초록 ▼

A combustor assembly includes a combustor vessel having a wall, a proximate end defining an opening and a closed distal end opposite said proximate end. A manifold is carried by the proximate end. The manifold defines a combustion products exit. The combustion products exit being axially aligned wi

A combustor assembly includes a combustor vessel having a wall, a proximate end defining an opening and a closed distal end opposite said proximate end. A manifold is carried by the proximate end. The manifold defines a combustion products exit. The combustion products exit being axially aligned with a portion of the closed distal end. A plurality of combustible reactant ports is carried by the manifold for directing combustible reactants into the combustion vessel from the region of the proximate end towards the closed distal end.

대표청구항 ▼

We claim: 1. A combustor assembly for receiving an oxidant supply from an oxidant supplier comprising: a combustor vessel having an outer wall, a proximate end defining an opening and a closed distal end opposite said proximate end; said combustor vessel outer wall being continuous from a point at

We claim: 1. A combustor assembly for receiving an oxidant supply from an oxidant supplier comprising: a combustor vessel having an outer wall, a proximate end defining an opening and a closed distal end opposite said proximate end; said combustor vessel outer wall being continuous from a point at least midway between said opening and said closed distal end to said distal end defining a combustor chamber; a sleeve encircling the outer wall of said combustor vessel; said sleeve being offset from said wall of said combustor vessel defining an oxidant supply channel for directing an oxidant supply received from the compressor along the outer wall of said combustor vessel; an oxidant supply port in fluid communication with said oxidant supply channel for directing an oxidant supply into said combustor vessel from the region of said proximate end towards said closed distal end; a manifold carried by the proximate end of said combustor vessel, said manifold having an annular configuration defining a combustion products exit, said combustion products exit being axially aligned with a portion of said closed distal end; a plurality of combustible reactant ports carried by said manifold for directing combustible reactants into said combustion vessel from the region of said proximate end towards said closed distal end; said combustible reactant ports include at least an oxidant port and a fuel port; and at least one oxidant port is intermediary said fuel port and said combustion products exit shielding fuel from said fuel port from combustion products exiting said combustion chamber via said combustion products exit. 2. The combustor assembly of claim 1 wherein combustible reactants port include a first set of oxidant ports and second set of fuel ports alternately positioned within said manifold. 3. The combustor assembly of claim 2 wherein said manifold includes a combustor facing surface received within said proximate end, and said first and second set of ports are alternately positioned circumferentially along the entire combustor facing surface. 4. The combustor assembly of claim 1 wherein said combustor vessel has a torus cross-section having an outer wall having an internal and external surface and an inner wall having an internal and external surface. 5. The combustor assembly of claim 4 further including a plurality of fuel supply ports for directing fuel supply from said proximate end towards said closed distal end along the internal surface of said inner and outer wall of said combustor vessel. 6. The combustor assembly of claim 5 further including a plurality of oxidant supply ports for directing oxidant supply from said proximate end towards said closed distal end adjacent to fuel stream flowing along the internal surface of said inner and outer wall of said combustor vessel. 7. The combustor assembly of claim 4 further including an inner sleeve received within the combustor vessel offset from the external surface of said inner wall, said inner sleeve and inner wall defining an inner oxidant supply channel for directing an oxidant supply from the compressor along the external surface of said inner wall for cooling said external surface.