Development and Application of LIBS-XRF Coupled Multi-spectrum Coal Quality Analyser（Invited）

Zhihui TIAN; Shuqing WANG; Lei ZHANG; Peihua ZHANG; Zefu YE; Zhujun ZHU; Lei DONG; Weiguang MA; Wangbao YIN; Liantuan XION; Suotang JIA

doi:10.3788/gzxb20235203.0352109

Acta Photonica Sinica, Volume. 52, Issue 3, 0352109(2023)

Development and Application of LIBS-XRF Coupled Multi-spectrum Coal Quality Analyser（Invited）

Zhihui TIAN^1,2, Shuqing WANG³, Lei ZHANG^1,2、*, Peihua ZHANG^1,2, Zefu YE⁴, Zhujun ZHU⁴, Lei DONG^1,2, Weiguang MA^1,2, Wangbao YIN^1,2、**, Liantuan XION^1,2, and Suotang JIA^1,2

Author Affiliations

¹State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Laser Spectroscopy, Shanxi University, Taiyuan 030006, China

²Collaborative Innovation Center of Extreme Optics, Shanxi University, Taiyuan 030006, China

³Research Institute of Petroleum Processing, SINOPEC, Beijing 100089, China

⁴Shanxi Gemeng Sino American Clean Energy R&D Center Co., Ltd., Taiyuan 030006, China

show less

Abstract Get PDF(in Chinese)

References(22)

[2] S SHETA, M S AFGAN, Z Y HOU et al. Coal analysis by laser-induced breakdown spectroscopy: a tutorial review. Journal of Analytical Atomic Spectrometry, 34, 1047-1082(2019).

[3] S H YAO, J H MO, J B ZHAO et al. Development of a rapid coal analyzer using Laser-Induced Breakdown Spectroscopy (LIBS). Applied Spectroscopy, 72, 1225-1233(2018).

[4] Z M LU, J H MO, S H YAO et al. Rapid determination of the gross calorific value of coal using laser-induced breakdown spectroscopy coupled with artificial neural networks and genetic algorithm. Energy & Fuels, 31, 3849-3855(2017).

[5] W B LI, M R DONG, S Z LU et al. Improved measurement of the calorific value of pulverized coal particle flow by Laser-Induced Breakdown Spectroscopy (LIBS). Analytical Methods, 11, 4471-4480(2019).

[6] D BODY, B L CHADWICK. Simultaneous elemental analysis system using laser induced breakdown spectroscopy. Review of Scientific Instruments, 72, 1625-1629(2001).

[7] D WANG, J D LIU, M R DONG et al. A new calibrated model of coal calorific value detection with LIBS. Spectroscopy and Spectral Analysis, 36, 2607-2612(2016).

[8] J LI, J D LU, Z X LIN et al. Effects of experimental parameters on elemental analysis of coal by laser-induced breakdown spectroscopy. Optics & Laser Technology, 41, 907-913(2009).

[9] J FENG, Z WANG, L WEST et al. A PLS model based on dominant factor for coal analysis using laser-induced breakdown spectroscopy. Analytical and Bioanalytical Chemistry, 400, 3261-3271(2011).

[10] W B YIN, L ZHANG, L DONG et al. Design of a laser-induced breakdown spectroscopy system for on-line quality analysis of pulverized coal in power plants. Applied Spectroscopy, 63, 865-872(2009).

[14] T A LABUTIN, A M POPOV, S N RAIKOV et al. Determination of chlorine in concrete by laser-induced breakdown spectroscopy in air. Journal of Applied Spectroscopy, 80, 315-318(2013).

[15] Y T FU, W L GU, Z Y HOU et al. Mechanism of signal uncertainty generation for laser-induced breakdown spectroscopy. Frontiers of Physics, 16, 1-10(2021).

[16] Y T FU, Z Y HOU, T Q LI et al. Investigation of intrinsic origins of the signal uncertainty for laser-induced breakdown spectroscopy. Spectrochimica Acta Part B: Atomic Spectroscopy, 155, 67-78(2019).

[17] Bingkun ZHOU. Principle of laser(2000).

[18] S UFFELMANN. Quantitative XRF of solid samples using an iterative matrix correction code. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 242, 550-557(1986).

[19] M MUJURU, R I MCCRINDLE, B M BOTHA et al. Multi-element determinations of N, N-dimethylformamide (DMF) coal slurries using ICP-OES. Fuel, 88, 719-724(2009).

[20] D G HICKS, J E O'REILLY, D W KOPENAAL. On the rapid estimation of% ash in coal from silicon content obtained via FNAA, XRF, or Slurry‐injection AA, 70, 454-455(1981).

[21] K F MA. Experimental study on determination of major elements in coal ash by X-ray fluorescence spectrometry. Coal Quality Technology, 2, 32-35(2019).

[22] Chen ZHAO. Discussion on principle and application of X-ray fluorescence spectrometer. Electronics Quality, 4-7(2007).

[23] X L LI, L ZHANG, Z H TIAN et al. Ultra-repeatability measurement of the coal calorific value by XRF assisted LIBS. Journal of Analytical Atomic Spectrometry, 35, 2928-2934(2020).

[24] Y BAI, J X LI, W F ZHANG et al. Accuracy enhancement of LIBS-XRF coal quality analysis through spectral intensity correction and piecewise modeling. Frontiers in Physics, 9, 823298(2022).

[25] Z H TIAN, X L LI, G WANG et al. Elemental and proximate analysis of coal by X-ray fluorescence assisted laser-induced breakdown spectroscopy. Plasma Science and Technology, 24, 084007(2022).

[26] J J HOU, L ZHANG, Y ZHAO et al. Resonance/non-resonance doublet-based self-absorption-free LIBS for quantitative analysis with a wide measurement range. Optics Express, 27, 3409-3421(2019).

Tools

Get Citation

Copy Citation Text

Zhihui TIAN, Shuqing WANG, Lei ZHANG, Peihua ZHANG, Zefu YE, Zhujun ZHU, Lei DONG, Weiguang MA, Wangbao YIN, Liantuan XION, Suotang JIA. Development and Application of LIBS-XRF Coupled Multi-spectrum Coal Quality Analyser（Invited）[J]. Acta Photonica Sinica, 2023, 52(3): 0352109

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites

Paper Information

Category: Special Issue for Frontiers and Techniques of Laser Spectroscopy

Received: Nov. 1, 2022

Accepted: Dec. 19, 2022

Published Online: Jun. 21, 2023

The Author Email: ZHANG Lei (k1226@sxu.edu.cn), YIN Wangbao (ywb65@sxu.edu.cn)

DOI:10.3788/gzxb20235203.0352109

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology