Journal of Mining and Metallurgy, Section A: Mining – vol. 53 A – 2017

Erratum


EVALUATION OF HPGR AND VRM FOR DRY COMMINUTION OF MINERAL ORES (Vol. 52 A (1), p. 11, 2016)
 

doi: 10.5937/JMMA1701001E

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Papers


Authors: Marianna Sakaroglou and Georgios N. Anastassakis*
Title: NICKEL RECOVERY FROM ELECTRIC ARC FURNACE SLAG BY MAGNETIC SEPARATION

doi: 10.5937/JMMA1701003S

Abstract

During the pyrometallurgical treatment of the nickel-bearing laterite in the plant of G.M.M. S.A. LARCO, slag is produced after treatment in electric-arc furnace (EAF) that contains 0.10 to 0.20 % Ni. Taking into account the great quantity of slag produced per year, the recovery of nickel from the EAF slag will add benefits to the entire process. The target of the current work is to investigate the possibility of nickel recovery from EAF slag by magnetic separation. To meet the target, the effect of the following parameters was studied: grain size, magnetic field intensity, thickness of slag layer, moisture content, and re-grinding of the coarser slag particles. The results show that it is possible to obtain a magnetic product with nickel grade close to that of the primary raw material or even better, with sufficient nickel recovery.

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Authors: Vojka Gardić*, Radmila Marković, Nobuyuki Masuda, Jovica Sokolović, Јelena Petrović, Stefan Đorđievski, Dragana Božić
Title: THE STUDY OF LEACHABILITY AND TOXICITY OF SLUDGE AFTER NEUTRALIZATION OF SARAKA AND ROBULE AMD WASTEWATERS

doi: 10.5937/JMMA1701017G

Abstract

Acid mine drainage (AMD) waters are one of the most important ecological risks at the global level because of its high heavy metals content and strong acidity. Treatment of AMD water is a complex and expensive. One of the most widely used treatment process is the neutralization process of AMD. The result of neutralization is the production of sludge which may contain various other (heavy) metals, depending on the chemical characteristics of the mine water treated.
In this paper, leachability and toxicity of the sludges obtained during the neutralization process of wastewater from Saraka and Robule acid mine drainage and the sludges after the stabilization process at different temperatures is tested. Sludge produced in the neutralization process of Robule AMD R4 (40) and stabilized on 105 oC and 200 oC shows a H8-corrosiveness characteristic. Stabilized sludge show tendency to lower eachability of zinc and copper, but without influence on sulphate leachability. Sludges that show a H8-corrosiveness needs additional stabilization/neutralization pretreatment prior temperature treatment.

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Authors: Satyananda Patra*, Aditya Kumar, Rayasam Venugopal
Title: THE EFFECT OF PARTICLE SIZE ON GREEN PELLET PROPERTIES OF IRON ORE FINES

doi: 10.5937/JMMA1701031S

Abstract

Recently, the grade of iron ore deposits has deteriorated and further development of low grade deposits is desired. Presently, the most effective and often followed route taken to utilize such deposits is the provision of beneficiation plants for upgrading iron ore and pelletizing plants for agglomerating. The iron ore fines cannot be directly used in the blast furnace as they severely reduce the permeability of the blast furnace bed and bring down the efficiency of the furnace. To overcome this, agglomeration of high grade iron ore fines is done to serve as blast furnace burden. Both the beneficiation and pelletization techniques are key process in utilization of low grade iron ores. This study deals with the beneficiation and agglomeration of the low grade iron ore; up to the extent such that it becomes an ideal blast furnace feed. Effect of particle size on pellet quality during pellet making has also been aimed and studied along with the development of flowsheet for beneficiation of low grade iron ore.

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Authors: Dragan S. Radulović* , Milan Petrov, Grozdanka Bogdanović, Ljubiša Andrić, Darko Božović
Title: INVESTIGATION IN ORDER TO DEFINED THE TECHNOLOGICAL PROCESS OF OBTAINING FILLERS FOR USE IN VARIOUS INDUSTRIES ON THE BASIS OF LIMESTONE “GIGOVIĆI”-ULCINJ

doi: 10.5937/JMMA1701043R

Abstract

This paper presents results of investigations of the possibility of using “Gigovići”-Ulcinj limestone (Republic Montenegro) as filler in various industry branches. Micronization methods, granulometric composition, oil and water
absorption and degree of whiteness were investigated, and chemical and thermal analyses (DT/TG) were performed.
Physico-chemical properties of this limestone classify it among high quality carbonate raw materials with relatively high CaCO3 content of 98.16 %, as well as low MgCO3 content of 1.53 % and low silicate content (SiO2 0.30 %). Its quality satisfies requirements of standards on using of calcium carbonate as filler in industry of paints and coatings; paper industry, rubber and PVC industry; glass industry; production of mineral fertilizers; foundry industry; sugar industry and metallurgy. Due to the low degree of whiteness (85.25 %) “Gigovići” limestone cannot be used in pharmaceutical and cosmetics industry. Due to relatively high content of MgO (0.73 %) and Fe (340 ppm), as well as high content of heavy metals, Cu (18 ppm), Ni (24 ppm) and Cd (9 ppm), “Gigovići” limestone cannot be used, in production of cattle feed and for neutralization of acidic soils.

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Authors: Sonja Milićević*, Dragan Povrenović, Vladan Milošević, Sanja Martinović
Title: PREDICTING THE COPPER ADSORPTION CAPACITY ON DIFFERENT ZEOLITES

doi: 10.5937/JMMA1701057M

Abstract

In this paper the ability of three natural zeolites from different localities (Vranjska banja-VB, Igroš-I and Baia
Mare-BM deposits) to remove copper has been investigated. These three zeolites were subjected to the elementary analysis as well as XRDP and DTA/TG analysis due to complete characterization. Cation exchange capacity of VB, I and BM zeolites were 150.1, 169.2, and 176.5 meq/100g. The maximum adsorption capacity for the copper adsorption on VB, I and BM- zeolites were 7.75, 8.51, and 11.18 mg/g. Based on the obtained results the mathematical expression that describes correlation between the CEC and copper adsorption capacity has been developed. This linear dependance has been tested with the vast variety of experimental results. According to this expression it is possible to predict the copper adsorption capacity for different zeolites based only on their CEC value

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