System and method for flexible conversion of feedstock to oil and gas

What is claimed is: 1. A feedstock conversion process for simultaneously producing synthetic crude oil and syngas from first and second feedstocks ( 1590 a & 1590 b ), the process comprising: subjecting, in a first chamber ( 1000 a ), the first feedstock ( 1590 a ) to a first indirectly-heated hydrous devolatilization process using steam as a fluidization medium and operating under a first set of processing conditions, to produce a first coarse mixed stream ( 1610 a ) containing char and first volatile reaction products ( 1375 a ); subjecting, in a second chamber ( 1000 b ), the second feedstock ( 1590 b ) to a second indirectly-heated hydrous devolatilization process using steam as a fluidization medium and operating under a second set of processing conditions to produce a second coarse mixed stream ( 1610 b ) containing char and second volatile reaction products ( 1375 b ); separating volatile reaction products ( 1375 a , 1375 b ) from char in the first coarse mixed stream ( 1610 a ) and the second coarse mixed stream ( 1610 b ) to create a first fine mixed stream ( 1380 a ) and a second fine mixed stream ( 1380 b ) and a first char stream ( 1360 a ) and a second char stream ( 1360 b ); inputting the first char stream ( 1360 a ) into a common reactor ( 1500 ) via a first conduit ( 1355 a ), and introducing the second char stream ( 1360 b ) into the common reactor ( 1500 ) via a second conduit ( 1355 b ), and converting the first char stream ( 1360 a ) and the second char stream ( 1360 b ) into syngas via an indirectly heated thermochemical process of steam reforming, partial oxidation, or both; and condensing at least a portion of both the first and second volatile reaction products ( 1375 a , 1375 b ) from the first and second fine mixed streams ( 1380 a , 1380 b ), to produce synthetic crude oil; wherein: the first and second feedstocks ( 1590 a & 1590 b ) differ from one another in composition and moisture content. 2. The feedstock conversion process according to claim 1 , further comprising: varying the composition or type of feedstock ( 1590 a , 1590 b ) during uninterrupted operation of the conversion process. 3. A feedstock conversion process for simultaneously producing synthetic crude oil and syngas from a carbonaceous feedstock ( 1590 a ) comprising fixed carbon feedstock components ( 1590 x , 1590 xa ) and volatile feedstock components ( 1590 y , 1590 ya ), the process comprising: (a) introducing the carbonaceous feedstock ( 1590 a ) into a devolatilization chamber ( 1000 a ) having bed solids ( 1520 ); (b) in the devolatilization chamber, reacting the volatile feedstock components with steam ( 1630 a ) at a temperature of about 320° C. to about 569.99° C. to produce: (i) an intermediate solids mixture ( 1655 a ) comprising bed solids ( 1520 ) and the fixed carbon feedstock components ( 1590 xa ); and (ii) a coarse mixed stream ( 1610 a ) comprising volatile reaction products ( 1375 a ) and char; (c) separating the volatile reaction products ( 1375 a ) from char in the first coarse mixed stream ( 1610 a ) to create a char stream ( 1360 a ) and a fine mixed stream ( 1380 a ) containing volatile reaction products ( 1375 a ); (d) transferring the intermediate solids mixture ( 1655 a ) and char stream ( 1360 a ) into a fluidized bed reactor ( 1500 ) already containing some bed solids ( 1520 ); (e) in the fluidized bed reactor ( 1500 ), reacting the char stream ( 1360 a ) and the fixed carbon feedstock components ( 1590 x ) within the intermediate solids mixture ( 1655 a ), with steam and oxygen, to produce a particulate-laden syngas stream ( 1600 ) containing syngas and fly-ash solids; (f) transferring a portion of the bed solids ( 1520 ) in the fluidized bed reactor ( 1500 ) into the devolatilization chamber ( 1000 a ); and (g) condensing at least a portion of the volatile reaction products ( 1375 a ) from the coarse mixed stream ( 1610 a ) to produce synthetic crude oil. 4. The feedstock conversion process according to claim 3 , comprising in step (d), transferring the intermediate solids mixture ( 1655 a ) into the fluidized bed reactor ( 1500 ) via a gas solids flow regulator ( 1505 a ) into which a vapor or gas ( 1412 a ) is introduced. 5. The feedstock conversion process according to claim 4 , comprising: in step (d), transferring the intermediate solids mixture ( 1655 a ) and char stream ( 1360 a ) into said fluidized bed reactor ( 1500 ) via separate inputs ( 1440 a , 1355 a ) into said reactor ( 1500 ). 6. The feedstock conversion process according to claim 4 , comprising: in step (b), separating the intermediate solids mixture ( 1655 a ) from the coarse mixed stream ( 1610 a ); and in step (d), introducing the intermediate solids mixture ( 1655 a ) and said char stream ( 1360 a ) separated out of the coarse mixed stream ( 1610 a ), into the bed solids ( 1520 ) of the fluidized bed of the reactor ( 1500 ). 7. The feedstock conversion process according to claim 3 , comprising in step (e): from gas and solids present in a freeboard zone ( 1560 ) of the fluidized bed reactor ( 1500 ), separating particulate-laden syngas from char ( 1522 ) and bed solids ( 1520 ), to form said particulate-laden syngas stream ( 1600 ); and recycling said char ( 1522 ) and bed solids ( 1520 ) back into the bed of the fluidized bed reactor ( 1500 ); wherein said freeboard zone ( 1560 ) is positioned within the fluidized bed reactor ( 1500 ) above a dense fluid bed ( 1510 ). 8. The feedstock conversion process according to claim 3 , comprising: removing fly-ash solids from the particulate-laden syngas stream ( 1600 ) to form a particulate-depleted syngas-stream ( 1910 ); and cooling the particulate-depleted syngas-stream ( 1910 ). 9. The feedstock conversion process according to claim 3 , comprising: after step (c) and before step (d), cooling the fine mixed stream ( 1380 a ) to above a dew point of condensable vapors contained therein. 10. The feedstock conversion process according to claim 9 , comprising: introducing carbon dioxide into the fluidized bed reactor ( 1500 ) to react char in the char stream ( 1360 a ) to produce syngas for said particulate-laden syngas stream ( 1600 ). 11. The feedstock conversion process according to claim 3 , comprising: after step (e) removing fly-ash solids from the particulate-laden syngas stream ( 1600 ) to form a particulate-depleted syngas-stream ( 1910 ). 12. The feedstock conversion process according to claim 11 , comprising: introducing carbon dioxide into the fluidized bed reactor ( 1500 ) to react char in the char stream ( 1360 a ) to produce syngas for said particulate-laden syngas stream ( 1600 ). 13. The feedstock conversion process according to claim 3 , comprising: introducing carbonaceous feedstock ( 1590 a ) into the devolatilization chamber ( 1000 a ) at a throughput ranging from about 20 tons per day to about 250 tons per day. 14. The feedstock conversion process according to claim 3 , wherein in step (b): the carbonaceous feedstock ( 1590 a ) is reacted with steam ( 1630 a ) at a pressure of about 0.65 bar to about 2 bar. 15. The feedstock conversion process according to claim 14 , comprising: operating the fluid bed reactor at a higher pressure than the devolatilization chamber. 16. The feedstock conversion process according to claim 15 , wherein: a ratio of the pressure of the fluid bed reactor to the pressure of the devolatilization ch