2004
DOI: 10.3775/jie.83.868
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Effect of Rapid Preheating Treatment on Coal Thermoplasticity and Its Evaluation Method

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Cited by 10 publications
(10 citation statements)
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“…23) It is believed that rapid heating treatment increases mobile components (high mobility low molecular) due to thermal relaxation of coal structure via suppression of cross-linking reaction, resulting coal fluidity is promoted, and it becomes possible to manufacture high-strength coke. 26,27) In addition, IST, MFT, and RST shift to high temperature at large heating rate comparing with small heating rate conditions. Therefore, it is suggested that the increase in coke strength in Case 2 may be caused by suppression of cross-linking formation by increasing the heating rate up to 400°C and thermoplasticity amplification effect by HPC pyridine soluble loading to coal above 400°C in carbonization.…”
Section: Influence Of Heating Conditions On the Strength Ofmentioning
confidence: 97%
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“…23) It is believed that rapid heating treatment increases mobile components (high mobility low molecular) due to thermal relaxation of coal structure via suppression of cross-linking reaction, resulting coal fluidity is promoted, and it becomes possible to manufacture high-strength coke. 26,27) In addition, IST, MFT, and RST shift to high temperature at large heating rate comparing with small heating rate conditions. Therefore, it is suggested that the increase in coke strength in Case 2 may be caused by suppression of cross-linking formation by increasing the heating rate up to 400°C and thermoplasticity amplification effect by HPC pyridine soluble loading to coal above 400°C in carbonization.…”
Section: Influence Of Heating Conditions On the Strength Ofmentioning
confidence: 97%
“…Meanwhile, as a technique for increasing the percentage of low-quality coal input to a coke production process while simultaneously increasing the strength of the coke produced, researchers have used methods such as SCOPE21 for rapidly heating the temperature region of coal thermoplasticity, while conducting detailed investigations of the corresponding effects; this has revealed that increasing the rate of temperature increase in the fluidity region is an effective method for producing coke from low-quality coal. [6][7][8] Also, it has long been known that pelletization is an effective method for converting non-/slightly-caking coal into coke, and many studies have investigated formed coke; [9][10][11][12][13][14] among the findings that have been reported are the following. (1) Ensuring large particle-to-particle contact area is important for promoting binding between coal particles during the coke production process.…”
Section: Influence Of Heating Conditions On the Strength Of Coke Prodmentioning
confidence: 99%
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“…In the coal rapid preheating test, the coal was heated slowly to 300 °C in a fluidized bed dryer, and then heated rapidly to 380 °C in a pneumatic preheater, and carbonized in the coke oven Kato et al, 2004, Matsuura et al, 2005. The quality of the obtained coke was measured by the JIS drum strength index (DI 150 15 ) ( DI: Drum Index).…”
Section: Scope21 Processmentioning
confidence: 99%