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

(Weight of cells needed for importation)
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The overall complex (nanoparticles+flagella) has a much more higher density than the rest of solution (water and ions), so its isolation will be performed with centrifugation or filtration. As the volume of the fraction of interest should be reduced dramatically (pellet) the concentration in platinum in the isolated fraction should increase in a significant way. However, the more ashes are concentrated the easier will be the separation of the flagella from the rest of solution. If ashes are not concentrated enough, the biosorption won't be performed in good conditions and the volume of ashes should be too important to realize a proper extraction of the flagella. After concentration, the sample is mainly constituted of nanoparticles, hence a very high concentrations.  
 
The overall complex (nanoparticles+flagella) has a much more higher density than the rest of solution (water and ions), so its isolation will be performed with centrifugation or filtration. As the volume of the fraction of interest should be reduced dramatically (pellet) the concentration in platinum in the isolated fraction should increase in a significant way. However, the more ashes are concentrated the easier will be the separation of the flagella from the rest of solution. If ashes are not concentrated enough, the biosorption won't be performed in good conditions and the volume of ashes should be too important to realize a proper extraction of the flagella. After concentration, the sample is mainly constituted of nanoparticles, hence a very high concentrations.  
 
  
 
''In the situation with 1g of initial platinum, the mass of ashes will be about '''176 kg'''. If biosorption is realized is optimal conditions, the final concentration in platinum  will be about '''500 mg/g''', namely an almost pure solution of solid platinum nanoparticles .(see [[Team:Aix-Marseille/Integrated_Practices/Process#Final concentrations|Raw calculations]]''
 
''In the situation with 1g of initial platinum, the mass of ashes will be about '''176 kg'''. If biosorption is realized is optimal conditions, the final concentration in platinum  will be about '''500 mg/g''', namely an almost pure solution of solid platinum nanoparticles .(see [[Team:Aix-Marseille/Integrated_Practices/Process#Final concentrations|Raw calculations]]''

Revision as of 20:13, 24 September 2016