Investigation of the Parameters Influencing the Accuracy of Rapid Steelmaking Slag Analysis with Laser‐Induced Breakdown Spectroscopy

Palagas, C.; Stavropoulos, P.; Couris, Stelios; Angelopoulos, G.N.; Kolm, Ingo; Papamantellos, Demetrios

doi:10.1002/srin.200706271

Cited by 13 publications

(5 citation statements)

References 19 publications

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“…Hussain et al investigated the use of LIBS for rapid material analysis, analyzed elements such as Ca, Mg, and Fe in iron ore slag, and compared the results to those obtained using inductively coupled plasma (ICP) spectroscopy. The results were consistent, and the detection time was significantly reduced [19]. Palagas et al studied the parameters that impact slag analysis, including laser pulse energy, accumulated laser pulses, laser beam focusing conditions, and detector pass conditions [20].…”

Section: Introductionmentioning

confidence: 86%

Characteristics of laser-induced breakdown spectroscopy of liquid slag

DONG 董,

YU 于,

SUN 孙

et al. 2024

Plasma Sci. Technol.

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Rapid online analysis of liquid slag is essential for optimizing the quality and energy efficiency of steel production. To investigate the key factors that affect the online measurement of refined slag using laser-induced breakdown spectroscopy (LIBS), this study examined the effects of slag composition and temperature on the intensity and stability of the LIBS spectra. The experimental temperature was controlled at three levels: 1350, 1400, and 1450 °C. The results showed that slag composition and temperature significantly affected the intensity and stability of the LIBS spectra. Increasing the Fe content and temperature in the slag reduces its viscosity, resulting in an enhanced intensity and stability of the LIBS spectra. Additionally, 42 refined slag samples were quantitatively analyzed for Fe, Si, Ca, Mg, Al, and Mn at 1350, 1400, and 1450 °C. The normalized full spectrum combined with partial least squares (PLS) quantification modeling was used, using the Ca II 317.91 nm spectral line as an internal standard. The results show that using the internal standard normalization method can significantly reduce the influence of spectral fluctuations. Meanwhile, a temperature of 1450 °C has been found to yield superior results compared to both 1350 and 1400 °C, and it is advantageous to conduct a quantitative analysis of the slag when it is in a water-like state with low viscosity.

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Section: Introductionmentioning

confidence: 86%

Characteristics of laser-induced breakdown spectroscopy of liquid slag

DONG 董,

YU 于,

SUN 孙

et al. 2024

Plasma Sci. Technol.

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“…Silicon, metallurgical and solar grade silicon (Romero and Laserna, 1998;• Darwiche et al , 2011). Slag from steel production (Palagas • et al , 2007;Sturm et al , 2008;Praher et al , 2011). Steel (Aguilera • et al , 1992;Palanco et al , 1999;Bulajic et al , 2002;LopezMoreno et al , 2005;Boue-Bigne, 2007;Noll et al , 2008).…”

Section: Laser-induced Breakdown Spectroscopy (Libs) Analysis Of Indumentioning

confidence: 97%

Application of laser-induced breakdown spectroscopy to the analysis of secondary materials in industrial production

Pedarnig

2014

Laser Spectroscopy for Sensing

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“…These advantages, together with LIBS capability for in-situ or remote real time operation make LIBS highly attractive and have led LIBS to gain high popularity in the research community. Thus, over the years, LIBS has been applied in a variety of research areas with great success, including recycling of metallic and/or plastic materials 27,28 , metallurgy 29,30 , art conservation 31 and combustion diagnostics 32 to mention only some of them. However, it is only recently that LIBS has been proposed for food research related applications, coinciding with the rapidly increasing recognition of the effectiveness of machine learning approaches for analytical purposes and spectroscopic analysis [33][34][35][36] .…”

Section: Laser-induced Breakdown Spectroscopy Coupled With Machine Lementioning

confidence: 99%

Laser-induced breakdown spectroscopy coupled with machine learning as a tool for olive oil authenticity and geographic discrimination

Gyftokostas

Stefas

Kokkinos

et al. 2021

Sci Rep

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Olive oil is a basic element of the Mediterranean diet and a key product for the economies of the Mediterranean countries. Thus, there is an added incentive in the olive oil business for fraud through practices like adulteration and mislabeling. In the present work, Laser Induced Breakdown Spectroscopy (LIBS) assisted by machine learning is used for the classification of 139 virgin olive oils in terms of their geographical origin. The LIBS spectra of these olive oil samples were used to train different machine learning algorithms, namely LDA, ERTC, RFC, XGBoost, and to assess their classification performance. In addition, the variable importance of the spectral features was calculated, for the identification of the most important ones for the classification performance and to reduce their number for the algorithmic training. The algorithmic training was evaluated and tested by means of classification reports, confusion matrices and by external validation procedure as well. The present results demonstrate that machine learning aided LIBS can be a powerful and efficient tool for the rapid authentication of the geographic origin of virgin olive oil.

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Investigation of the Parameters Influencing the Accuracy of Rapid Steelmaking Slag Analysis with Laser‐Induced Breakdown Spectroscopy

Cited by 13 publications

References 19 publications

Characteristics of laser-induced breakdown spectroscopy of liquid slag

Characteristics of laser-induced breakdown spectroscopy of liquid slag

Application of laser-induced breakdown spectroscopy to the analysis of secondary materials in industrial production

Laser-induced breakdown spectroscopy coupled with machine learning as a tool for olive oil authenticity and geographic discrimination

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