Unburned carbon measurement in fly ash using laser-induced breakdown spectroscopy with short nanosecond pulse width laser

Compared with 6 ns pulse width laser, interference of C signal from CO2 on unburned carbon of fly ash reduced when using 1ns pulse width laser, with more stable plasma states. [Display omitted] •1 ns pulse width laser was proposed for fly ash powder flow measurement with LIBS.•Unburned carbon measur...

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Bibliographic Details
Published in:Advanced powder technology : the international journal of the Society of Powder Technology, Japan Japan, 2019-06, Vol.30 (6), p.1210-1218
Main Authors: Liu, Renwei, Deguchi, Yoshihiro, Nan, Weigang, Hu, Ruomu, Wang, Zhenzhen, Fujita, Yuki, Tanaka, Seiya, Tainaka, Kazuki, Tanno, Kenji, Watanabe, Hiroaki, Liu, Jiping, Yan, Junjie
Format: Article
Language:English
Subjects:
Fly ash powder flow
Laser-induced breakdown spectroscopy
Short nanosecond pulse width laser
Solid powder breakdown
Surrounding gas breakdown
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Summary:Compared with 6 ns pulse width laser, interference of C signal from CO2 on unburned carbon of fly ash reduced when using 1ns pulse width laser, with more stable plasma states. [Display omitted] •1 ns pulse width laser was proposed for fly ash powder flow measurement with LIBS.•Unburned carbon measurement shows less interference from surrounding CO2.•Plasma temperature, solid breakdown signals become more stable.•Microchip laser with high durability and long lifetime shows online potential. The unburned carbon in fly ash is one of the important factors for the boiler combustion condition. Controlling the unburned carbon in fly ash is beneficial for fly ash recycle and to improve the combustion efficiency of the coal. Laser-induced breakdown spectroscopy (LIBS) technology has been applied to measure the fly ash contents due to its merits of non-contact, fast response, high sensitivity, and real-time measurement. In this study, experimental measurements have been adopted for fly ash flows with the surrounding gases of N2 and CO2, while the CO2 concentration varified to evaluate the CO2 effect on the unburned carbon signal from fly ash powder. Two kinds of pulse width lasers, 6 ns and 1 ns, were separately adopted to compare the influence of laser pulse width. Results showed that compared with that using 6 ns pulse width laser, plasma temperature was lower and had less dependence on delay time when using 1 ns pulse width laser, and spectra had more stable background. By using 1 ns pulse width laser, the emission signal from surrounding CO2 also decreased because of the less surrounding gas breakdown. The solid powder breakdown signals also became more stable when using 1 ns pulse width laser. It is demonstrated that 1 ns pulse width laser has the merits for fly ash flow measurement using LIBS.
ISSN:0921-8831
1568-5527
DOI:10.1016/j.apt.2019.03.017