Difference between revisions of "Team:Aix-Marseille/Integrated Practices/Process"

(Siderophore mediated leaching)
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The [[Team:Aix-Marseille/Integrated_Practices/Process#Glossary|Bioleaching]] process allow a far better recovery of platinum. Indeed, the drop of pH is required for the metals  solubilization. This step could be realized with chemicals as chlorhydric acid in the actual industry. But in order to achieve a greener process as possible, we decided to lower the pH with biological ways, as the leaching accomplished by ''Thiobacillus''. This method is widely use in mines, e.g. for copper mines in South America, so this  will be a reliable step already tested in industrial conditions.
 
The [[Team:Aix-Marseille/Integrated_Practices/Process#Glossary|Bioleaching]] process allow a far better recovery of platinum. Indeed, the drop of pH is required for the metals  solubilization. This step could be realized with chemicals as chlorhydric acid in the actual industry. But in order to achieve a greener process as possible, we decided to lower the pH with biological ways, as the leaching accomplished by ''Thiobacillus''. This method is widely use in mines, e.g. for copper mines in South America, so this  will be a reliable step already tested in industrial conditions.
This method rely on the ability of the bacteria ''Thiobacilus'' to acidify its medium until a pH of 1. The bacterium solution is  applied on the ashes and liquid part dropping from it constitute the leachate i.e. a very acidified solutions containing solubilized metals particles mostly in ionic form. With this process we hope reach the same leach yield as obtained if realized with Chlorhydric acid i.e. 30% of leached platinum. ARTICLE
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This method rely on the ability of the bacteria ''Thiobacilus'' to acidify its medium until a pH of 1. The bacterium solution is  applied on the ashes and liquid part dropping from it constitute the leachate i.e. a very acidified solutions containing solubilized metals particles mostly in ionic form. With this process we hope reach the same leach yield as obtained if realized with Chlorhydric acid i.e. 30% of leached platinum<ref>Bau and al., 2015 http://dx.doi.org.gate1.inist.fr/10.1016/j.hydromet.2015.01.002</ref>.
  
 
This step wouldn't be obligatory in our process, but it could improve our recovery yield while still using  a environmentally friendly approach. Moreover, after leaching, the remained ashes will present a decreased concentration in metals. If this concentrations are lowered enough, the ashes are now ready to be spreaded on fields. Of courses before it, steps of alcanization and destruction of potentially ''Thiobacillus'' cells should be performed. If concentrations are still too high  for spreading, this step may be repeated.  
 
This step wouldn't be obligatory in our process, but it could improve our recovery yield while still using  a environmentally friendly approach. Moreover, after leaching, the remained ashes will present a decreased concentration in metals. If this concentrations are lowered enough, the ashes are now ready to be spreaded on fields. Of courses before it, steps of alcanization and destruction of potentially ''Thiobacillus'' cells should be performed. If concentrations are still too high  for spreading, this step may be repeated.  

Revision as of 20:02, 21 September 2016