2023年, 第30卷, 第7期　刊出日期：2023-07-25

  

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  Special issue on resources recycling of solid wastes from ironmaking and steelmaking

  Xue-wei Lv, Hong-ming Long, Run Huang

  钢铁研究学报(英文版). 2023, 30(7): 1301-1302.
  https://doi.org/https://doi.org/10.1007/s42243-023-01010-7

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  Driven by the double carbon policy, the iron and steel industry urgently needs to implement a new development concept to strengthen the use of solid waste resources from ironmaking and steelmaking and effectively enhance the economic benefits of recycling resources in order to reduce the accumulation of solid waste resources in the iron and steel industry. The iron and steel production process produces more than 600 million tons of solid waste annually, including metallurgical dust sludge, blast furnace slag and steel slag, etc. From the perspective of environmental friendliness, the efficient utilization of ironmaking and steelmaking solid waste resources through innovative cross-industry technologies is of great significance to the low-carbon, green and high-quality development goals of the iron and steel industry.
    The utilization of solid waste resources in the iron and steel industry mainly involves the resource utilization of ferrous metallurgical solid waste, blast furnace slag, converter slag, metallurgical dust sludge, the used refractory materials and the extraction of valuable components from solid waste resources. Therefore, to present and summarize the comprehensive utilization technologies of solid waste resources in iron and steel industry and promote the development of the field, a special issue on ‘‘Resources Recycling of Solid Wastes from Ironmaking and Steelmaking’’ was organized by Journal of Iron and Steel Research International. As the guest editors, we would like to sincerely thank everyone who has contributed to this special issue, including all the authors, reviewers, and editors. We hope this special issue will be helpful to researchers and readers who are interested in this field.
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  Research status and development of extraction process of zinc-bearing dust from ironmaking and steelmaking—a critical review

  Ren-lin Zhu, Run Huang, An-xun Xu, Bo Li, Yong-gang Zang, Xue Deng, Jing Yang, Miao Li, Xian-ze Long

  钢铁研究学报(英文版). 2023, 30(7): 1303-1323.
  https://doi.org/https://doi.org/10.1007/s42243-023-01004-5

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  Almost 29.57–38.46 million tons of zinc-bearing dust were produced in Chinese iron and steel enterprises annually. The recovery of Zn and other metals in zinc-bearing dust from ironmaking and steelmaking could improve economic efficiency. However, zinc-bearing dust was classified as hazardous waste, and the volatile metals (like Zn, Na, Pb, etc.) in zinc-bearing dust limited the direct reusing in a blast furnace. Therefore, the formation process, fundamental characteristics, and current extraction process of Zn from zinc-bearing dust, associated with thermodynamics and kinetics of the pyrometallurgical process, hydrometallurgical process, and pyro-hydrometallurgical process, were analyzed. It is indicated that industrialized pyrometallurgical processes are undergoing high energy consumption and pollution such as rotary kiln and rotary hearth furnace process. The vacuum carbothermal reduction process can realize low carbon emission and no waste produced in the process. The hydrometallurgical leaching processes in strong acid, strong alkali, and ammonium solutions result in serious liquid pollution and equipment corrosion. The pyrometallurgical process involves complex kinetics and lacks kinetic research on semi-industrialization and industrialization. Water-soluble components in zinc-bearing dust can be removed by water leaching. The kinetics of the strong acid leaching is mainly controlled by the leaching kinetics of Fe₂O₃ and ZnFe₂O₄, while the alkali leaching and weak acid leaching are controlled by the kinetics of ZnO leaching. Zn in the zincbearing dust can be extracted by a low-temperature sodium roasting–weak acid leaching process that reduces equipment corrosion and environmental pollution.
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  Fundamental research on recovering metals from hot-dip Zn–Al–Mg dross by supergravity separation

  Ren-sheng Chu, Zhe Wang, Xiao-xuan Deng, Ning-jie Sun, Cheng-liang Xu, Zhan-cheng Guo

  钢铁研究学报(英文版). 2023, 30(7): 1324-1333.
  https://doi.org/https://doi.org/10.1007/s42243-023-00989-3

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  The dross generated in the hot-dip Zn–Al–Mg coating process is a valuable co-product, since it contains high quantities of recyclable alloy. A new method to recover Zn–Al–Mg alloy from the industrial Zn–Al–Mg dross was proposed using supergravity separation. The separation efficiency was analyzed as a function of gravity coefficient (G), separation time, and separation temperature. The separation of Zn–Al–Mg alloy from the dross can be achieved at G>100. The alloy content in the dross decreased gradually with an increase in the gravity coefficient, the separation time, and the separation temperature. The alloy ratio in the enriched dross decreased almost linearly as the gravity coefficient increased, and the recovery of Zn–Al–Mg alloy from the dross exceeded 78%; these results were consistent with the results of the FactSage software calculation. The purified alloy can be in-situ used in the hot-dip Zn–Al–Mg bath for production. The feasibility of supergravity separation as a promising process for efficiently recovering Zn–Al–Mg alloy from Zn–Al–Mg dross was thus demonstrated.
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  Preparation and properties of flame-retardant rubber composites based on steel slag filler

  Wei-cheng Xu, Wei-cheng Zheng, Ling Zhao, Hao-tian Wu, Yu-xi Wu, Hai-li Li, Hao Zhang, Hong-ming Long

  钢铁研究学报(英文版). 2023, 30(7): 1334-1341.
  https://doi.org/https://doi.org/10.1007/s42243-022-00901-5

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  Ultrafine steel slag powder (shield powder) was prepared by grinding ordinary steel slag with a functional compound. As a substitute for aluminum hydroxide, the shield powder was combined with rubber to prepare flame-retardant composites. Vulcanization tests showed that the incorporation of shield powder enhances the crosslinkage of the composite and speeds up the curing rate. The gaseous products formed in the pyrolysis process are mainly hydrocarbons. Mechanical and combustion tests revealed that the introduction of shield powder improves flame-retardant performance without sacrificing mechanical properties. Specifically, the optimum substitution ratio of shield powder for aluminum hydroxide is 50.0%. In this case, the composite has the highest degree of graphitization and exhibits excellent flame-retardant performance.
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  Mechanical properties and durability of alkali-activated steel slag–blastfurnace slag cement

  Jing-xiong Zhong, Li-ying Cao, Mei Li, Shu-ping Wang, Fang Liu, Xue-wei Lv, Xiao-qin Peng

  钢铁研究学报(英文版). 2023, 30(7): 1342-1355.
  https://doi.org/https://doi.org/10.1007/s42243-023-01003-6

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  Alkali-activated cement (AAC) is either clinker-less or free, and it is also environmentally friendly due to its low carbon footprint and wide range sources. Industrial wastes, like steel slag and blastfurnace slag, usually have latent hydraulic reactivity, and can be used as precursors of AAC. Both clinkerless and clinker-free AAC were prepared from the mixture of steel slag and blastfurnace slag by using water glass as an activator, and four different recipes which satisfied the strength requirement of 42.5R Portland cement were obtained. Each recipe of AAC exhibited better resistance to sulfate attack and frost attack than Portland cement. AAC showed huge drying shrinkage, but it was equivalent to that of Portland cement as steel slag content increased to 40%. The AAC also had quite low risk of alkali-aggregate reaction. Microstructure analysis showed that the major products were calcium silicate hydrate (C–S–H), calcium aluminosilicate hydrate (C–A–S–H) and zeolite-like phases. Ettringite was also detected in the binder when gypsum was contained in the precursors.
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  Effect of quaternary basicity on reduction behavior of iron-bearing dust pellets

  Tao Yang, Jing-shu An, Xing-wang Li, Shuang Liu, Xu Gao, Lei Ma, Jie Lei, Hong-ming Long

  钢铁研究学报(英文版). 2023, 30(7): 1356-1366.
  https://doi.org/https://doi.org/10.1007/s42243-023-00985-7

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  The treatment of iron-bearing dusts and sludges by the rotary hearth furnace process has the advantage of sufficient utilization of valuable metals and a high impurity removal rate, but the lower strength of the metallized product needs to be addressed. The effects of quaternary basicity R₄ (w(CaO + MgO)/w(SiO₂ + Al₂O₃)) on the reduction behavior and physical and chemical properties of metallized pellets, including phase composition, compressive strength, microstructure and soft melting area, were investigated with FactSage thermodynamic software and experiments. The strength of metallized pellets depended on the gangue composition, such as CaO, MgO, Al₂O₃ and SiO₂, due to the altered chemical composition, physical phase composition, microscopic morphology and stability of the slag phase. The reduction of carbon-bearing pellets was significantly promoted by suitable basicity. The lower basicity (R₄<1.4) facilitated the formation of low melting point iron-containing compounds from SiO₂ and Al₂O₃ with FeO, resulting in increased liquid phase generation, but lower metallization rate, due to the hindered precipitation and growth of iron grains. Interestingly, the higher basicity (R₄>1.8) also increased the amount of liquid phase and improved the strength of the pellets, due to the granular iron crystals bonded into sheets. Notably, the main component of the liquid phase in high-basicity conditions was calcium ferrite. Although the additional amount of liquid phase was beneficial to the strength of the metallized pellets, calcium disilicate was formed at R₄ = 1.6, resulting in a reduction in the compressive strength of the pellets to 1521.9 N/pellet.
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  Synergistic reaction behavior of pyrolysis and reduction of briquette prepared by weakly caking coal and metallurgical dust

  Zheng-jian Liu, Ming-hui Cao, Jian-liang Zhang, Run-sheng Xu, Yao-zu Wang, Ji-yong Yu, Yu-chen Zhang

  钢铁研究学报(英文版). 2023, 30(7): 1367-1380.
  https://doi.org/https://doi.org/10.1007/s42243-023-00992-8

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  Co-carbonization of weakly caking coal and zinc-containing dust to prepare highly reactive ferro-coke and collaboratively recover zinc powder is one of the feasible ways for steel enterprises to recycle zinc-containing dust. The pyrolysis mass loss behavior of adding blast furnace dust with different zinc contents to different ferro-coke materials was systematically studied by thermogravimetry and differential thermogravimetry analysis, and the kinetic mechanism of pyrolysis-reduction reaction of hybrid briquette was explored. The results of thermogravimetric curve analysis show that the addition of zinc oxide to the sample has no significant effect on the mass loss rate of the sample below 580 °C, and the pyrolysis mass loss of zinc oxide mainly occurs between 800 and 1000 °C. Kinetic analysis results show that the pyrolysis of zinc-containing samples is controlled by chemical reactions below 580 °C. The reaction at 580–700 °C is controlled by the nucleation and growth model, and that above 700 °C is mainly controlled by diffusion. The results of X-ray diffraction analysis show that the pyrolysis process can effectively remove zinc oxide from ferro-coke.
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  Process and property optimization of ceramsite preparation by Bayan Obo tailings and blast furnace slag

  Yi-fan Chai, Wen-xian Hu, Yun-hao Zhang, Yi-ci Wang, Jun Peng, Sheng-li An

  钢铁研究学报(英文版). 2023, 30(7): 1381-1389.
  https://doi.org/https://doi.org/10.1007/s42243-023-00991-9

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  The ceramsite was prepared by using Bayan Obo tailings and blast furnace slag of Baotou Steel as the main raw materials and coal gangue as pore-forming agent, and the process system and the performance of ceramsite were optimized. The phase transformation rules of the ceramsite prepared by multi-source solid waste in sintering method were clarified. The influence of sintering process parameters on ceramsite performance and the purification effect of ceramsite on ammonia nitrogen wastewater were revealed. The results show that the reasonable proportion of raw materials for preparing ceramsite is 60% tailings, 35% blast furnace slag and 5% coal gangue. The reasonable preparation process of ceramsite is preheating at 350 °C for 12 min, increasing the temperature to 750 °C and holding for 60 min, then increasing the temperature to 1130 °C and roasting for 20 min. The cooling method is to cool down with the furnace. The prepared ceramsite has compressive strength of 1.89 MPa, porosity of 51.31%, water absorption of 31.42%, and bulk density of 1.94 g/cm³. When the ceramsite is used to treat ammonia nitrogen wastewater, the removal rate of ammonia nitrogen is 47.33%.
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  Agglomeration and bonding mechanism of typical metallurgical solid wastes

  Ting Wu, Yu-qi Kong, Jiu-chang Zhang, Xin-yu Wang, Lei Ma, Tao Yang, Jie Lei, Hong-ming Long

  钢铁研究学报(英文版). 2023, 30(7): 1390-1400.
  https://doi.org/https://doi.org/10.1007/s42243-023-01012-5

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  The agglomeration of solid wastes is a key factor for subsequent utilization, while the difficulty in agglomeration and high cost have become common problems in the recycling process. The disk pelletizing process was adopted, based on the optimization method by liquid binder addition, and the influence mechanism of the ratio of typical solid wastes as blast furnace dust (BFD) and sludge generated by oxygen converter gas recovery (OGS) was explored. Meanwhile, the effect of binder solution concentration on the quality of green pellets was studied. Derived from the contact angle detection and infrared spectrum analysis, the liquid bridge model was established to study the bonding mechanism. The results showed that OGS had stronger adsorption effect with binder, and the hydrophilicity of BFD was better. When the concentration of binder was higher than 0.2 wt.%, the contact angle between the binder and BFD was bigger than that with OGS, while the capillary force between particles reduced with larger contact angle. The increment in the binder concentration increased the viscous force between particles and the maximum separation distance. The ultimate drop strength and compressive strength were related to the type of viscous force, and the compressive strength reflected the strength of the force between particles intuitively, while the drop strength represented the comprehensive forces of green pellets. Reasonable combination of BFD and OGS was available for pelletizing process, while the ratio of BFD should not exceed 32.0%, and binder C was added in the form of solution with the addition amount of 0.4 wt.%, which can reduce the cost of binder by 20–30 ¥/t.
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  Preparation of gangue ceramsite by sintering pot test and potential analysis of waste heat recovery from flue gas

  Yi Huang, Xiang-jie Duan, Yu Li, Wei Zhang

  钢铁研究学报(英文版). 2023, 30(7): 1401-1410.
  https://doi.org/https://doi.org/10.1007/s42243-023-00993-7

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  Preparation of ceramsite from solid waste based on the sintering process is a new technology and had a high efficiency in improving producing capability, decreasing consumption of liquefied petroleum gas (LPG), and recovering waste heat of flue gas. An experiment sintering gangue ceramsite was conducted in a 25 kg scale sintering pot with a 100 cm height. The combustion characteristics, phase transformation, and the release profile of SO₂* (SO and/or SO₂) and NO_x* (N₂O, NO, and/or NO₂) of gangue ceramsite during the sintering process were studied by X-ray diffraction analysis, X-ray fluorescence spectrometry, thermogravimetry–differential thermogravimetry–differential scanning calorimetry, and measurement of physical properties of ceramsite and gas components of flue gas. The results showed that the gangue ceramsite had excellent properties, and its compressive strength and water absorption were 8.2–9.6 MPa and 8.9%–9.8%, respectively, far exceeding the requirement of standard (GB/T 17431.1–2010). The ignition temperature of gangue ceramsite was 443 °C, and the ignition loss was 14.60 mass% at 1000 °C. Kaolinite and calcite disappeared at 600 and 800 °C, respectively. Albite disappeared and mullite formed at 1000 °C. Two peaks of SO₂* emissions emerged in the range of 311–346 mg m^-3 near 500 °C of upper layer ceramsite and 420–489 mg m^-3 near 1000 °C of lower layer ceramsite, respectively. NO_x* emissions peak emerged in the range of 227–258 mg m^-3 near 550 °C of the upper layer ceramsite, which was related to the oxidation of sulfide and the combustion of LPG. Gangue is a direct heat source for sintering of ceramsite as well. During sintering process, the heat of flue gas above and below 400 °C accounts for 55.9% and 30.0% of the all-output heat, respectively, and was potentially used for producing waste-heat steam or electricity as by-products and drying raw materials during its own initial sintering process, which can realize combined mass and heat utilization for the gangue and further reduce the cost of sintered gangue ceramsite.
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  Desulfurization of rejected electrolytic manganese metal by electroslag remelting furnace with a water-cooled electrode

  Ru Lu, Ran-ran Yu, Guang-qiang Li, Yu Liu, Qiang Wang, Hai-chuan Wang

  钢铁研究学报(英文版). 2023, 30(7): 1411-1425.
  https://doi.org/https://doi.org/10.1007/s42243-023-01005-4

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  Remelting rejected electrolytic manganese metal (EMM) scrap was investigated by electroslag remelting (ESR) process through industrial experiment. The results indicated that the ANF-6 slag (70 wt.% CaF₂ + 30 wt.% Al₂O₃) and deoxidizer could promote the desulfurization of ESR manganese in an air atmosphere. Under an air atmosphere, the sulfur in the ingot decreased to 0.0534 wt.% with a desulfurization ratio of ESR manganese of 53.2% by using ANF-6 slag and water-cooled copper electrode electroslag remelting rejected EMM scrap, suggesting its efficient removal. The electroslag ingots exhibited uneven chemical composition in an air atmosphere and cooling condition of the ESR process. The metal manganese could be oxidized by electroslag remelting of rejected EMM scrap in an air atmosphere with MnO content in the final slag of 21.9 wt.%. Besides, the activity of MnO in slag increased with increasing remelting temperature, resulting in a reduction in the slag–manganese sulfur partition ratio and desulfurization ratio. Moreover, with the accumulation of sulfur in slag and the oxidation of metallic manganese liquid, the slag showed a lower cleanliness and more oxidation, leading to an increase in sulfur and oxygen content in the electroslag ingot with the increase in ingot height.
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  Recovery of vanadium from vanadium slag by composite additive roasting–acid leaching process

  Jun-yi Xiang, Ming-shuai Luo, Xi Lu, Lu-wei Bai, Zhong-peng Zhu, Qing-yun Huang, Sheng-qin Zhang, Kun-peng Guo, Xue-wei Lv

  钢铁研究学报(英文版). 2023, 30(7): 1426-1439.
  https://doi.org/https://doi.org/10.1007/s42243-023-01006-3

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  To minimize the vanadium content in the vanadium extraction tailings, composite additive roasting with (CaO + MgO) and subsequent acid leaching process was carried out dealing with vanadium-bearing converter slag. The effect of additive with different MgO/(CaO + MgO) molar ratios on the roasting and leaching behaviours of vanadium slag was investigated, and the optimum process conditions were obtained. The results show that in the roasting experiment, under the conditions of roasting temperature of 850 °C and roasting time of 2 h, the main kinds of vanadate transformed from Ca₂V₂O₇ to Ca₅Mg₄V₆O₂₄ and then to Mg₂V₂O₇ with the increase in the MgO/(CaO + MgO) molar ratio. In the leaching experiment, under the conditions of particle size less than 75 μm, leaching temperature of 50 °C, pH of 2.5, liquid–solid ratio of 20:1, and MgO/(CaO + MgO) molar ratio of 1:3, the leaching efficiency of vanadium is increased by about 5%, but the substitution of MgO for most or all of CaO will significantly reduce the leaching efficiency of vanadium. Furthermore, the leaching efficiency of impurities (P and Cr) can also be decreased by a composite addictive (CaO + MgO) roasting process. The X-ray diffraction, scanning electron microscopy, energy dispersive spectrometry, and X-ray photoelectron spectroscopy of the original vanadium slag and solid products of both roasting and leaching processes were also evaluated.
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  Preparation of high acidity coefficient slag wool fiber with blast furnace slag and modifying agents

  Wen-chao He, Ming-shuai Luo, Yin Deng, Yue-lin Qin, Shuo Zhang, Xue-wei Lv, Yong Zhao, Cheng-zhe Jiang, Zheng-de Pang

  钢铁研究学报(英文版). 2023, 30(7): 1440-1450.
  https://doi.org/https://doi.org/10.1007/s42243-023-01008-1

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  Preparation of high acidity coefficient slag wool fiber with molten slag and modifying agents is considered to be a positive approach for value-added utilization of blast furnace slag. In order to achieve the multi-purposes of fiber-forming, energy saving, and waste heat recovery, the modifying agents that can improve the acidity coefficient of slag effectively, economically, and environmentally were investigated. Three agents with different acidity coefficients were adopted to modify slag and manufacture wool fibers. The effect of agent and slag proportion on the melting temperature and viscosity of molten slag was studied at a fixed acidity coefficient of 1.8 and 2.0. The results indicate that the sample modified with high acidity coefficient agent and high slag proportion has lower melting temperature and viscosity. The effect of agent and slag temperature on the fiber diameter was also investigated when the acidity coefficient of slag is 2.0. At a fixed slag proportion of 50 wt.%, the mean diameter decreases with increasing temperature and decreasing viscosity coefficient. Besides, the temperature drops caused by the addition of agents and energy consumption of samples for heating the slag were also analyzed.
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  Numerical investigation of basic oxygen furnace slag modification with gas bottom-blowing and SiO₂ modifier

  Chang Liu, Yu-feng Tian, Yong-li Xiao, Yong-qian Li, Yang Li, Guang-qiang Li, Qiang Wang

  钢铁研究学报(英文版). 2023, 30(7): 1451-1460.
  https://doi.org/https://doi.org/10.1007/s42243-023-01009-0

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  To avoid the volume expansion of basic oxygen furnace (BOF) slag for use in building materials, a hot slag modification process was proposed to reduce free CaO (f-CaO) in the molten slag. A transient 3D numerical model of BOF molten slag modification by SiO₂ particles was established. The flow and heat transfer of molten slag, movement and dissolution of the modifier, and concentration distribution of f-CaO in slag during the modification of BOF were studied. The distribution of f-CaO concentration is inhomogeneous all over the molten slag. The mixing effect at the slag surface is weaker than that at the half-height plane of the slag. To consume the f-CaO below 2.0 wt.% in the slag, the optimum quantity of the SiO₂ modifier is 10.0% of the mass of the slag. The fine SiO₂ particles help attain a lower final mass fraction of f-CaO and a higher SiO₂ utilization ratio.