The Combustion & Laser Sensing Laboratory (C&LSL) of Wuhan University of Technology conducts research related to combustion of hydrocarbobn and carbon-neutral fuels, flame dynamics, soot/NOx formation, heat transfer, advanced laser diagnostics, and high-fidelity reactive flow simulations. C&LSL houses a variety of laboratory-scale burners and is fully equipped with state-of-the-art test facilities that are capable of measuring flow field, temperature field, species mole fractions and soot properties during the combustion process. In addition, C&LSL is active in the development of novel laser-based gas sensing techniques for combustion, energy and enviromental applications.
Sensitivity of soot formation to strain rate in steady counterflow flames determines its response under unsteady conditions
UV-visible chemiluminescence signature of laminar ammonia-hydrogen-air flames
Chemical speciation and soot measurements in laminar counterflow diffusion flames of ethylene and ammonia mixtures
Sensitivity of soot formation to strain rate in steady counterflow flames determines its response under unsteady conditions
Spatially and temporally resolved temperature measurements in counterflow flames using a single interband cascade laser
Development and validation of a hybrid constraint spectral thermometry for laminar sooting flames
Simultaneous measurements of temperature, CO2 concentration and soot volume fraction in counterflow diffusion flames using a single mid-infrared laser
Spatially and temporally resolved temperature measurements in counterflow flames using a single interband cascade laser
