Quartz The Bridge Between Man and His Technologies

1. Quartz The Bridge Between Man and His Technologies DT Barki Noble Energy Solar Technologies Ltd Hyderabad

2. Quartz Face

3. Material Conveyor

4. Tapping Floor

5. Casting Pouring a Ladle of Moltensilicon

6. Silicon Bagged and Ready for Shipment

7. Packaging of Silica Fume

8. Process Diagram

9. Applications of Silicon All modern products are dictated by Silicon

10. USE OF SILICON AluminiumThe ability of silicon to improve the strength of aluminium alloys has far reaching consequences for the transport industry. Aluminium alloys are light, yet strong and replace heavier cast iron components. Car wheels, cylinder heads, and engine blocks are routinely seen made from aluminium alloys. Weight reduction in automobiles decreases fuel consumption, which in turn reduces green house gas emissions.

11. …USE OF SILICON SiliconesSilicon based polymers, known as silicones, provide an alternative to environmentally harmful hydrocarbon based products. We unknowingly use these polymers in everyday items from lubricants, greases & resins to skin and hair care products, antiperspirants, polishes, anti foam agents and fabric softeners.

12. Use of Silicon (contd) Silicon chips The electronic products that we rely on everyday cannot operate without semi-conductor chips made from silicon

13. Use of Silicon…. • Optical glassTodays modern high-speed communications are made possible by silicon. Optical glass produced from silicon is used to manufacture both optical fibre and liquid crystal displays.

14. Silicon and Solar Energy Silicon plays an important role in the photovoltaic industries where solar panels, made from silicon, use the sun’s rays to generate space and water heating, produce domestic and industrial electricity and power remote telecommunications, weather and irrigation facilities

15. The Production of Silicon • Silicon is produced on a commercial scale in submerged arc furnaces by the carbothermic reduction of silica (presented as either quartz or quartzite). The process is highly endothermic requiring 10 – 12 MWH/tonne of silicon produced. • The furnace consists of a carbon lined crucible into which is suspended three pre-baked carbon electrodes. Very high electrical current is passed down the electrodes and a regulated arc is formed between the tip of the electrode and the carbon base of the crucible (hearth).

16. The Production of Silicon…contd • A steep temperature gradient extends from the zone of the arc (>3000°C) below the electrode to the top surface of the charge mix (approx 700°C). • The furnace charge is a mixture of quartz, carbonaceous reducing agents ( charcoal, coal, petroleum coke) and wood chips.

17. Silica to Silicon The reduction of quartz by carbon can be summarized by reaction 1SiO2 + 2C => Si + 2CO - (1)This reaction does not occur directly but proceeds via a series of intermediate reactions which form solid silicon carbide (SiC) and gaseous silicon monoxide (SiO)

18. Reduction of Molten Silica At the bottom of the furnace is the main reaction zone (metal production zone), at temperatures exceeding 1820°C.The first reaction to take place is the reduction of molten silica (SiO2) with carbon from the reductants to produce two gaseous products.SiO2 + C => SiO + CO - (2)

19. Silicon Collected in Ladles The gaseous silicon monoxide (SiO) further reacts with carbon to form solid silicon carbide (SiC) in the furnace.SiO + 2C => SiC + CO - (3)The silicon carbide can then react with molten silica to form both silicon and silicon monoxide.SiC + SiO2 = Si + SiO +CO - (4)This silicon is drained from the furnace via a tap-hole into ladles which refine the silicon and transfer the silicon to the casting area.

20. Silica Fume – a Byproduct Silicon monoxide which fails to react within the furnace oxidizes in the atmosphere to form SiO2 ( a dust like material called amorphous silica fume). The silica fume is vented away for collection in a large filtration facility (baghouse) as a by-product of the silicon production.2SiO + O2 => 2SiO2 - (5)