doi:10.1016/j.ijhydene.2013.10.045

Paper Title

Combustion characteristics and flame-kernel development of a laser ignited hydrogen–air mixture in a constant volume combustion chamber

Authors

Avinash Kumar Agarwal

Dhananjay Kumar Srivastava

Kewal Dharmasi

Keywords

Laser Ignition
Hydrogen-Air Mixture
Constant Volume Combustion Chamber
CVCC
Q-Switched Nd:YAG Laser
Pulse Duration
Plasma Generation
Flammability Limits
Pressure-Time History
Flame Kernel Development
Shadowgraphy
Flame Propagation Distance
Minimum Ignition Energy
Air-Fuel Ratios
Laser Pulse Energy
Combustion Rate
Peak Cylinder Pressure
Hydrogen Combustion

Article Type

Research Article

Journal

International Journal of Hydrogen Energy

Research Impact Tools

DOI

10.1016/j.ijhydene.2013.10.045

Issue

Volume : 39 | Issue : 1 | Page No : 593-601

Published On

January, 2014

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Abstract

Laser ignition of hydrogen–air mixture was carried out in a constant volume combustion chamber (CVCC) at 10 bar initial chamber filling pressure and 373 K chamber temperature. A Q-switched Nd:YAG laser at 1064 nm with a pulse duration of 6–9 ns was used for plasma generation and ignition of combustible hydrogen–air mixture. Pressure–time history of different hydrogen–air mixtures was measured in the CVCC and flammability limits of hydrogen–air mixture were measured. Flame kernel development was investigated for different air–fuel mixtures using Shawdowgraphy and flame propagation distances were calculated. Minimum ignition energy was measured for hydrogen–air mixtures of different air–fuel ratios and effect laser pulse energy on pressure–time history in the CVCC was experimentally measured. Upon increasing the laser pulse energy, time taken to attain peak cylinder pressure reduced which resulted in faster combustion in hydrogen–air mixtures however the peak cylinder pressure remained similar.