The station of modeling the mine resources in economical geology investigations and determination of mineral deposits genes & reserves

Document Type : Research Article

Authors

1 Urmia

2 Urmia University of Technology

3 Department of Mining Engineering, Urmia University of Technology, Urmia, Iran

Abstract

In recent days, computer is becoming one of the most essential instruments in advanced countries for the researchers and the domain of its application is going to be increased every day. Using the 3D modeling of the earth, its mine resources and the brilliant details which are given by the models, the researching and exploring groups will find out the inconspicuous and attractive aspects of the genetic structure and the geological history of these resources. In this paper which is a result of the researches done as the case study on a group of aragonite deposits in West Azarbaijan province, modeling of under study mineral deposits and the genetic approaches obtained from the models lead into explore and discover some other resources of the same minerals which is widely accepted recently in the market of decorative rocks in Iran. In modeling procedure of these resources which is a product of the geysers, the profile of these lime generating springs and their directional order on some specific hidden fracture is determined and approximate location of the new resources for the next explorations is assigned. At the moment, these assigned locations as new resources are being explored and even exploited.

Keywords

References

[1] Bassir S. H., “Equipment selection in the Iranian marble quarries (dimension-stone industry): Procedures and problems. Proceedings of Mine Planning and Equipment Selection, Singhal et al. (eds)”, Balkema, Rotterdam, ( 1995) 357-361.
[2]Luodes H., Selonen O., Paakkonen K., “Evaluation of dimension stone in gneissic rocks Ð a case history from southern Finland”, Engineering Geology(2000) 52, 209-223.
[3] Rathore S. S., Bhandari S., “ Study on controlled blasting techniques in dimensional stone quarrying”, IE(I) Journal−MN 86,( 2006) 46-49.
[4]de Oliveira H.C.P., Cabral S.C., Guimarães R.S., Bobrovnitchii G.S., Filgueira M. Prof., “Processing and characterization of a cobalt based alloy for use in diamond cutting tools”,(2005).
[5]Sanchez Delgado N., Rodriguez-Rey A., Suarez del Rio L. M., Diez Sarria I., Calleja L., Ruiz de Argandona V. G., “The influence of rock microhardness on the sawability Porrino granite (Spain)”, Technical note, International Journal of Rock Mechanics & Mining Sciences. (2005) 42, 161–166.
[6] Koppe J. C., Zingano A. C., Costa J. F. C. L., “Three dimensional modeling in planning ornamental stone quarries. Mine Planning and Equipment Selection, Singhal et al., (eds) Balkema, Rotterdam”,(1995)117-120.
[7] Taboad J., Vaamonde A., Saavedra A., “Evaluation of the quality of a granite quarry”, Engineering Geology.( 1999.) 53, 1–11.
[8] Caranassios A., De Tomi G., Senhorinho N., “Geological modeling and mine planning for dimension stone quarries”.(2000)
[9] Tercan A. E., Ozcelik Y., “Geostatistical evaluation of dimension-stone quarries”, Engineering Geology (2000) 58, 25–33.
[10] Bastante F. G., Taboada J., Ordonez C., “Design and planning for slate mining using optimisation algorithms”, Engineering Geology.( 2004) 73, 93–103.
[11]Latham J. P., Meulen J. V., Dupray S., “Prediction of in-situ block size distributions with reference to armourstone for breakwaters”, Engineering Geology.(2006) 86, 18–36.
[12].ShataginJ.A.Sharif, “dimensional computerized model of RUBTCOFCKA deposite”,7th international conference of new ideas in earth dependence sciences; Moscow; Russia. (2006).
[13]Sharif J.,Bakhtavar E., "An intelligent algorithm of minimum cutting plane to find the optimal size of extractable-blocks in dimension stone quarres"., Arch. Min. Sci., (2009), No 4.
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