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

(The Source)
(Our Process is applicable on many ways)
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If the raw materials change (substrate), only  [[#The Source (step1)|the first step]] of our project would change if the basic matter change. The advantage of our process is its easiness of integration into current treatment process. Set up our process would not need a lot of changes in actual facilities.  
 
If the raw materials change (substrate), only  [[#The Source (step1)|the first step]] of our project would change if the basic matter change. The advantage of our process is its easiness of integration into current treatment process. Set up our process would not need a lot of changes in actual facilities.  
  
In this part we ll'detail an industrialized process of what we plan to test in lab condition.  We are thankfull to Mr.Sigoillot, who adviced us wisely in the choice of which process could be more developed here.( SEE VIDEO))
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In this part we ll'detail an industrialized process of what we plan to test in lab condition.  We are thankfull to Mr.Sigoillot, who advised us wisely in the choice of which process could be more developed in particular, see the interview.[https://2016.igem.org/Team:Aix-Marseille/Integrated_Practices/Process/interview here].
 
We'll focus on a process started from sewage sludge. Indeed, choosing sewage sludge as a source of platinum bring another benefit: it will remove platinum from sludges. Nowadays, '''sludge are so concentrated in metals that it can't be spread on field for valorisation''' and as a result, sludge are often burnt and ashes are kept in specialized confinement centers, thus making the treatment very expensive and not sustainable. So  our process can remove metals aiming to recover it and doing so our process will also achieve the purpose to rid metals from sludges. Moreover, sewage sludge treatment is a payed service by institutions who needs to get rid of it (municipality, motorway operating...) so with this source of platinum our process will start with an already positive financial balance! Of courses polluting metals, preventing spreading in field are many and our process is currently designed to recover specifically and only platinum. But our process is extremely versatile and each step of our process can be modified to be specific of another metal.  
 
We'll focus on a process started from sewage sludge. Indeed, choosing sewage sludge as a source of platinum bring another benefit: it will remove platinum from sludges. Nowadays, '''sludge are so concentrated in metals that it can't be spread on field for valorisation''' and as a result, sludge are often burnt and ashes are kept in specialized confinement centers, thus making the treatment very expensive and not sustainable. So  our process can remove metals aiming to recover it and doing so our process will also achieve the purpose to rid metals from sludges. Moreover, sewage sludge treatment is a payed service by institutions who needs to get rid of it (municipality, motorway operating...) so with this source of platinum our process will start with an already positive financial balance! Of courses polluting metals, preventing spreading in field are many and our process is currently designed to recover specifically and only platinum. But our process is extremely versatile and each step of our process can be modified to be specific of another metal.  
 
[https://2016.igem.org/Team:Aix-Marseille/Integrated_Practices/Process/interview#The_iGEM_2016_AMU_team_focuses_only_on_platinum_recovery._But_do_you_think_this_kind_of_process_could_be_used_for_other_metals_recovery_in_the_future.3F METTRE LA VIDEO CORRESPONDSANTE ICI]
 
[https://2016.igem.org/Team:Aix-Marseille/Integrated_Practices/Process/interview#The_iGEM_2016_AMU_team_focuses_only_on_platinum_recovery._But_do_you_think_this_kind_of_process_could_be_used_for_other_metals_recovery_in_the_future.3F METTRE LA VIDEO CORRESPONDSANTE ICI]

Revision as of 11:50, 15 October 2016