GE 2211 Environmental Science and Engineering Unit I Mineral Resources. M. Subramanian

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GE 2211 Environmental Science and Engineering Unit I Mineral Resources M. Subramanian Assistant Professor Department of Chemical Engineering Sri Sivasubramaniya Nadar College of Engineering Kalavakkam 603 110, Kanchipuram(Dist) Tamil Nadu, India msubbu.in[at]gmail.com 8-July-2009

Contents mineral resources: environmental effects of extracting and using mineral resources, case studies

Minerals Minerals include all materials extracted from the earth (a) metallic minerals such as iron, copper, aluminium, lead, zinc, tin and others (b) mineral fuels like coal, lignite, petroleum and natural gas (c) non-metallic minerals like limestone, gypsum, sandstone, sand, clay and other materials.

Use of Mineral Resources Exploitation of mineral resources is essential. Iron and Steel is needed for the manufacture of machinery, locomotives, automobiles, ships and other equipment. Copper and aluminium are essential for transmission of electricity. Limestone is used for manufacture of cement. There is no economic activity, which can be performed without the use of mineral products. Developed nations consume large quantities of fuels and other minerals. The quantity of steel consumed per capita is often taken as a measure of economic development of a nation.

Mineral Resources in India India is rich in iron ores, manganese, chromite and titanium It has the world s largest reserves in mica and bauxite India possesses over 20% of the world s total reserve in iron (Orissa, Bihar, Madya pradesh)

Open-pit mining

Environmental Effects of using Mineral Resources

Environmental Effects of Mining Mineral Resources

Life Cycle of a Metal Resource Surface mining Metal ore Separation of ore from gangue Smelting Melting metal Conversion to product Discarding of product Recycling

Smelting Separation of ore from gangue Melting metal Metal ore Conversion to product Recycling Surface mining Discarding of product Scattered in environment

Depletion Curves for a Nonrenewable Resource Production A Mine, use, throw away; no new discoveries; rising prices B C Recycle; increase reserves by improved mining technology, higher prices, and new discoveries Recycle, reuse, reduce consumption; increase reserves by improved mining technology, higher prices, and new discoveries Present Depletion time A Depletion time B Depletion time C Time

Sustainable Use of Nonrenewable Resources Materials revolution Ceramics and plastics Recycle and reuse Less environmental impact Decrease use and waste

Harmful Environmental Effects of Mining Disruption of land surface Subsidence Toxic-laced mining wastes Acid mine drainage Air pollution

Harmful Environmental Effects of Removing Metals from Ores Ore mineral desired metal; Gangue waste material Smelting Air polluting by-products Chemical removal processes Toxic holding ponds

Acid Mine Drainage (AMD) AMD is the most serious environmental problem in mining today. It results from the formation of sulfuric acid caused by mining of sulfur-based materials, particularly high-sulfur coal and metalsulfide ores. AMD occurs when oxygen-rich water percolates through sulfur-bearing minerals exposed by mining. Water containing sulfuric acid drains out of the mine.

AMD in Rio tinto river, Spain

Impacts of Surface Mining The main impacts of surface mining operations are scarring and altering of the landscape, soil erosion, and increased mud and silt in rivers and streams (which impacts river ecosystems, irrigation, and drinking water supplies) Strip-mining and open pit-mining operations scar and alter large areas of land. The only way to mitigate these effects is to back-fill and replant the areas after mining is completed.

Mine Land Reclamation In the past mining companies could abandon mines after using the site, leaving badly scarred land and possible toxic side effects (such as AMD). Regulations today force companies to return the land to a more natural state after using it, and to prevent toxic byproducts from entering the environment The before (left) and after (right) photographs above illustrate a successful land reclamation project (from the Copper Basin, Tennessee, Georgia).

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