Prediction of Chinese Coal Ash Fusion Temperatures in Ar and H<sub>2</sub> Atmospheres

Song, Wen J.; Tang, Li; Zhu, Xue Dong; Wu, Yong; Zhu, Zi B.; Koyama, Shingo

doi:10.1021/ef800974d

Cited by 59 publications

(19 citation statements)

References 35 publications

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“…As can be seen from 47,48 To observe more directly the distribution of composition for these coal ash slag samples, we used FactSage to draw the pseudo-ternary diagram (SiO 2 -Al 2 O 3 -CaO-Fe 2 O 3 with an SiO 2 /Al 2 O 3 weight ratio of 1.7) in Figure 3. Since over 90% of the mineral matter in coal ash slag is derived from the oxides of aluminum, silicon, calcium, and iron, the SiO 2 -Al 2 O 3 -CaO-Fe 2 O 3 pseudo-ternary diagram can well describe the distribution of composition for these coal ash slag samples.…”

Section: Resultsmentioning

confidence: 99%

Measurement and simulation of flow properties of coal ash slag in coal gasification

Song

Sun

et al. 2011

AIChE Journal

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The viscosities of 45 coal ash slag samples at high temperature have been measured under different temperatures and shear rates. The computer thermodynamic software package FactSage has been used to predict liquidus temperatures, volume fractions of crystallized solid particles (/), and the compositions of remaining liquid phase for 45 coal ash slag samples. The flow properties of completely liquid and partly crystallized coal ash slag samples have been predicted by three viscosity models. The Urbain formalism has been modified to describe the viscosities of fully liquid slag and homogeneous remaining liquid phase in coal ash slag samples. The modified Einstein equation and Einstein-Roscoe equation have been used to describe the viscosities of heterogeneous coal ash slag samples of / \ 10.00 vol % and / ! 10.00 vol %, respectively. These three models provided a good description of the experimental data of fully liquid and heterogeneous coal ash slag samples. The new models also predicted flow properties of mixtures of coal ash slags with CaO, Fe 2 O 3 , MgO, SiO 2 , and Al 2 O 3 .

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Section: Resultsmentioning

confidence: 99%

Measurement and simulation of flow properties of coal ash slag in coal gasification

Song

Sun

et al. 2011

AIChE Journal

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“…Analysis of coal ash compositions shows that they consist mainly of SiO 2 , Al 2 O 3 , Fe 2 O 3 , CaO, and MgO, 11,12 so that the properties of coal ashes at high-temperature might be modeled by a five component SiO 2 …”

Section: Marshak Modelmentioning

confidence: 99%

“…12 This test involved heating a sample cone of specified geometry at a rate of 5 K/ min in an Ar atmosphere. The following specific temperatures are recorded for each sample, corresponding to specific shapes of the ash cones: Initial deformation temperature (IDT), softening temperature (ST), hemispherical temperature (HT), and flow temperature (FT).…”

Section: Ash Fusion Temperature Testmentioning

confidence: 99%

Prediction of temperature of critical viscosity for coal ash slag

Song

Yan-he

et al. 2011

AIChE Journal

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“…[15] Furthermore, the possible major mineral reactions in ash also can be interpreted through phase diagram theory. Main chemical components (SiO 2 , Al 2 O 3 , CaO and Fe 2 O 3 ) of most Chinese bituminous coal ashes usually comprise more than 90% of the total.…”

Section: Chemical and Mineral Composition Of Ash Samples Under Gasifimentioning

confidence: 99%

Mineral melting behavior of chinese blended coal ash under gasification condition

Zhou

Chen

et al. 2011

Asia-Pacific J Chem Eng

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The fusibility and mineral melting behavior of Chinese blended coal ash under gasification condition were studied by standard ash fusion temperature (AFT) test, X-ray diffraction (XRD), scanning electron microscope (SEM) and phase diagram theory. The experimental results show that the trend of blended ash's AFT is not linearly related to the blending ratios, but mirrors by changes in liquidus temperature from ternary phase diagram systems. The AFTs of those blended ashes whose main ash chemical compositions locate near the boundaries between two mineral regions or triple points are lower and change more evident than that of those blended ashes whose main ash chemical compositions are far away from the boundaries or triple points. With increasing mass fraction of low AFT ash in blended coal ash, the location of blended ash in ternary systems is changed from the mullite region to the anorthite region, as well as the dominant crystal mineral at deformation temperature (DT) is also transformed from mullite to anorthite via mullite-mullite and anorthite coexisting-anorthite. The fluxing minerals (anhydrite, wustite, albite, hercynite, augite) in low AFT ash can react with the refractory minerals (mullite, quartz) complicatedly to form new low-melting minerals (anorthite, hercynite, fayalite, gehlenite) at high temperature (HT) (1273-1403 K). These minerals can also interact to form eutectic mixtures in FeO-SiO 2 -Al 2 O 3 and CaO-SiO 2 -Al 2 O 3 systems and act as the most key factors for lowing melting mechanism of blended ash under gasification condition. 

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Prediction of Chinese Coal Ash Fusion Temperatures in Ar and H₂ Atmospheres

Cited by 59 publications

References 35 publications

Measurement and simulation of flow properties of coal ash slag in coal gasification

Measurement and simulation of flow properties of coal ash slag in coal gasification

Prediction of temperature of critical viscosity for coal ash slag

Mineral melting behavior of chinese blended coal ash under gasification condition

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Prediction of Chinese Coal Ash Fusion Temperatures in Ar and H2 Atmospheres

Cited by 59 publications

References 35 publications

Measurement and simulation of flow properties of coal ash slag in coal gasification

Measurement and simulation of flow properties of coal ash slag in coal gasification

Prediction of temperature of critical viscosity for coal ash slag

Mineral melting behavior of chinese blended coal ash under gasification condition

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Prediction of Chinese Coal Ash Fusion Temperatures in Ar and H₂ Atmospheres