An improved biomass feed system and processes for transporting biomass to downstream processing locations are disclosed. The system uses a pressurized gas to assist in the transporting of the biomass to the conversion reactor.
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1. A process for producing bio-oil, said process comprising: (a) supplying a particulate biomass material to a hopper, wherein said hopper is pressurized via a gas source;(b) supplying the particulate biomass material from said hopper to a gas mixing zone;(c) supplying a carrier gas via the gas sour
1. A process for producing bio-oil, said process comprising: (a) supplying a particulate biomass material to a hopper, wherein said hopper is pressurized via a gas source;(b) supplying the particulate biomass material from said hopper to a gas mixing zone;(c) supplying a carrier gas via the gas source to said gas mixing zone;(d) transporting said biomass material through a reducer located downstream of said gas mixing zone, wherein said reducer defines a flow pathway having a diminishing cross-sectional flow area; and(e) transporting said biomass material through a feed line and into a reaction zone, wherein said feed line is located downstream of said reducer,wherein said carrier gas is used to propel said biomass material during at least a portion of said transporting of step (e). 2. The process according to claim 1, wherein said reducer defines a reducer inlet and a reducer outlet, wherein said reducer inlet defines a first cross-sectional flow area (Ai) and said reducer outlet defines a second cross-sectional flow area (Ao), wherein the ratio of Ai to Ao is at least 1.3:1. 3. The process according to claim 1, wherein said reducer presents an inner surface defining said flow pathway, wherein at least 75 percent of the area of said inner surface has a root mean square (RMS) surface finish value of not more than 50 micro-inches. 4. The process according to claim 3, wherein said inner surface is electropolished. 5. The process according to claim 1, wherein said supplying of step (b) includes transporting said biomass material through a mechanical conveyance system located upstream of said gas mixing zone. 6. The process according to claim 5, wherein said mechanical conveyance system comprises a screw conveyor. 7. The process according to claim 1, wherein said carrier gas is used to propel said biomass material during at least a portion of said transporting of step (d). 8. The process according to claim 7, wherein gravity is used in conjunction with said carrier gas to facilitate said transporting of step (d). 9. The process according to claim 1, wherein said carrier gas comprises less than 20 volume percent oxygen. 10. The process according to claim 1, wherein said biomass material is transported through said feed line at a biomass flux rate of at least 500 lbs/ft2/min and not more than 30,000 lbs/ft2/min, wherein said biomass material is introduced into said reaction zone at a rate of at least 5,000 lbs/hr and not more than 250,000 lbs/hr. 11. The process according to claim 1, further comprising using at least one isolation valve to selectively isolate said gas mixing zone from said reaction zone. 12. The process according to claim 11, further comprising: (i) using at least one sensor to monitor temperature and/or pressure in said feed line; and (ii) using a controller operably coupled to said sensor and said isolation valve to close said isolation valve when the temperature and/or pressure in said feed line exceed a preset maximum value. 13. The process according to claim 1, wherein said biomass material comprises a ligno-cellulosic material. 14. The process according to claim 1, further comprising subjecting said biomass material to a pyrolysis reaction in said reaction zone. 15. A process for producing bio-oil, said process comprising the steps of: a) supplying a particulate biomass material to one or more gas mixing zones;b) supplying one or more carrier gas streams to said gas mixing zones; andc) transporting said biomass material from said gas mixing zones into a reaction zone via first and second feed lines, wherein said first and second feed lines supply said biomass to a common reactor within said reaction zone via respective first and second spaced reactor inlets, and wherein said first and second reactor inlets are vertically and/or circumferentially spaced from one another on said common reactor such that said inlets are in fluid communication via said common reactor,wherein said carrier gas streams are used to propel said biomass material during at least a portion of said transporting of step (c). 16. The process according to claim 15, wherein step (a) includes using at least one mechanical conveyor and/or at least one gravity feed device to supply said biomass material to said gas mixing zones. 17. The process according to claim 15, wherein said one or more gas mixing zones comprises at least two separate gas mixing zones, each being supplied with one of said carrier gas streams. 18. The process according to claim 17, wherein step (a) includes using at least two mechanical conveyors, each supplying said biomass material to one of said gas mixing zones. 19. The process according to claim 18, wherein said mechanical conveyors are screw conveyors. 20. The process according to claim 15, wherein said particulate biomass material comprises a ligno-cellulosic material, wherein said reaction zone comprises a pyrolysis reactor. 21. The process according to claim 15, wherein said biomass material is transported through said feed line at a biomass flux rate of at least 500 lbs/ft2/min and not more than 30,000 lbs/ft2/min, wherein said biomass material is introduced into said reaction zone at a rate of at least 5,000 lbs/hr and not more than 250,000 lbs/hr.
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