LAUSR

Tunable diode laser absorption spectroscopy (TDLAS) tomography enables online diagnosis of dynamic flames by imaging its temperature variations and exhaust gases, owing to its rapid response. Each tomographic image requires huge laser absorption spectrum data along multiple laser paths. For a high temporal resolution, the data sampling rate needs to be as high as possible which challenges the hardware implementation of parallel data acquisition (DAQ) of multiple channels. An online TDLAS tomography system was designed on field programmable gate array (FPGA) and PC for temperature and gas mole fraction distribution measurement. An on- chip parameter extraction module based on digital lock-in amplifier (DLIA) extracts absorption spectrum parameters at 1000 frames/s (FPS), and the framerate of real-time reconstruction on the host PC can reach up to 302 frames/s. A high-speed buffer on FPGA termed a transient spectrum recorder continuously records the latest 5 s of raw data. Both the playback of absorption spectrum parameters and raw data provide a way for a detailed and in- depth understanding of the dynamic combustion process. Experiments were carried out by using an alcohol burner to evaluate the online monitoring and offline playback abilities of the system.