Solids combining system for a solid feedstock

The invention claimed is: 1. A system, comprising: a solids combining system, comprising: a solids mixing section comprising a wall around a mixing chamber and a plurality of solids inlets configured to supply one or more solids into the mixing chamber; a solids breakup section having a plurality of fluid inlets configured to supply one or more fluids into the mixing chamber, wherein the plurality of fluid inlets and the plurality of solids inlets are arranged in a plurality of sets, wherein each set of the plurality of sets comprises at least one solid inlet and at least one fluid inlet, and wherein each set of the plurality of sets is spaced about the wall around the mixing chamber, and wherein a solids flow from the at least one solid inlet is oriented in a radial inward direction relative to a central axis of the mixing chamber, and wherein a fluid flow from the at least one fluid inlet is oriented in a crosswise direction relative to the radial inward direction to impinge the fluid flow against the solids flow from a corresponding solids inlet; and a solids flow control section having a converging-diverging passage downstream of the mixing chamber. 2. The system of claim 1 , comprising a downstream system coupled to the solids combining system, wherein the downstream system comprises a gasifier. 3. The system of claim 1 , wherein the mixing chamber comprises a first side wall extending around the central axis of the mixing chamber, and the mixing chamber comprises an axial end wall extending across the central axis between the first side wall, wherein the solids breakup section is disposed between the axial end wall and the solids flow control section, wherein the plurality of solids inlets are coupled to the first side wall and are spaced about the central axis, wherein the plurality of fluids inlets are coupled to the first side wall and are spaced about the central axis. 4. The system of claim 3 , wherein the axial end wall curves outwardly away from the mixing chamber, and the converging-diverging passage is disposed along the central axis of the mixing chamber. 5. The system of claim 3 , wherein the first side wall comprises a plurality of turbulators configured to enhance mixing in the mixing chamber. 6. The system of claim 3 , wherein the first side wall comprises a plurality of panels arranged about the central axis to define a polygonal shaped interior. 7. The system of claim 3 , wherein the plurality of solids inlets are coupled to the first side wall at first angles relative to the first side wall, the plurality of fluid inlets are coupled to the first side wall at second angles relative to the first side wall, and the first and second angles are different from one another. 8. The system of claim 3 , wherein the solids flow control section comprises a flow control conduit having the converging-diverging passage, the flow control conduit comprises a converging conduit portion, a diverging conduit portion downstream from the converging conduit portion, and a throat portion between the converging conduit portion and the diverging conduit portion. 9. The system of claim 1 , wherein the plurality of solids inlets have first inlet axes, the plurality of fluid inlets have second inlet axes, and the first and second inlet axes are oriented crosswise to one another. 10. The system of claim 9 , wherein the first inlet axes are angled inwardly toward the central axis of the mixing chamber, and the second inlet axes are angled circumferentially about the central axis of the mixing chamber to induce a swirling flow in the mixing chamber. 11. The system of claim 1 , wherein each set of the plurality of sets has at least two fluid inlets oriented to impinge the fluid flow against the solids flow from the corresponding solids inlet. 12. The system of claim 1 , wherein the plurality of sets comprises at least four sets of solids inlets and fluid inlets. 13. The system of claim 1 , wherein each set of the plurality of sets has the at least one fluid inlet oriented substantially parallel or tangential to an interior surface of the mixing chamber adjacent the corresponding solids inlet. 14. The system of claim 13 , wherein the at least one fluid inlet is configured to output the fluid flow with a mach number of between approximately 0.15 and 3. 15. The system of claim 13 , wherein the at least one fluid inlet comprises at least one of an elongated port or a plurality of ports. 16. A system, comprising: a solids combining system, comprising: a solids mixing section comprising a wall around a mixing chamber and a plurality of solids inlets configured to supply one or more solids into the mixing chamber; and a solids breakup section having a plurality of fluid inlets configured to supply one or more fluids into the mixing chamber, wherein the plurality of fluid inlets and the plurality of solids inlets are arranged in a plurality of sets, wherein each set of the plurality of sets comprises at least one solid inlet and at least one fluid inlet, and wherein each set of the plurality of sets is spaced about the wall around the mixing chamber, and wherein a solids flow from the at least one solid inlet is oriented in a radial inward direction relative to a central axis of the mixing chamber, and wherein a fluid flow from the at least one fluid inlet is oriented in a crosswise direction relative to the radial inward direction to impinge the fluid flow against the solids flow from a corresponding solids inlet, and the plurality of fluid inlets are angled about a central region of the mixing chamber to induce a swirling flow in the mixing chamber. 17. The system of claim 16 , comprising a solids flow control section downstream of the mixing chamber, wherein the solids flow control section comprises a converging conduit portion, a diverging conduit portion downstream from the converging conduit portion, and a throat disposed between the converging and diverging conduit portions. 18. The system of claim 16 , wherein the solids mixing section comprises a plurality of turbulators disposed about the mixing chamber. 19. A system, comprising: a solids combining system, comprising: a solids mixing section comprising a wall around a mixing chamber and a plurality of solids inlets configured to supply one or more solids into the mixing chamber; a solids breakup section having a plurality of fluid inlets configured to supply one or more fluids into the mixing chamber, wherein the plurality of fluid inlets and the plurality of solids inlets are arranged in a plurality of sets, wherein each set of the plurality of sets comprises at least one solid inlet and at least one fluid inlet, and wherein each set of the plurality of sets is spaced about the wall around the mixing chamber, and wherein a solids flow from the at least one solid inlet is oriented in a radial inward direction relative to a central axis of the mixing chamber, and wherein a fluid flow from the at least one fluid inlet is oriented in a crosswise direction relative to the radial inward direction to impinge the fluid flow against the solids flow from a corresponding solids inlet; a solids flow control section downstream of the mixing chamber, wherein the solids flow control section comprises a converging conduit portion, a diverging conduit portion downstream from the converging conduit portion, and a throat portion between the converging conduit portion and the diverging conduit portion; and a gasifier disposed downstream from the solids combining system. 20. The system of cla