Assessment on the Application of Commercial Medium-Grade Charcoal as a Substitute for Coke Breeze in Iron Ore Sintering

Ji, Zhiyun; Fan, Xiaohui; Gan, Min; Chen, Xuling; Li, Qiang; Jiang, Tao

doi:10.1021/acs.energyfuels.6b01876

Cited by 21 publications

(18 citation statements)

References 29 publications

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“…In addition to the surrounding material, the combustion atmosphere also has an important influence on the burning of fuel. 25) For C in sintering process, there are the combustion reactions (2C + O 2 →2CO and C + O 2 →CO 2 ) and the gasification reaction (C + CO 2 →2CO). From the non-isothermal gasification thermogravimetric curve (Fig.…”

Section: Phase Transition and Change Of Combustion Conditions In Sintmentioning

confidence: 99%

Formation of Nitrogen Mono Oxide (NO) during Iron Ore Sintering Process

Fan

Min

et al. 2018

ISIJ International

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Section: Phase Transition and Change Of Combustion Conditions In Sintmentioning

confidence: 99%

Formation of Nitrogen Mono Oxide (NO) during Iron Ore Sintering Process

Fan

Min

et al. 2018

ISIJ International

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“…Incomplete combustion leads to less heat released. Moreover, too fast combustion rate led to the mismatch between flame front and heat transfer front, which was not conducive to heat accumulation 11 …”

Section: Resultsmentioning

confidence: 99%

“…Currently, iron ore sintering consumes a large number of fossil fuels, accounting for 0.7% of global CO 2 emissions each year 6,7 . To reduce greenhouse gas emissions, various scholars have focused on using carbon‐neutral biomass fuels to gradually replace fossil fuels in the sintering process 8–11 . Furthermore, biomass fuels have significant advantages in reducing NO x and SO 2 emissions due to the low N and S contents 12,13 …”

Section: Introductionmentioning

confidence: 99%

“…For charcoal, Cheng et al 13 proposed that embedding charcoal inside the quasi‐particles can improve thermal conditions during sintering due to the slower speed of oxygen diffusion and smaller surface area for reaction. To match the combustion rates of charcoal and coke breeze, Ji et al 11 used iron ore concentrate to coat charcoal through pregranulation to slow combustion rate and used quicklime to coat coke to increase combustion rate. The sintering test results show that using the carefully prepared fuel granules can increase the replacement ratio of medium‐grade charcoal from 20% to 40% without compromising sinter quality.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, most of the predecessors used quicklime (CaO) and fine iron ore (Fe 2 O 3 ) as the adhesion layer during pregranulation. Almost no one has studied the effect of different adhesion layers covering fuel particles in pregranulation on sintering 11,16 …”

Section: Introductionmentioning

confidence: 99%

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Effect of coating structure of granulated quasi‐fuel particles in iron ore sintering

Lai

Meng

et al. 2021

Asia-Pacific J Chem Eng

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To reduce greenhouse gas emissions, biomass fuels are used to gradually replace fossil fuels in the sintering process. Unfortunately, the sinter quality will deteriorate sharply due to too fast combustion rate when using biomass fuels. To address this problem, pregranulation proved to be an effective method. In this study, the pilot‐scale sinter pot tests were carried out to study the effect of coating structure of granulated quasi‐fuel particles on the granulation properties, flame front propagation in sintering, sinter indexes, sinter mineralogy, and pore structure. The experimental results show that when substituting coke with biomass char, the average size of the granules decreased whereas bed voidage increased due to the irregular shape and lower apparent density of granules. Pregranulation can reduce the flame front speed and increase the maximum bed temperature, thereby alleviating the deterioration of sinter quality and sinter yield. By pregranulating biomass char and 2% magnetite concentrate, the tumbler strength, sinter yield, and productivity can be increased from 44.9% to 55.0%, from 41.9% to 49.3%, and from 28.54 to 31.10 t/m2/d, respectively. The microscopic observation results show that substituting coke with biomass char for sintering decreased the content of calcium ferrite in sinter and increased sinter porosity. On the contrary, pregranulating increased calcium ferrite content in sinter and decreased sinter porosity, and thus sinter quality was improved.

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Effect of raw material composition on combustion behavior of quasi‐particles in the iron ore sintering process

Meng

Wang

Xue

et al. 2023

Asia-Pacific J Chem Eng

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As the basic unit of iron ore sintering bed, the combustion behavior of quasi‐particles significantly impacts the sintering process. Adding biomass char leads to the deterioration of sintering quality, which was originally for the reduction of carbon emission. In this study, the isothermal thermogravimetric platform was used to analyze the combustion behavior of quasi‐particles using different fuels and ores. The results show that the mass of quasi‐particles packed bed decreases rapidly with combustion, then rises slowly, and then tends to be stable. The quasi‐particle samples in the combustion process were quenched with liquid nitrogen, and the composition changes in the quasi‐particle combustion process were analyzed. The results show that the excessive mass loss is caused by the reduction of iron ore in the sintering atmosphere, which also means heat loss. Compared with the samples using coke, when the fuel is exhausted, the proportion of calcium ferrite in the samples using charcoal decreases by 10.94%, while the proportion of magnetite and FeO is 11.36% and 1.04% higher, respectively, which will further lead to the formation of calcium iron olivine and reduce the sinter strength. The addition of magnetic concentrate may help to reduce the heat loss caused by the reduction reactions, but it is necessary to optimize the sintering process.

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Assessment on the Application of Commercial Medium-Grade Charcoal as a Substitute for Coke Breeze in Iron Ore Sintering

Cited by 21 publications

References 29 publications

Formation of Nitrogen Mono Oxide (NO) during Iron Ore Sintering Process

Formation of Nitrogen Mono Oxide (NO) during Iron Ore Sintering Process

Effect of coating structure of granulated quasi‐fuel particles in iron ore sintering

Effect of raw material composition on combustion behavior of quasi‐particles in the iron ore sintering process

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