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

(Siderophore recoverer destruction)
(Siderophore recoverer destruction)
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Once the siderophore has fulfilled its function we need to get rid of it. Indeed the bound between platinum and it is very strong and it would be irrelevant to try to destroy it. That's why we decided to destroy the siderophore itself by a thermal degradation that is to say a incineration. This step will destroy the main componenent of the cells, will remove the water and will destroy most of molecules, including our siderphore. As in the [[Team:Aix-Marseille/Integrated_Practices/Process#The_Source_.28step1.29 |first step]] the burning will reduce the volume of the our materials (from cells to ashes) therefore enhancing its platinum and others metals concentration by '''a X20 factor'''.  
 
Once the siderophore has fulfilled its function we need to get rid of it. Indeed the bound between platinum and it is very strong and it would be irrelevant to try to destroy it. That's why we decided to destroy the siderophore itself by a thermal degradation that is to say a incineration. This step will destroy the main componenent of the cells, will remove the water and will destroy most of molecules, including our siderphore. As in the [[Team:Aix-Marseille/Integrated_Practices/Process#The_Source_.28step1.29 |first step]] the burning will reduce the volume of the our materials (from cells to ashes) therefore enhancing its platinum and others metals concentration by '''a X20 factor'''.  
  
''In the situation with 1 g of initial platinum, the concentration will of '''4.41 mg/kg'''( see [[Team:Aix-Marseille/Integrated_Practices/Process#Concentration_in_the_pellet_ashes| Raw calculations]]). ''
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''In the situation with 1 g of initial platinum, the concentration will of '''4.41 mg/kg''' (see [[Team:Aix-Marseille/Integrated_Practices/Process#Concentration_in_the_pellet_ashes| Raw calculations]]). ''
  
 
This step present another advantage:  in the next step, the most wanted form of platinum is a ionic one and high heat is well known to produce rather ionic particles. Thus the next step will be performed in best conditions.
 
This step present another advantage:  in the next step, the most wanted form of platinum is a ionic one and high heat is well known to produce rather ionic particles. Thus the next step will be performed in best conditions.

Revision as of 21:35, 21 September 2016