Mineral And Energy Resources (India)

Types Of Mineral Resources

India possesses a rich variety of mineral resources, classified based on their chemical composition and physical properties. This classification helps in understanding their occurrence, extraction, and industrial uses.

Metallic Minerals: Contain metal and are usually hard, lustrous, malleable, ductile, and good conductors of heat and electricity.
- Ferrous Minerals: Contain iron. These are crucial for the iron and steel industry. Examples: Iron ore, manganese, chromite.
- Non-Ferrous Minerals: Do not contain iron but may contain other metals. Examples: Copper, bauxite (source of aluminium), lead, zinc, gold, silver, tin.
Non-Metallic Minerals: Do not contain metal. They are valued for their physical properties. Examples: Mica, salt, potash, limestone, dolomite, gypsum, diamond, graphite, coal, petroleum, and natural gas.
Fuel Minerals: Also known as mineral fuels, these are mined for energy generation. Examples: Coal, petroleum, and natural gas.

Distribution Of Minerals In India

Minerals are unevenly distributed across India, largely concentrated in the Peninsular plateau regions and some parts of the Himalayas and Indo-Gangetic plains, reflecting the geological history of the subcontinent.

The North-Eastern Plateau Region

This region, comprising parts of Jharkhand, West Bengal, and Odisha, is the richest mineral-bearing region in India.

Jharkhand: Known for high-grade iron ore (haematite), copper, uranium, coal (Jharia and Bokaro fields), mica, bauxite, manganese, chromite, and limestone. The Chota Nagpur plateau is a major mineral hub.
Odisha: Abundant in high-grade iron ore (haematite), bauxite (Panchpatmali hills), manganese, chromite, coal, limestone, and dolomite.
West Bengal: Rich in coal (Raniganj coalfield), iron ore, bauxite, limestone, copper, and mica.
Chhattisgarh: Significant reserves of iron ore (haematite), coal, bauxite, manganese, limestone, dolomite, diamond, graphite. Bailadila and Dalli-Rajhara ranges are important for iron ore.

The South-Western Plateau Region

This region, primarily covering Karnataka, Goa, and parts of Andhra Pradesh and Telangana, is also rich in minerals.

Karnataka: Famous for its high-grade iron ore (haematite and magnetite) in the Kudremukh range, gold (Kolar and Hutti gold mines), manganese, limestone, chromite, and bauxite.
Goa: Major producer of iron ore, particularly exported through Marmagao port.
Kerala: Rich in placer deposits of monazite (source of thorium) and titanium, along with ilmenite, zircon, china clay, and lignite.
Tamil Nadu: Deposits of bauxite, iron ore, manganese, limestone, mica, graphite, lignite, and precious minerals.
Andhra Pradesh and Telangana: Significant reserves of coal, gold, diamonds, limestone, granite, mica, bauxite, manganese, and chromite.

The North-Western Region

This region includes parts of Rajasthan, Gujarat, Haryana, and Punjab, and contains important mineral resources, particularly non-ferrous and non-metallic minerals, as well as fuel minerals.

Rajasthan: Rich in copper, lead, zinc, tungsten, gypsum, limestone, marble, sandstone, salt, barytes, phosphorite, and agate. Important centres for copper are Khetri mines.
Gujarat: Known for its large reserves of petroleum, natural gas, bauxite, limestone, salt, and various clays.
Haryana and Punjab: Primarily have deposits of petroleum, natural gas, building materials (sandstone, gravel), and some copper and lignite.

Other Regions: The Himalayan region has deposits of copper, lead, zinc, antimony, gypsum, and salt. The Indo-Gangetic Plain is generally devoid of mineral deposits, except for building materials found in alluvial deposits.

Ferrous Mineral

Ferrous minerals are those that contain iron. They are critical for the production of iron and steel, which form the foundation of heavy industries.

Iron Ore

Iron ore is the principal raw material for the iron and steel industry. India has abundant reserves of high-grade iron ore.

Types:

Haematite: The most important ore, containing 60-70% iron. Found extensively in the North-Eastern and South-Western plateau regions.
Magnetite: Contains about 70% iron, often of higher quality. Found in Karnataka, Andhra Pradesh, Rajasthan.
Limonite: Inferior ore with 40-60% iron.
Siderite: Inferior ore with about 48% iron.

Distribution in India:

Odisha: Largest producer, particularly from the Mayurbhanj district (Badampahar mines) and Keonjhar district (Gurumahisani, Sulaipet, Kiruburu).
Jharkhand: Singhbhum district (Noamundi mines).
Chhattisgarh: Bailadila and Dalli-Rajhara ranges in Bastar district.
Karnataka: Ballari-Hospet belt (Sandur hills, Hospet).
Goa: Major producer and exporter, mainly through Marmagao port.

Uses: Production of iron, steel, machinery, automobiles, railways, construction.

Manganese

Manganese is a vital ferrous mineral, primarily used in the steel industry and for making alloys.

Uses:

Steel Production: Essential for making steel alloys (e.g., ferro-manganese), improving hardness, strength, and durability.
Other Industries: Used in the production of bleaching powder, insecticides, paints, and batteries.

Distribution in India:

Odisha: Largest producer, particularly in the Sundergarh district.
Karnataka: Second largest producer, found in Ballari, Shimoga, Chitradurga, Dharwad districts.
Maharashtra: Nagpur, Bhandara, Ratnagiri districts.
Madhya Pradesh: Balaghat, Chhindwara, Nimach districts.

Non-Ferrous Minerals

Non-ferrous minerals are metallic minerals that do not contain iron but are essential for various industries due to their unique properties.

Bauxite

Bauxite is the primary ore from which aluminium is extracted. Aluminium is a lightweight, strong, and corrosion-resistant metal.

Uses: Manufacturing aluminium, which finds application in aircraft, automobiles, electrical appliances, utensils, and construction materials.
Distribution in India:

Odisha: The largest producer, especially from the Panchpatmali deposits in Koraput district and Gandhamardan hills.
Jharkhand: Ranchi, Palamau, and Hazaribagh districts.
Chhattisgarh: Amarkantak plateau region.
Other States: Gujarat (Kachchh district), Maharashtra (Kolhapur district), Madhya Pradesh (Jabalpur, Shahdol districts), Karnataka, Tamil Nadu.

Copper

Copper is vital for electrical industries due to its excellent conductivity. It is also used in plumbing, construction, and alloys.

Uses: Electrical wiring, electronics, telecommunications, plumbing, construction, and alloys like brass and bronze.
Distribution in India:

Rajasthan: The largest producer, particularly from the Khetri Copper Belt.
Madhya Pradesh: Balaghat district (Malanjkhand).
Jharkhand: Singhbhum district (Singhbhum Copper Belt).
Other States: Gujarat, Andhra Pradesh.

Non-Metallic Minerals

Non-metallic minerals are valued for their physical properties and are used in various industries and applications.

Mica

Mica is a crucial non-metallic mineral known for its excellent electrical and thermal insulating properties and its ability to withstand high voltage.

Uses: Primarily in the electrical and electronics industries (insulators, capacitors, switchboards). It is also used in paints, cosmetics, and pharmaceuticals.
Distribution in India: India is the world's largest producer and exporter of mica. Major deposits are found in:

Jharkhand: Koderma-Gaya-Hazaribagh plateau belt.
Rajasthan: Udaipur, Jaipur, Alwar districts.
Andhra Pradesh: Nellore mica belt.

Energy Resources

Energy resources are vital for powering industries, transportation, agriculture, and households. India has significant reserves of both conventional and non-conventional energy sources.

Coal

Coal is a combustible sedimentary rock formed from accumulated vegetation over millions of years. It is the most important primary source of energy in India, particularly for thermal power generation and heavy industries.

Types:

Anthracite: Highest grade, hard coal with high carbon content (rare in India).
Bituminous Coal: Most common type, used for thermal power generation and industrial fuel. Found in Gondwana period rocks.
Lignite: Brown coal, with high moisture and lower heating value, used for electricity generation. Found in Neyveli, Tamil Nadu.

Distribution in India: Major coalfields are located in the Damodar Valley (Jharkhand, West Bengal), Mahanadi Valley (Odisha), Godavari Valley (Andhra Pradesh), and Son Valley (Madhya Pradesh).
Uses: Thermal power generation, smelting iron ore, manufacturing cement, industrial fuel, and domestic fuel.

Petroleum

Petroleum (crude oil) is a vital liquid fossil fuel used for transportation, energy generation, and as a raw material for petrochemical industries.

Formation: Found in folded and faulted structures of sedimentary rocks of the tertiary period.
Distribution in India:

Assam: Digboi, Naharkatiya, Moran-Hugrijan.
Gujarat: Ankleshwar, Kalol, Mahesana, Nawagam.
Offshore: Mumbai High (in the Arabian Sea) is the largest oil-producing field in India.
Other Areas: Krishna-Godavari basin, Cauvery basin.

Uses: Source of petrol, diesel, kerosene, lubricating oil, paraffin wax, asphalt, and raw materials for plastics, synthetic fibres, medicines, etc.

Natural Gas

Natural gas is an important source of clean energy and a feedstock for industries.

Distribution in India:

Krishna Godavari Basin: Significant offshore and onshore reserves.
Tripura: Important onshore field.
Rajasthan: Jaisalmer area.
Offshore: Mumbai High and related fields.
Assam: Associated with petroleum fields.

Uses: Power generation, domestic fuel (LPG), industrial feedstock (fertilizers, petrochemicals), compressed natural gas (CNG) for vehicles.

Non-Conventional Energy Sources

Non-conventional energy sources are renewable and have a lower environmental impact, crucial for sustainable energy security.

Nuclear Energy Resources

Nuclear energy is derived from the fission of radioactive elements like Uranium and Thorium.

Resources in India: India has reserves of Uranium in Jharkhand, Rajasthan, and Meghalaya. Thorium is found in the monazite sands of Kerala and Tamil Nadu.
Uses: Generated in nuclear power plants for electricity production.
Plants in India: Tarapur (Maharashtra), Rawatbhata (Rajasthan), Kalpakkam (Tamil Nadu), Narora (Uttar Pradesh), Kakrapar (Gujarat).

Solar Energy

Harnessed from sunlight, solar energy is abundant in India due to its tropical location.

Potential: Vast potential, especially in sunny regions like Rajasthan, Gujarat, and the southern states.
Uses: Solar panels for electricity generation (photovoltaic), solar water heaters, solar cookers.
Growth: Rapidly expanding due to government support and declining costs.

Wind Energy

Generated from wind turbines capturing wind's kinetic energy.

Potential: Significant potential in coastal areas and hilly regions with consistent winds.
Major States: Tamil Nadu (leading producer), Gujarat, Maharashtra, Rajasthan, Karnataka.

Tidal And Wave Energy

Tidal Energy: Harnesses energy from the rise and fall of sea levels caused by gravitational forces. Potential sites in India include the Gulf of Cambay and the Gulf of Kutch.

Wave Energy: Harnesses energy from ocean waves. Potential exists along the Indian coastlines, but technology is still developing.

Geothermal Energy

Heat from the Earth's interior used for heating or electricity generation.

Potential Areas in India: Puga Valley (Ladakh), Manikaran (Himachal Pradesh), Tatapani (Chhattisgarh).

Bio-Energy

Energy derived from organic matter.

Biogas: Produced from the decomposition of organic waste (animal dung, crop residues, human waste) in the absence of oxygen. Widely used in rural India for cooking and lighting.
Biomass: Burning agricultural waste and wood for fuel.

Conservation Of Mineral Resources

Minerals are non-renewable resources, meaning their reserves are finite and will eventually be depleted. Their conservation is crucial for sustainable development and ensuring future availability.

Recycling: The most effective method of mineral conservation is recycling scrap metal. Reusing metals like iron, copper, aluminium, lead, and precious metals reduces the need for mining new ore, saving energy and reducing environmental impact.
Substitution: Replacing scarce minerals with more abundant or renewable alternatives where feasible. For instance, using plastics, composites, or ceramics instead of certain metals in applications like automobiles or construction.
Efficient Extraction and Processing: Improving mining technologies to extract more mineral from lower-grade ores and adopting processing methods that minimize waste and energy consumption.
Reducing Consumption: Minimizing the use of mineral-intensive products and adopting sustainable consumption patterns, such as using products with longer lifespans and reducing waste.
Research and Development: Investing in R&D to discover new mineral deposits, develop advanced extraction and recycling technologies, and find viable substitutes for scarce minerals.