Determination the Effective of Grain Size on Gold Recovery by Integral of Sieve Analysis and Atomic Absorption Spectroscopy Methods
Science Journal of Analytical Chemistry
Volume 6, Issue 2, March 2018, Pages: 12-20
Received: Jun. 3, 2018;
Accepted: Jun. 22, 2018;
Published: Jul. 31, 2018
Views 1443 Downloads 122
Amar Osman Ali Salih, Ministry of Higher Education and Scientific Research, Chemistry Department, Central Lab, Khartoum, Sudan
Badawi Ahmed Zakria, Ministry of Higher Education and Scientific Research, Chemistry Department, Central Lab, Khartoum, Sudan
Ibrahim Mohammed Salah, Ministry of Higher Education and Scientific Research, Chemistry Department, Central Lab, Khartoum, Sudan
MohamedIdris Taha, Ministry of Higher Education and Scientific Research, Chemistry Department, Central Lab, Khartoum, Sudan
Bashir Algili Bashir Mohammed, Geology Department, Faculty of Petroleum and Minerals, Alneelain University, Al Khurtum, Sudan
Follow on us
The sieve analysis and atomic Absorption methods were applied for 21collected samples around Atbara region - River Nile State- Sudan. Three types of grinder were used in this study they are (1) A grinder (2) B grinder and (3) mill size to given us the general trend of gold concentrate with preferable grain size in area of case study. The gold assay result for different grain size within same sample reflect direct relationship between gold concentrate and grain size which gold increasing with finer grain size. he grain size equal or less than 0.075mm is the preferable size to recovery most gold from original material, and there is a difference in types of mills and efficiency, For each mill grinding time for each sample varies from the mill to another and it is reliable Depending on the test rate of the sieves in the sieves and definitely affects the reading of the concentrations of samples and therefore control the rate of raw inside is known and the percentage of milling as well as all depends on the quality control of the mining plants and reduces errors. From this study we conclude the sieve analysis isgood method to evaluate quality of various grinders.
Sieve Analysis, Grinding, Grain Size, Quantities, Sediments, Concentrations, Flame (AAS)
To cite this article
Amar Osman Ali Salih,
Badawi Ahmed Zakria,
Ibrahim Mohammed Salah,
Bashir Algili Bashir Mohammed,
Determination the Effective of Grain Size on Gold Recovery by Integral of Sieve Analysis and Atomic Absorption Spectroscopy Methods, Science Journal of Analytical Chemistry.
Vol. 6, No. 2,
2018, pp. 12-20.
Copyright © 2018 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.
Kenneth Pye, Simon J. Blott (2004) Particle size analysis of sediments, soilsand related particulate materials for forensic purposes using lasergranulometry. Forensic Science International: 19-27.
Ying Zhu, XiaodongZou, SupingFeng, Houquan Tang (2006) the effect ofgrain size on the Cu, Pb, Ni, Cd speciation and distribution in sediments:a case study of Dongping Lake, China. Environ Geol 50: 753-759.
According to AASHTO27, standard method of test for sieve analysis of fine and coarse aggregates.
Martincic D, Kwokal Z, Branica M (1990) Distribution of zinc, lead, cadmium and copper between different size fractions of sediments I. The LimskiKanal (North Adriatic Sea). Sci Total Environ 95: 201–215Salomons W, Forstner U (1984) Metals in hydrocycle. Springer, BerlinHeidelberg New York, pp 349.
Singh AK, Hasnain SI, Banerjee DK (1999) Grain size geochemical partitioning of heavy metals in sediments of the Damodar River-a tributary of the lower Ganga, India. Environ Geo 39(1): 90–98 Tessier A, Campbell PGC, Bisson M (1982) Particulate trace metalspeciation in stream sediments and relationships with grain size: implications for geochemical exploration. J GeochemExplor 16: 77–104.
R. García and A. P. Báez Centro de Ciencias de la Atmósfera, Universidad NacionalAutónoma de México, Ciudad Universitaria, Mexico City Mexico.
Folk, R. L., 1980. Petrology of Sedimentary Rocks. Austin: Hemphill Publishing. Friedman, G. M., and Sanders, J. E., 1978. Principles of Sedimentology. New York: Wiley.
Krumbein, W. C., and Sloss, L. L., 1963. Stratigraphy and Sedimentation, 2nd edition. San Francisco: W. H. Freeman.
McManus, J., 1988. Grain size determination and interpretation. In Tucker, M. E. (ed.), Techniques in Sedimentology. Oxford: Blackwell Scientific, pp. 63–85.
Geological survey of india, standard operating procedure, document: sop/tmsection: chemical division, issue no: 01, with some modification.
According to (Qatar University Geotechnical Engineering (CVEN 230) College of Engineering Department of Civil & Arch. Engineering).
Geological survey of india, standard operating procedure, document: sop/tmsection: chemical division, issue no: 01.