The Management of Slag and Lead with Slag in Prot-Piri Furnace
International Journal of Mineral Processing and Extractive Metallurgy
Volume 1, Issue 2, May 2016, Pages: 8-13
Received: Mar. 31, 2016;
Accepted: Apr. 10, 2016;
Published: May 17, 2016
Views 5436 Downloads 113
Bersant Beka, Faculty of Geosciences, University of Mitrovca “Isa Boletini”, Mitrovica, Republic of Kosovo
Ahmet Haxhiaj, Faculty of Geosciences, University of Mitrovca “Isa Boletini”, Mitrovica, Republic of Kosovo
Gzim Berisha, Faculty of Geosciences, University of Mitrovca “Isa Boletini”, Mitrovica, Republic of Kosovo
Follow on us
The paper analyzes technologic process depending on percentage of lead (Pb) in agglomerate and theoretical and real proportion of production of technical lead and slag. Data presented rely on the work of Water-Jacket furnace, and they emerge as a result of theoretical and experimental studying about the amount of the slag and the percentage of lead in the slag. During the technological process analyses of lead production we researched to increase the technical lead amount produced and the reduction of the lead amount in the slag. Through the amount of slag and the technical lead produced we aimed to optimize the lead percentage in a load as well as the parameters of the technological process with an economical and environmental stability. During the calculations we identified the optimal percentage of the lead (Pb) in agglomerate which enters in the process of reductive melting in the Water-Jacket furnaces in “Trepçë”, which amount of the lead is the cause to increase technological capacities.
Lead, Load, Slag, Water-Jacket Furnace, Optimum, Technological Process
To cite this article
The Management of Slag and Lead with Slag in Prot-Piri Furnace, International Journal of Mineral Processing and Extractive Metallurgy.
Vol. 1, No. 2,
2016, pp. 8-13.
Copyright © 2016 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
AGOLLI F. (1985) Metalurgjia e metaleve me ngjyrë, UP Prishtinë.
BITTRICH J. H. (1976) Leitdaten der chemischen thermodynamic, Berlin.
HAXHIAJ A., ELEZI D., SHKOLOLLI Sh. (2006) Mjedisi dhe menaxhimi i gazrave termike në zonën e parangrohjes të furrave Vatergjakete në Trepçë. Simpozium VI, Materials and their use, Tiranë.
HAXHIAJ A. (1989) Materialna i toplotna bilansa PORTPIRI pec´i, magistarski rad, u Zagrebu, MF u Sisku.
Haxhiaj A., Rizaj M., Elezi D. (2007) The management of coke and the optimum percentage of lead in agglomerate in Port-Piri furnace. 10TH National conference of Metallurgy, Bullgari.
HAXHIAJ, A. (2003) Intensifikimi dhe optimizimi I procesit të shkrirjes reduktuese të aglomeratit të plumbit në furrat shahte, punim i doktoratës, UP FXM, Mitrovicë.
JOVANOVIC, M. (1978) Nova tehnologija i pos trojenja za proizvodnja olova, Zbornik radova II Jugoslovenskog simpozijuma o metalurgij, TMF (8, 31, 51) Beograd.
RIZAJ M., TERZIQI A., BEQIRI E., KAMBERAJ N. (2008) Concentration and Distribution Characteristics of Trepça Shaft Furnace
World of Metallurgy-Erzmetall 61 N0.2, 109-114, Clausthal-Zellerfeld, Germany.
Kawatra, S. K., and Eisele, T. C. (2001), Coal Desulfurization: High-Efficiency Preparation Methods, Taylor and Francis, New York, 360 pages.
Haxhiaj A, and Haxhiaj E, (2010) The Optimization of the Coke and Agglomerate Quantity in Lead Production in“Water- Jacket” Furnace, TMS Annual Meeting & Exhibition, Seattle Washington, 249-257.