Process for producing an organic product from a carbon-based matter feedstock using gasification followed by fermentation of the synthesis gas

The invention claimed is: 1. A process for the production of a liquid organic fuel product from a carbon-based matter feedstock, comprising the following stages: a/ gasification of the carbon-based matter feedstock in a first gasification reactor to produce a synthesis gas, b/ downstream of the gasification, fermentation of the synthesis gas produced according to stage a/ using microorganisms, water and nutrients in a fermenter to produce a mix comprising an organic product, c/ recovery, downstream of the fermenter, of the microorganisms and water, d/ injection of at least a portion of the recovered microorganisms or, of at least a portion of the recovered microorganisms and of at least a portion of the recovered water, at the inlet of the first gasification reactor, and, during the recovery stage c/: a stage c1/ of separation between the microorganisms which have been used for the fermentation and the mixture between the organic product resulting from the fermentation and the water, followed by a distillation of the mixture in order to produce the liquid organic fuel product, a stage c2/ of adjustment of the concentration of water in the microorganisms recovered by the separation. 2. The production process as claimed in claim 1 , according to which, between the gasification stage a/ and the fermentation stage b/, a stage a1/ of cleaning the synthesis gas produced according to stage a/ is carried out. 3. The production process as claimed in claim 1 , according to which the microorganisms are mesophilic anaerobic microorganisms chosen from the following species: Clostridium jungdahlii, carboxidovorans P 7, Clostridium autoethanogenum, Eurobaeterium lintosum, Rhodospirillum rubrum, Pepiostreptoeoecus productus, Aceiobacterium woodii or Buoxibacterium methyloirophicurn. 4. The production process as claimed in claim 1 , the separation stage c1/ is carried out by microfiltration or by coagulation/flocculation using a flocculating agent based on an organic polymer chosen from polyamine or polyacrylamide, followed by settling or by floatation. 5. The production process as claimed in claim 1 , according to which a concentration of microorganisms recovered by the separation is between 100 and 250 grams/liter of concentrate, the adjustment according to stage c2/ is carried out to obtain a concentration of microorganisms of between 20 and 100 grams/liter of solution to be injected into the first gasification reactor. 6. The production process as claimed in claim 1 , according to which the gasification reaction is carried out at temperatures of 70 and 1600° C. 7. The production process as claimed in claim 1 , according to which the first gasification reactor is a fluidized bed reactor, the gasification reaction being carried out at temperatures of between 800 and 950° C. 8. The production process as claimed in claim 1 , according to which the first gasification reactor is an entrained-flow reactor, the gasification reaction being carried out at temperatures of between 1400 and 1600° C. 9. The production process as claimed in claim 1 , wherein the liquid organic fuel product produced at the separation stage c1/ is chosen from acetate, formate, butyrate, ethanol, butanol, acetone, or 2,3-butanediol. 10. The production process as claimed in claim 1 , the liquid organic fuel product being a liquid fuel. 11. A plant for the continuous production of a liquid organic fuel product from a carbon-based matter feedstock comprising: a first gasification reactor having an inlet, a fermenter, downstream of the first gasification reactor, comprising microorganisms, water and nutrients for carrying out fermentation of the synthesis gas produced by the first gasification reactor, means for recovery of at least a portion of the microorganisms and water, downstream of the fermenter; the recovery means being connected to the inlet of the first gasification reactor so as to inject at least a portion of the recovered microorganisms or, at least a portion of the recovered microorganisms and at least a portion of the recovered water into the inlet, the recovery means comprising: a device for separation between the microorganisms and a mixture comprising liquid organic fuel product resulting from the fermentation and the water which has been used for the fermentation within the fermenter, a metering device, downstream of the separation device, and a device for distillation of the mixture, and the device for adjusting the concentration of water in the microorganisms recovered by the separation. 12. The plant as claimed in claim 11 , the separation device comprising at least one filtration membrane having the size of the pores of which is suited to the size of the microorganisms used in the fermenter, said size of the pores is between 0.1 and 10 μm. 13. The plant as claimed in claim 11 for production of methanol or ethanol from plastic waste products.