Course Name
|
Turkish |
Endüstriyel ve Mineral Atıklarının Islahı
|
English |
Remdtn of Indus.&Minerl Wastes |
Course Code
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CHZ 458E |
Credit |
Lecture
(hour/week) |
Recitation
(hour/week) |
Laboratory
(hour/week) |
Semester |
-
|
2 |
2 |
- |
- |
Course Language |
English |
Course Coordinator |
Fırat Burat
Fırat Burat
|
Course Objectives |
The importance of plant wastes in terms of environmental pollution. Effects of plant wastes on biological life. Reclamation of flotation reagents and solvent-based chemicals. Suspended solids and metal ion contamination in plant waste. Pollutions produced by flue gases and dusts. Developed methods to reduce environmental pollution in coal and ore preparation plants. Examples of zero waste technologies: coal, fly ash, sulfide minerals, phosphate, boron minerals, Rare earth metals, hydrometallurgical plants. Definition and properties of waste storage systems.
|
Course Description |
Significance of plant wastes to environmental pollution. Effect of plant wastes on biological life. Remediation of flotation reagents and oil-based chemicals. Effect of suspended solids and metals as contaminants from plant wastes. Waste generated out of stack gases and dusts. Techniques developed to reduce environmental pollution in coal and mineral processing, metallurgical plant. Examples on waste free technologies: coal, fly-ash, sulfide minerals, phosphate, boron, rare earth minerals, hydrometalluırgical plants. Description and properties of waste disposal systems.
|
Course Outcomes |
Students who pass the course will be able to know about:
I. Recognize the wastes produced out of mineral and coal processing, metallurgical plants and learn their impact on ecologic life,
II. Learn type and discharge limits of wastes,
III. Grasp techniques developed to reduce environmental pollution in coal and mineral processing plants.
IV. Understand properties of waste disposal systems including design of tailings dams.
V. learn how to evaluate mineral wastes. |
Pre-requisite(s) |
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Required Facilities |
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Other |
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Textbook |
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Other References |
Ritchey, G.R., Tailings Management, Elsevier, 1989.
Pollution Prevention in the Mining and Mineral Processing Industries, Proceedings of Engineering Foundation Conference, Eds., B.J. Scheiner and P.E. Richardson, Florida, Jan. 1995.
W. Petruk, (1998), Waste Characterization and Treatment, Society for Mining Metallurgy & Exploration İnc.,
F. M. Doyle, (1990), Mining and Mineral Processing Wastes, Society for Mining Metallurgy & Exploration İnc., , Barkeley, Clifornia
M. Karadeniz (1996), Cevher Hazırlama Tesis Artıkları, Çevreye olan Etkileri, Önlemler. MTA Yayını.
H. Shen and E. Forssberg (2003), An Overview of recovery of metals from slags, Waste Manegement, 23, Elsevier.
Pushkarev, V.V., Yuzhaninov, A.G., Men, S.K., Treatment of Oil-Containing Wastewater Allerton Press, 1983.
Smith, R.W., Liquid and Solid Wastes from Mineral processing Wastes, Mineral processing and Extractive Metallurgy Review, 16, 1-22(1996).
Hill, R.D. and Auerbach, J.L., Solid Waste Disposal in the Mining Industry, Fine Particles Processing, Ch. 87, AIME Publication, p. 1731-1753 (1980).
Moudgil, B.M., Handling and Disposal of Coal Preparation Plant Refuse, Fine Particles Processing, Ch. 88, AIME Publication, p. 1754-1779 (1980).
Mishra, S.K., Flotation Process as a Waste Management Option, in Advances in Coal and Mineral Processing Using Flotation AIME (1989) p. 243-254.
Hanna, H.S., Rampacek, C., Resources Potential of Mineral and Metallurgical Wastes, Fine Particles Processing, Ch. 87, AIME Publication, p. 1709-1730 (1980).
Davis, F.T., et al, Environmental Problems of Flotation Reagents in Mineral Processing Plant Tailings Water, Flotation in A.M. Gaudin Memorial Volume, Ch., 48, p. 1307-1341, 1976. |
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