S. Małecki scite author profile

S. Małecki

5Publications

45Citation Statements Received

77Citation Statements Given

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Affiliations

AGH University of Krakow, Instytut Metalurgii Żelaza im. Stanisława Staszica, Częstochowa University of Technology

Publications

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Alkaline Leaching of Low Zinc Content Iron-Bearing Sludges

Gargul¹,

Jarosz²,

Małecki³

2016

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AlkAlIne leAchIng OF lOW ZInc cOnTenT IROn-BeARIng SlUDgeSVarious types of waste materials containing zinc (e.g. dusts and sludges from gas dedusting process) are obtained in steel industry. The contents of Zn in these materials may vary considerably. Even a low concentration of zinc in recirculated products precludes their recycling in ferrous metallurgy aggregates. Long storage of this type of material can lead to contamination of soil and water by zinc compounds which can be leached out by acid rain, for example. This paper focuses on research involving alkaline leaching tests of low zinc content iron-bearing materials. These tests were preceded by the analysis of the elemental, phase and grain size composition, and analysis of the thermodynamic conditions of the leaching process. The main aim of research was to decrease the content of the zinc in the sludge to the level where it is suitable as an iron-bearing material for iron production (~1% Zn). Leaching at elevated temperatures (368 K, 60 min) has led to a decrease in the zinc content in the sludge of about 66%. The research revealed that long hour leaching (298 K, 100 hours) carried out at ambient temperatures caused a reduction in zinc content by 60% to the value of 1.15-1.2% Zn.

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Leaching of lead and copper from flash smelting slag by citric acid

Gargul

Boryczko

Bukowska

et al. 2019

Archives of Civil and Mechanical Engineering

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High-Performance Method of Recovery of Metals from EAF Dust—Processing without Solid Waste

et al. 2021

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A highly effective method of the processing of steelmaking dust in an arc-resistant furnace has been presented. The aim of the research was to investigate the possibility of processing steelmaking dust in terms of waste minimization and selective recovery of valuable components. For this purpose, an electric arc resistance furnace was used. Granulated steelmaking dust with reducer (coal dust) was the input material. The products of the process are zinc oxide, iron alloy and slag, with properties meeting high ecological requirements. The technology does not generate solid waste. Zinc recovery is over 99% and iron recovery over 98%. The content of heavy metals (Zn + Pb + Cu) in glassy slag is below 0.2%, which ensures very low leachability.

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Low-Waste Recycling of Spent CuO-ZnO-Al2O3 Catalysts

Małecki

Gargul

2018

Metals

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CuO-ZnO-Al 2 O 3 catalysts are designed for low-temperature conversion in the process of hydrogen and ammonia synthesis gas production. This paper presents the results of research into the recovery of copper and zinc from spent catalysts using pyrometallurgical and hydrometallurgical methods. Under reducing conditions, at high temperature, having appropriately selected the composition of the slag, more than 66% of the copper can be extracted in metallic form, and about 70% of zinc in the form of ZnO from this material. Hydrometallurgical processing of the catalysts was carried out using two leaching solutions: alkaline and acidic. Almost 62% of the zinc contained in the catalysts was leached to the alkaline solution, and about 98% of the copper was leached to the acidic solution. After the hydrometallurgical treatment of the catalysts, an insoluble residue was also obtained in the form of pure ZnAl 2 O 4. This compound can be reused to produce catalysts, or it can be processed under reducing conditions at high temperature to recover zinc. The recovery of zinc and copper from such a material is consistent with the policy of sustainable development, and helps to reduce the environmental load of stored wastes.

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Metamodeling and Optimization of a Blister Copper Two-Stage Production Process

Jarosz

Kusiak

Małecki

et al. 2016

JOM

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S. Małecki

Alkaline Leaching of Low Zinc Content Iron-Bearing Sludges

Leaching of lead and copper from flash smelting slag by citric acid

High-Performance Method of Recovery of Metals from EAF Dust—Processing without Solid Waste

Low-Waste Recycling of Spent CuO-ZnO-Al2O3 Catalysts

Metamodeling and Optimization of a Blister Copper Two-Stage Production Process

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