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Energy Saving of Composite Agglomeration Process (CAP) by Optimized Distribution of Pelletized Feed

Author

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  • Guanghui Li

    (School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China)

  • Chen Liu

    (School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China)

  • Zhengwei Yu

    (School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China)

  • Mingjun Rao

    (School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China)

  • Qiang Zhong

    (School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China)

  • Yuanbo Zhang

    (School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China)

  • Tao Jiang

    (School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China)

Abstract

The composite agglomeration process (CAP) aims at sintering a pelletized feed and a matrix feed together to produce a high-quality burden for a blast furnace. The pelletized feed is balled from fine iron concentrate or refractory iron-bearing resources, while the matrix feed is granulated from iron ore fines, fuels, fluxes and so on. Through mathematical calculation, heat accumulation regularity and heat-homogenizing of the sinter bed are acquired in CAP when pelletized feed is uniformly distributed. Then they are studied in the composite agglomeration process with optimized pelletized feed distribution, which is a novel and perfect sinter bed structure. Results show that large heat input gaps exist in the sinter bed under condition of even sinter mixture distribution, and it is very difficult to realize bed heat-homogenization by directly varying the solid fuel dosage among each layer. An optimized pelletized feed distribution realizes more heat in the upper layer together with heat-homogenization of the middle-lower layer when the proportions of pellets increase first in the middle-upper layer and then decrease in the middle-lower layer of the sinter bed. Under these circumstances, the sinter bed has much better available accumulation ratios with a maximum value of 78.29%, and possesses a greater total heat input of 6754.27 MJ when the coke breeze remains at the original dosage. To make full use of the available heat accumulation and adjust the pellet distribution, a good energy saving effect is obtained because the coke breeze mass declines by 13.91 kg/t-sinter. The current gross heat inputs of each unit are reduced remarkably, leading to a total heat input decrease of 25.95%. In pot tests of CAP, the differences of thermal parameters in whole bed are obviously reduced with the optimized pelletized feed distribution, which contributes to sinter homogeneity and energy savings.

Suggested Citation

  • Guanghui Li & Chen Liu & Zhengwei Yu & Mingjun Rao & Qiang Zhong & Yuanbo Zhang & Tao Jiang, 2018. "Energy Saving of Composite Agglomeration Process (CAP) by Optimized Distribution of Pelletized Feed," Energies, MDPI, vol. 11(9), pages 1-12, September.
    • Handle: RePEc:gam:jeners:v:11:y:2018:i:9:p:2382-:d:168777
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    References listed on IDEAS

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    1. Cheng, Zhilong & Wang, Jingyu & Wei, Shangshang & Guo, Zhigang & Yang, Jian & Wang, Qiuwang, 2017. "Optimization of gaseous fuel injection for saving energy consumption and improving imbalance of heat distribution in iron ore sintering," Applied Energy, Elsevier, vol. 207(C), pages 230-242.
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    Cited by:

    1. Xuyang Cui & Junhong Yang & Xinyu Shi & Wanning Lei & Tao Huang & Chao Bai, 2019. "Experimental Investigation on the Energy Consumption, Physical, and Thermal Properties of a Novel Pellet Fuel Made from Wood Residues with Microalgae as a Binder," Energies, MDPI, vol. 12(18), pages 1-26, September.
    2. Carmen de la Cruz-Lovera & Francisco Manzano-Agugliaro & Esther Salmerón-Manzano & José-Luis de la Cruz-Fernández & Alberto-Jesus Perea-Moreno, 2019. "Date Seeds ( Phoenix dactylifera L. ) Valorization for Boilers in the Mediterranean Climate," Sustainability, MDPI, vol. 11(3), pages 1-14, January.
    3. Miguel-Angel Perea-Moreno & Esther Samerón-Manzano & Alberto-Jesus Perea-Moreno, 2019. "Biomass as Renewable Energy: Worldwide Research Trends," Sustainability, MDPI, vol. 11(3), pages 1-19, February.
    4. Tomasz Kalak, 2023. "Potential Use of Industrial Biomass Waste as a Sustainable Energy Source in the Future," Energies, MDPI, vol. 16(4), pages 1-25, February.
    5. Miguel-Angel Perea-Moreno & Francisco Manzano-Agugliaro & Alberto-Jesus Perea-Moreno, 2018. "Sustainable Energy Based on Sunflower Seed Husk Boiler for Residential Buildings," Sustainability, MDPI, vol. 10(10), pages 1-20, September.

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