System and method for combustion of non-gaseous fuels and derivatives thereof

The invention claimed is: 1. A power production plant comprising: a gasifier configured for receiving a solid fuel and providing a gaseous fuel; a combustor configured for receiving the gaseous fuel, an oxidant, and a diluent, and outputting a combustor exhaust stream; and a turbine configured to receive the combustor exhaust stream; wherein: the combustor includes an outer casing and a combustor liner defining a combustion chamber therein, the combustor liner comprising a plurality of longitudinally-extending reinforcing rib members engaged with an outer surface of the combustor liner and extending toward the outer casing, wherein adjacent rib members and the outer surface of the combustor liner define a plurality of cooling channels along the outer surface of the combustor liner, the plurality of cooling channels being configured to receive a flow of any one or more of the fuel, the oxidant, and the diluent thereagainst prior to being received by the combustion chamber to thereby provide for cooling of the combustor liner; the combustor liner comprises one or more openings defined therein and adapted for passage therethrough of the oxidant into the combustion chamber; the combustor liner comprises one or more openings defined therein and adapted for passage therethrough of the diluent into the combustion chamber; and the combustor includes a wall comprising a longitudinally extending portion, the longitudinal extending portion of the wall positioned between the combustor liner and the outer casing, the wall being effective to allow only oxidant to flow along an upstream portion of the combustor liner and allow only diluent to flow along a downstream portion of the combustor liner. 2. The power production plant of claim 1 , further comprising a sleeve member extending about the outer surface of the combustor liner and the plurality of reinforcing rib members, the sleeve member cooperating with at least the reinforcing rib members to define a plurality of longitudinally-extending cooling channels about the outer surface of the combustor liner, the flow of any one or more of the fuel, the oxidant, and the diluent being directed through the cooling channels and against the outside surface of the combustion chamber prior to being received by the combustion chamber. 3. The power production plant of claim 1 , wherein the combustor liner comprises a first, inner liner and a second, outer liner. 4. The power production plant of claim 3 , wherein the inner liner and the outer liner are spaced apart so as to define a space therebetween, the space being adapted for passage therethrough of the diluent. 5. The power production plant of claim 1 , wherein the combustion chamber defines a reaction zone and a dilution zone. 6. The power production plant of claim 1 , wherein the combustor further comprises an oxidant injector engaging an upstream end of the combustor liner. 7. The power production plant of claim 6 , wherein the oxidant injector comprises a first stage oxidant injector arranged to introduce at least a first portion of at least the oxidant into the combustion chamber. 8. The power production plant of claim 7 , wherein the first stage oxidant injector includes a swirler device configured to direct the oxidant into the combustion chamber at an angle relative to axial. 9. The power production plant of claim 8 , wherein the swirler device comprises a plurality of angled oxidant vents configured to direct the oxidant into the combustion chamber at an angle of 20 degrees to 85 degrees relative to axial. 10. The power production plant of claim 7 , wherein the oxidant injector comprises a second stage oxidant injector arranged to introduce a second portion of at least the oxidant through a wall of the combustor liner defining the combustion chamber. 11. The power production plant of claim 10 , wherein the second stage oxidant injector is arranged relative to the first stage oxidant injector so that the second portion of at least the oxidant is introduced through the wall of the combustor liner downstream from the first stage oxidant injector. 12. The power production plant of claim 6 , wherein the oxidant injector includes a passage therethrough configured for engagement by a fuel nozzle. 13. A power production method comprising: gasifying a solid fuel to form a gaseous fuel; injecting the gaseous fuel from the gasifier into a combustor with an oxidant and a diluent so as to combust the fuel and form a combustor exhaust stream; and passing the combustor exhaust stream through a turbine to generate power; wherein the combustor includes an outer casing and a combustor liner defining a combustion chamber therein having a reaction zone and a dilution, and wherein the following conditions are met: a first portion of at least the oxidant is introduced into the reaction zone of the combustion chamber through a swirler device; a second portion of at least the oxidant is introduced into the reaction zone of the combustion chamber through a wall of the combustor liner downstream from the introduction of the first portion of at least the oxidant and upstream from the dilution zone of the combustion chamber; at least a portion of the diluent is introduced into the dilution zone of the combustion chamber through the wall of the combustor liner; the second portion of at least the oxidant is passed along only an upstream portion of the combustor liner prior to being introduced into the reaction zone through the wall of the combustor liner; and the at least a portion of the diluent is passed along only a downstream portion of the combustor liner prior to being introduced into the dilution zone through the wall of the combustor liner. 14. The power production method of claim 13 , wherein the combustor liner comprises a plurality of longitudinally-extending reinforcing rib members engaged with an outer surface of the combustor liner, and wherein any one or more of the fuel, the oxidant, and the diluent is passed along at least a portion of the outer surface of the combustor liner between adjacent reinforcing rib members prior to being received by the combustion chamber. 15. The power production method of claim 13 , wherein the combustor liner comprises one or more openings defined therein, and wherein at least a portion of the oxidant is passed through the one or more openings into the combustion chamber. 16. The power production method of claim 13 , wherein the combustor liner comprises one or more openings defined therein, and wherein at least a portion of the diluent is passed through the one or more openings into the combustion chamber. 17. The power production method of claim 13 , wherein the swirler device is effective to direct the oxidant into the combustion chamber at an angle of 20 degrees to 85 degrees relative to axial. 18. The power production method of claim 13 , comprising passing the gaseous fuel into the combustion chamber through a fuel nozzle that is engaging a passage through the oxidant injector.