Addition Effect of Model Compounds of Coal Extract on Coke Strength

Koyano, Koji; Ueoka, Kenta; Takanohashi, Toshimasa; Fukada, Kiyoshi; Ota, Kohei

doi:10.2355/tetsutohagane.96.224

Cited by 8 publications

(9 citation statements)

References 8 publications

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“…mentioned before, in case of model compounds, improvement of coke strength was observed from more than 4 rings and the effect was better in peri-type structure. 5) Thus, this result of structural analysis also indicates that BIT-380 has enough improvement effect for coke strength.…”

Section: Structural Parametermentioning

confidence: 60%

“…Similar result was reported in the previous study. 5) In that report, the coke strength was decreased by adding model compound which is consisted of less than 3 aromatic rings. In this work, R a of Mu-400 and Pa-400 was less than 3, however, these additives improved the coke strength.…”

Section: Coke Strengthmentioning

confidence: 99%

“…In this work, R a of Mu-400 and Pa-400 was less than 3, however, these additives improved the coke strength. Koyano et al 5) reported that if molecular weight of additive is larger, its boiling point is higher, and much more fraction of poly-aromatic hydrocarbons should contribute to co-fusing. As a result, the additive improves the coal plastic property.…”

Section: Coke Strengthmentioning

confidence: 99%

“…Also comparing between the poly-aromatics with the same ring size, the coke strength improved more with peri-type compounds than cata-type ones. 5) It is previously reported that the average number of aromatic rings in low-rank coals is around 1-2. 6) If the number of aromatic rings in HPC produced from low-rank coals is nearly equal (1-2 rings), the improvement of coke strength may not be expected, although it should not be easily compared with model compounds since their polarity or molecular weight are different.…”

Section: Introductionmentioning

confidence: 99%

“…Koyano et al 5) reported that when adding various poly-aromatic hydrocarbons to coals as caking additive, the coke strength increased in the cases of more than 4 aromatic rings and the effect enhanced with increasing the number of aromatic rings. Also comparing between the poly-aromatics with the same ring size, the coke strength improved more with peri-type compounds than cata-type ones.…”

Section: Introductionmentioning

confidence: 99%

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Relationship between Chemical Structure of Caking Additives Produced from Low Rank Coals and Coke Strength

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Section: Structural Parametermentioning

confidence: 60%

Section: Coke Strengthmentioning

confidence: 99%

Section: Coke Strengthmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Relationship between Chemical Structure of Caking Additives Produced from Low Rank Coals and Coke Strength

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Thermoplasticity and strength improvement of coking coal by addition of coal extracts

Chang

Whang

Huang

et al. 2014

Fuel

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Addition Effect of Aromatic Amines on Coal Fluidity and Coke Strength

Otsuka¹,

Dohi²,

Matsui³

et al. 2019

ISIJ Int.

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BackgroundToday, high-strength coke is actively pursued to operate blast furnace with low reducing agent. 1) Caking properties are the important parameters in coal blending techniques to produce high-strength coke. 2) In particular, Gieseler plastometer method standardized by JIS M8801 have long been used for measuring 'fluidity' as caking properties. On the other hand, recently, the amount of high-quality coal with high fluidity has been limited. The tight supply and rising price of high-quality coal with high fluidity is an inevitable problem in Japan, therefore development of technique to utilize slightly and non-caking coals is required. To cope with this problem, caking additive method which improves fluidity of coal has been developed and commercialized. 3-7) It is known that caking additives improve coal fluidity, promote liquid-phase carbonization, increase anisotropic texture in coke. However, mechanism of caking additives for improving coal fluidity is still unclear. It is important to search for more effective chemical substances to clarify the mechanism of caking additives to improve fluidity of coal.In order to clarify effective chemical substances to improve coal fluidity, there are a number of studies on Coal fluidity is an important parameter in coal blending techniques for coke making because it strongly influences coke qualities. On the other hand, recently, the amount of high fluidity coal has been limited. To cope with this problem, caking additive method which improves fluidity of coal has been developed and commercialized. However, since tight supply of high fluidity coal is anticipated in the future, it is of great importance to develop more effective caking additive. Therefore, in this study, we investigated effect of 11 kinds of polyaromatic hydrocarbons which include oxygen, sulfur and nitrogen containing compounds on coal fluidity in order to search for more effective chemical substances. The additives were added to low fluidity coal, and fluidity analyses were carried out according to the Gieseler plastometer method. Addition of sulfur and oxygen containing compounds lowered fluidity of coal, whereas addition of aromatic amines enhanced fluidity of coal. Coal fluidity ameliorated with increasing the molecular weight of aromatic amine, and N,N'-di-2-naphthyl-1,4-phenylenediamine (DNPD) was the most effective aromatic amine in this study. Carbonization tests in an electric furnace were conducted to investigate an effect of DNPD on coke strength. As a result of adding only 1 wt% DNPD, fluidity of blended coal and coke strength (Drum Index) were highly improved. KEY WORDS: cokemaking; coal thermoplasticity; caking additive; aromatic amine; slightly caking coal.the interactions between coal and chemical substances. 8-10) Koyano et al. 9) investigated influences of polycyclic aromatics on coal fluidity. They reported that polycyclic aromatics with higher molecular weight and higher boiling point had superior effect on coal fluidity and coke strength. Tsubouchi et al. 10) investigated the e...

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Addition Effect of Model Compounds of Coal Extract on Coke Strength

Cited by 8 publications

References 8 publications

Relationship between Chemical Structure of Caking Additives Produced from Low Rank Coals and Coke Strength

Relationship between Chemical Structure of Caking Additives Produced from Low Rank Coals and Coke Strength

Thermoplasticity and strength improvement of coking coal by addition of coal extracts

Addition Effect of Aromatic Amines on Coal Fluidity and Coke Strength

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