Evaluation of Surface Tension of Molten Slag in Multi-component Systems

Hanao, Masahito; Tanaka, Toshihiro; Kawamoto, Masayuki; Takatani, Kouji

doi:10.2355/isijinternational.47.935

Cited by 85 publications

(47 citation statements)

References 8 publications

(12 reference statements)

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“…The experimental results of the slag surface tension were compared with the predicted values obtained using the semiempirical model proposed by Tanaka et al [8][9][10][11] This model requires ionic radii, molar volume, and surface tension data of pure components to calculate the surface tension of ionic melts including molten slag. In this study, these parameters were collected in the same way as in Ref.…”

Section: Comparison Between Experimental Results and Predicted Surfacmentioning

confidence: 99%

“…[4][5][6][7] Recently, Tanaka et al derived a semi-empirical model to estimate the surface tension of molten ionic mixtures by taking into account the ionic radii ratios of cations and anions, 8) and this model was applied successfully to binary common alkali-halide systems and molten oxide slags. [8][9][10][11] However, uncertainties still exist regarding the surface tension of reciprocal ionic mixtures such as oxide-fluoride melts, in particular its composition dependence.…”

Section: Introductionmentioning

confidence: 99%

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Evaluating Composition Dependence in Surface Tension of Si–Ca–Na–O–F Reciprocal Oxide–fluoride Melts

et al. 2016

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Surface tension of molten ionic mixtures such as slag is an important physical property related directly to various surface or interfacial phenomena in high-temperature industrial processes. In particular, surface tension of oxide-fluoride melts is of interest to understand interfacial phenomena in continuous casting in steelmaking. However, the composition dependence of surface tension in reciprocal ionic melts has not been well understood because of its complexity related to the reciprocal reaction between input components in the melt. In this study, we measured the surface tension of reciprocal oxide-fluoride melts in a Si-Ca-Na-O-F multicomponent system, to evaluate its composition dependence. We used a maximum bubble pressure method to determine the surface tension of these melts with high accuracy. Our results indicate that (1) the surface tension of the SiO 2 -CaO melt decreases by NaF addition more steeply than by Na 2 O addition, and (2) the surface tension of the SiO 2 -CaO-CaF 2 melt decreases with Na 2 O addition but depends on NaF formation because of the reciprocal reaction CaF 2 + Na 2 O = CaO + 2 NaF. When this reaction is taken into account, the surface tension of the SiO 2 -CaO-CaF 2 -Na 2 O melt matches that of the SiO 2 -CaO-NaF melt with increased CaO concentration from the above melt composition.KEY WORDS: surface tension; reciprocal ionic mixture; oxide-fluoride slag; composition dependence; maximum bubble pressure method.

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Section: Comparison Between Experimental Results and Predicted Surfacmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaluating Composition Dependence in Surface Tension of Si–Ca–Na–O–F Reciprocal Oxide–fluoride Melts

et al. 2016

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“…[133,134]. Another important parameter in understanding and controlling the slag layer is the surface tension of molten slag, which is especially significant in the refining or continuous-casting process of making steel [135]. The slag layer could potentially cause degradation of the refractory liner.…”

Section: Discussionmentioning

confidence: 99%

Slag Behavior in Gasifiers. Part II: Constitutive Modeling of Slag

Massoudi

Wang

2013

Energies

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Abstract:The viscosity of slag and the thermal conductivity of ash deposits are among two of the most important constitutive parameters that need to be studied. The accurate formulation or representations of the (transport) properties of coal present a special challenge of modeling efforts in computational fluid dynamics applications. Studies have indicated that slag viscosity must be within a certain range of temperatures for tapping and the membrane wall to be accessible, for example, between 1,300 °C and 1,500 °C, the viscosity is approximately 25 Pa·s. As the operating temperature decreases, the slag cools and solid crystals begin to form. Since slag behaves as a non-linear fluid, we discuss the constitutive modeling of slag and the important parameters that must be studied. We propose a new constitutive model, where the stress tensor not only has a yield stress part, but it also has a viscous part with a shear rate dependency of the viscosity, along with temperature and concentration dependency, while allowing for the possibility of the normal stress effects. In Part I, we reviewed, identify and discuss the key coal ash properties and the operating conditions impacting slag behavior.

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“…The Bidwell data could be approximated with the following power law function: [10] H À1 ¼ 0:3143S [4]. It should be noted here that the selected plane method is not as accurate as the pendant drop method using a direct fit of the Young-Laplace equation to the drop profile, and hence exhibits relatively large errors.…”

Section: B Pendant Drop Methodsmentioning

confidence: 99%

“…[2] However, considerable amounts of experimental data have been collected for different systems at various compositions and temperatures; see for example the review by Mills and Keene. [3] From the analytical point of view, predictive models have been developed, [4][5][6][7] nevertheless, there often seem to be discrepancies between predicted values and experimental data which underline the need for a more reliable experimental database. In principle, a broad variety of surface tension measurement techniques is available.…”

Section: Introductionmentioning

confidence: 99%

Surface Tension Measurements of Calcia-Alumina Slags: A Comparison of Dynamic Methods

Wegener

Muhmood

Sun

et al. 2014

Metall Mater Trans B

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The surface tension of oxide melts is difficult to measure. Even for binary slags with a low degree of polymerisation such as calcia-alumina, there seems no benchmark value for the surface tension available. Published data exhibit considerable scatter even for similar compositions which prevents to build a reliable and consistent database of frequently used physical properties. This study presents an attempt to use three different measurement techniques in the same hightemperature furnace to obtain the surface tension of a binary calcia-alumina slag close to eutectic composition, namely the drop weight method, the pendant drop method, and, for the first time, the oscillating jet method (for circular and elliptic jets) as a function of temperature. The methods used in the present context are explained, and the experimental results evaluated with respect to previously published data. A consistent and coherent trend is observed when the drop weight and the oscillating jet methods are compared.

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Evaluation of Surface Tension of Molten Slag in Multi-component Systems

Cited by 85 publications

References 8 publications

Evaluating Composition Dependence in Surface Tension of Si–Ca–Na–O–F Reciprocal Oxide–fluoride Melts

Evaluating Composition Dependence in Surface Tension of Si–Ca–Na–O–F Reciprocal Oxide–fluoride Melts

Slag Behavior in Gasifiers. Part II: Constitutive Modeling of Slag

Surface Tension Measurements of Calcia-Alumina Slags: A Comparison of Dynamic Methods

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