Researchers develop greener method of extracting titanium dioxideFebruary 12th, 2008 - 2:58 pm ICT by admin
Washington, Feb 12 (ANI): Researchers at the University of Leeds have developed a simpler, cheaper and greener method of extracting a widely used mineral titanium dioxide (TiO2).
In the form of a powder, TiO2 is used as an intensely white pigment to brighten everyday products such as paint, paper, plastics, food, medicines, ceramics, cosmetics - and even toothpaste.
Titanium dioxides exceptional UV ray absorption qualities make it perfect for sunscreen lotions too. In addition, it is a precursor material for titanium metal production.
But despite its relative abundance in nature, its natural occurrence is never pure, being bound with contaminant metals such as iron, aluminium and radio-active elements.
Pigment grade TiO2 is extracted from mineral ore by smelting, then treating the slag with chlorine, or by directly introducing it into a sulphuric acid solution.
These two processes generate toxic and hazardous wastes and the treatment of such wastes is expensive and complex.
Professor Animesh Jha, from the Universitys Faculty of Engineering, has introduced a patented process that consists of roasting the mineral ore with alkali to remove the contaminants, which are washed and leached with acid to yield valuable by-products for the electronics industry.
The coarse residue left behind is then reacted with 20 times less than the usual amount of chlorine to produce titanium dioxide powder.
The process gives an average yield of up to 97 per cent TiO2, compared with the current industry average of 85 per cent.
This level of purity will not only reduce production costs of pigment grade materials but also waste disposal costs. It also recycles waste CO2 and heat.
Besides this, Prof Jha is confident that the process can be further refined to yield 99 per cent pure titanium dioxide.
Researchers have sought a sustainable replacement for current processes for many years, he said.
Our aim was to develop new technology for complex minerals of titanium dioxide that are particularly low-grade and whilst readily available in the world market, cant yet be extracted economically.
Our process is a real world breakthrough, because it can be used for both lower and richer grades of ores and it overcomes major environmental concerns about having to neutralise and discharge wastes generated in the process that end up going into contamination ponds.
Were excited about the possibilities for this method of mineral purification; we believe it could be applied to other important minerals with similar complexity, making it a credible potential extraction process for the future, he added. (ANI)
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