先进燃烧实验室主要开展氢能、氨氢融合新能源、清洁燃烧、光电传感新技术、机器学习等方向的科学研究和工程开发工作,致力于为国家“碳达峰、碳中和”战略在能源领域的实施做出贡献。实验室现有固定科研人员4人,博士、硕士研究生共30余人,实验室研究生多次获得国家奖学金、校卓越奖学金,优秀毕业研究生、优秀毕业论文等荣誉,具有广阔的学术界及工业界就业前景。
实验室各类科研资源丰富,拥有总值2000余万元的科研设备。部分研究生安排在国家能源氢能及氨氢融合新能源技术重点实验室(佛山仙湖实验室)培养,相关科研补助硕士生>2000元/月,博士生>4000元/月(各类奖学金另计)。
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
