%20Channels
Research article
  

Homogeneous Combustion Characteristics and Flame Stabilization in Small Channels


Junjie Chen, Xuhui Gao

School of Mechanical and Power Engineering, Henan Polytechnic University, Jiaozuo, China


Corresponding author :

Junjie Chen,
Email:

Received: November 12, 2014,   Accepted: December 4, 2014,   Published:


Abstract:

The push toward the miniaturization of electromechanical devices and the resulting need for micro-power generation systems with low-weight, long-life devices has led to the recent development of the field of micro-combustion. The concept behind this new field is that since batteries have low specific energy and liquid hydrocarbon fuels have a very high specific energy, a miniaturized power-generating device, even with a relatively inefficient conversion of hydrocarbon fuels to power, would result in increased lifetime and/or reduced weight of an electronic or mechanical system that currently requires batteries for power. The high energy density of hydrocarbon fuels creates a great opportunity to develop combustion based micro-power generation systems to meet increasing demands for portable power devices, micro unmanned aerial vehicles, micro-satellite thrusters, and micro chemical reactors and sensors. In this paper, the recent technological development and progress in fundamental understanding of micro-scale combustion are reviewed. Furthermore, gas-phase combustion in small channels is reviewed. Flame stabilization is contrasted to propagation and the mechanisms for stability loss are discussed. The role of key wall materials’ parameters and operation variables in flame characteristics and stability is elucidated.


Keywords: Homogeneous combustion, Flame stability, Quenching mechanisms, Flame propagation, Heat recuperation


Citation:

Junjie Chen et all., (2014) Analysis on Crack Propagation in Ti-6al-4v Skin under Tensile Loading J. of Advancement in Engineering and Technology. V2I2. DOI: 10.15297/JAET.V2I2.01


Copyright:

© 2014 Junjie Chen. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.


      
Download PDF

      Journal of Advancement in Engineering and Technology