A generally upright reactor system for gasifying a feedstock. The reactor system generally includes a main body, at least two inlet projections extending outwardly from the main body, and at least one inlet positioned on each of the inlet projections. Each of the inlets is operable to discharge the
A generally upright reactor system for gasifying a feedstock. The reactor system generally includes a main body, at least two inlet projections extending outwardly from the main body, and at least one inlet positioned on each of the inlet projections. Each of the inlets is operable to discharge the feedstock into the reaction zone.
대표청구항▼
1. A method for gasifying a carbonaceous feedstock, said method comprising: (a) at least partly combusting said feedstock in a first stage reactor section defining a first reaction zone to thereby produce a first reaction product, wherein said first reaction zone is cooperatively defined by a plural
1. A method for gasifying a carbonaceous feedstock, said method comprising: (a) at least partly combusting said feedstock in a first stage reactor section defining a first reaction zone to thereby produce a first reaction product, wherein said first reaction zone is cooperatively defined by a plurality of inner surfaces,wherein at least about 50 percent of the total area of said inner surfaces has an upright orientation,wherein less than about 10 percent of the total area of said inner surfaces has a normal vector extending at an angle greater than 45 degrees above horizontal, thereby facilitating the removal of slag and other gasification byproducts within the first stage reactor section,wherein said first stage reactor section comprises a main body and at least two inlet projections extending outwardly from said main body,wherein said main body and said inlet projections cooperatively define said first reaction zone, wherein less than about 50 percent of the total volume of said first reaction zone is defined within said inlet projections,wherein the maximum outside diameter of said main body is at least 25 percent greater than the maximum outside diameter of said inlet projections, thereby increasing the maximum internal pressure that can be withstood by said reactor system;(b) further reacting at least a portion of said first reaction product in a second stage reactor section defining a second reaction zone that is located generally above said first reaction zone to thereby produce a second reaction product. 2. The method of claim 1, wherein less than about 10 percent of the total area of said inner surfaces has a downwardly facing orientation. 3. The method of claim 1, wherein said feedstock is introduced into said first reaction zone via inlets located proximate the outer ends of each of said inlet projections. 4. The method of claim 1, wherein said first stage reactor section comprises a pair of said inlet projections extending from generally opposite sides of said main body, wherein the maximum inside diameter of said main body is at least about 30 percent of the horizontal distance between said inlets of said pair of inlet projections. 5. The method of claim 1, wherein said combusting of step (a) is carried out at a maximum temperature of at least about 2,000° F. 6. The method of claim 5, wherein said reacting of step (b) is carried out at an average temperature that is at least about 200° F. less than said maximum temperature of said combusting. 7. The method of claim 1, wherein said first and second reaction zones are maintained at a pressure of at least about 250 psig. 8. The method of claim 1, wherein said reacting of step (b) is endothermic. 9. The method of claim 1, wherein said feedstock comprises coal and/or petroleum coke. 10. The method of claim 1, further comprising introducing an additional quantity of said feedstock into said second reaction zone. 11. The method of claim 1, wherein said first reaction product comprises steam, char, and gaseous combustion products comprising hydrogen, carbon monoxide, and carbon dioxide. 12. The method of claim 1, wherein said first reaction product comprises an overhead portion and an underflow portion, wherein said overhead portion is introduced into said second reaction zone, wherein said underflow portion is removed from the bottom of said first reaction zone. 13. The method of claim 12, further comprising passing said overhead portion through a throat located between said first and second reaction zones, wherein the maximum superficial velocity of said overhead portion in said throat is at least about 30 feet per second.
Maller Samuel G. (Mill Valley CA) Gusciora Paul H. (Greebrae CA) Isherwood David E. (Costa Mesa CA), Method and an apparatus for removing fine-grained particles from a gaseous stream.
Daman Ernest L. (Westfield NJ) Fitzgerald Francis D. (Phillipsburg NJ) Zoschak Robert J. (Glen Rock NJ), Staged furnaces for firing coal pyrolysis gas and char.
Henley John P. (Baton Rouge LA) Pearson Stanley R. (Baton Rouge LA) Peters Bruce C. (Midland MI) LaFitte Larry L. (Baton Rouge LA), Two-stage coal gasification process.
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