Eductor suitable for use in an assembly for preparing a liquid product, an assembly for preparing a liquid product and a system for preparing a liquid product

The invention claimed is: 1. An eductor suitable for use in an assembly for preparing a liquid product, the eductor comprising: (A) a housing having a substantially cylindrical wall with a longitudinal axis extending from one end of the cylindrical wall to the other end of the cylindrical wall opposite the one end, the housing having: (i) a first liquid inlet at the one end of the cylindrical wall for supplying a first liquid to the eductor in a direction at least substantially parallel to the longitudinal axis; (ii) a second liquid inlet at the other end of the cylindrical wall for supplying a second liquid to the eductor in a direction having a component perpendicular to the longitudinal axis; and (iii) a liquid product outlet for discharging a liquid product from the eductor in a direction at least substantially parallel to the longitudinal axis, the second liquid inlet of the eductor seen in longitudinal direction being positioned between the first liquid inlet and the liquid product outlet; and (B) an injector valve positioned within the cylindrical wall, the injector valve comprising: (i) an outer surface and a central, longitudinal channel for supplying the first liquid from the first liquid inlet to the liquid product outlet; and (ii) the injector valve being displaceably arranged within the cylindrical wall from a first position to a second position longitudinally spaced from the first position, and vice versa; and wherein either (iii) the outer surface comprises two annular protrusions which are spaced from each other by a distance that at least equals the distance between the first position and the second position of the injector valve, (a) wherein each of the annular protrusions engage the inner surface of the cylindrical wall for forming a seal therewith, (b) wherein the annular protrusions, together with the inner surface of the cylindrical wall, form an annular chamber, and (c) wherein the annular protrusions are arranged so as to isolate the annular chamber from fluid communication with an environment outside the annular protrusions when the injector valve is positioned in the first position or the second position or any position therebetween, or (iv) the inner surface of the cylindrical wall comprises two annular protrusions which are spaced from each other by a distance that at least equals the distance between the first position and the second position of the injector valve, (a) wherein each of the annular protrusions engage the outer surface of the injector valve for forming a seal therewith, (b) wherein the annular protrusions, together with the outer surface of the injector valve, form an annular chamber, and (c) wherein the annular protrusions are arranged to isolate the annular chamber from fluid communication with an environment outside the annular protrusions when the injector valve is positioned in the first position, the second position, or any position therebetween. 2. The eductor according to claim 1 , wherein the annular protrusions are made in a first part of a first material capable of withstanding thermal loads exerted thereon while still providing sufficient compressibility and elasticity for providing a correct seal, the first part of the first material being hermetically attached to a second part of a second material, wherein the second material is different from the first material, and wherein the second material provides mechanical stability over a predetermined period of time to the first part of the first material with the annular protrusions. 3. The eductor according to claim 2 , wherein the first part of the first material and the second part of the second material are chemically bonded to each other along a contact surface without using additives. 4. The eductor according to claim 2 , wherein the first part of the first material and the second part of the second material are formed by two-component injection molding. 5. The eductor according to claim 2 , wherein the first material is a thermoplastic elastomer (TPE), silicone, PPE, 1-PPE or LL-PPE. 6. The eductor according to claim 2 , wherein the second material is polypropylene (PP), a polyarylether ketone (PAEK), a polyether ether ketone (PEEK), a polyethylene terephthalate thermoplastic (PET) polymer, a polysulfone thermoplastic (PES) polymer, or a polyoxy methylene thermoplastic (POM) polymer. 7. The eductor according to claim 2 , wherein in a first portion of the injector valve or the inner surface of the cylindrical wall, the first part of the first material is positioned radially outwards of the second part of the second material and wherein in a second portion of the injector valve or the inner surface of the cylindrical wall, the first part of the first material is positioned radially inwards of the second part of the second material. 8. The eductor according to claim 1 , wherein the liquid product outlet is formed by a converging wall part of the cylindrical wall, wherein the injector valve comprises a converging part directed towards the converging wall part of the cylindrical wall, wherein the first position of the injector valve is an enabling position for enabling fluid communication of the second liquid inlet of the eductor with the liquid product outlet of the eductor, wherein the second position is a disabling position for disabling fluid communication of the second liquid inlet of the eductor with the liquid product outlet of the eductor and vice versa, wherein in the second position of the injector valve, an outer surface of the converging part engages with the inner surface of the converging wall part of the cylindrical wall for forming a seal therewith. 9. The eductor according to claim 8 , wherein the outer surface of the converging part of the injector valve is made of a first material capable of withstanding thermal loads exerted thereon while still providing sufficient compressibility and elasticity for providing a correct seal. 10. The eductor according to claim 1 , wherein the annular chamber is filled with an inert or sterile gas. 11. The eductor according to claim 1 , wherein the distance between the two annular protrusions is larger than the distance between the first position and the second position of the injector valve. 12. An assembly for preparing a liquid product, the assembly comprising: (A) a holder containing a second liquid; (B) an eductor according to claim 1 ; (C) a second liquid tube connecting the holder to the second liquid inlet of the eductor; (D) a first liquid inlet tube connecting the first liquid inlet of the eductor with a first liquid connection of the assembly, the first liquid connection being configured for connection to an external source of the first liquid; and (E) a liquid product outlet tube connecting the liquid product outlet of the eductor to an outlet connection of the assembly for discharging a prepared liquid product from the assembly. 13. An assembly for preparing a liquid product, the assembly comprising: (A) a holder containing a second liquid; (B) an eductor according to claim 1 ; (C) a microfiltration device having a liquid product inlet and a liquid product outlet; (D) a transfer tube connecting the liquid product outlet of the eductor with the liquid product inlet of the microfiltration device; (E) a second liquid tube connecting the holder to the second liquid inlet of the eductor; (F) a first liquid inlet tube connecting the first liquid inlet of the eductor with a first liquid connection of the assembly, the first liquid connection being configured for connection to an external source of the first liquid; (G) a gas inlet tube connecting