Combustor of gas turbine engine and method

The invention claimed is: 1. A combustor for a gas turbine engine having a rotation axis, the combustor comprising: a liner enclosing a combustion chamber extending along an axial direction relative to the rotation axis, the liner defining air passages through the liner into the combustion chamber, a fuel nozzle fluidly connected to the combustion chamber upstream of the air passages, a louver disposed inside the combustion chamber over the air passages, the louver extending circumferentially along the liner relative to the rotation axis from a first circumferential end of the louver to a second circumferential end of the louver and having a front-facing axial edge facing toward the fuel nozzle and a rear-facing axial edge facing away from the fuel nozzle, the louver connected to the liner by a fastener, the fastener spacing at least one of the axial edges from the liner to define an air outlet between the at least one of the axial edges and the liner, and a divider wall extending from the liner to the louver, wherein the divider wall and the louver, when viewed in a circumferential direction with respect to the rotation axis, is T-shaped. 2. The combustor of claim 1 , wherein: the at least one of the axial edges is the front-facing axial edge and the air outlet is a front-facing air outlet in a radial direction between the front-facing axial edge and the liner; and the rear-facing axial edge and the liner define a rear-facing air outlet between the rear-facing axial edge and the liner, the rear-facing air outlet extending from the first circumferential end of the louver to the second circumferential end of the louver. 3. The combustor of claim 2 , wherein the divider wall disposed between the front-facing and rear-facing air outlets and between the air passages such a first subset of the air passages supply air to the front-facing air outlet and a second subset of the air passages supply air to the rear-facing air outlet. 4. The combustor of claim 3 , wherein: the liner includes an annular outer liner extending about a central axis of the combustor; the louver and the divider wall extend circumferentially along a portion of the annular outer liner relative to the central axis; and an end wall is disposed at each of the first and second circumferential ends of the louver, the end walls defining the front-facing and rear-facing air outlets. 5. The combustor of claim 4 , wherein the front-facing air outlet has a total airflow exit area that is between 2 to 3 times a total airflow exit area of the first subset of the air passages supplying the air to the front-facing air outlet, and the rear-facing air outlet has a total airflow exit area that is between 2 to 3 times a total airflow exit area of the second subset of the air passages supplying the air to the rear-facing air outlet. 6. The combustor of claim 5 , wherein the total airflow exit area of the first subset of the air passages supplying the air to the front-facing air outlet is greater than the total airflow exit area of the second subset of the air passages supplying the air to the rear-facing air outlet. 7. The combustor of claim 5 , comprising a plurality of thumbnail air outlets disposed on a side of the louver opposite the divider wall, each of the thumbnail air outlets being fluidly connected to at least one of: the first subset of the air passages, the second subset of the air passages, and an air source disposed outside of the liner; the combustion chamber includes a primary zone in a front portion of the combustion chamber, and a dilution zone downstream of the primary zone; the louver, the divider wall, the first subset of the air passages, and the second subset of air passages are positioned between the primary zone and the dilution zone; the first subset of air passages defined through the liner opening into the primary zone of the combustion chamber; the liner includes an annular inner liner, the annular inner liner defining at least one primary jet air passage through the annular inner liner, the at least one primary jet air passage opening into the combustion chamber between the primary zone and the dilution zone; and the first subset of air passages opening into the primary zone and the at least one primary jet air passage are sized and oriented such that air flowing into the combustion chamber during operation through the first subset of air passages opening into the primary zone and the at least one primary jet air passage generates a toroidal flow of combustion gases in the primary zone, the toroidal flow of combustion gases impinging upon the louver and the thumbnail air outlets. 8. The combustor of claim 7 , wherein: the louver, the divider wall, the front-facing and rear-facing air outlets, and the thumbnail air outlets are part of an air film starter threadingly attached to the annular outer liner; the air film starter is a plurality of film starters distributed circumferentially along the annular outer liner; the fuel nozzle is a plurality of fuel nozzles disposed upstream of the plurality of film starters; and each fuel nozzle of the plurality of fuel nozzles aligns axially with at least one film starter of the plurality of film starters. 9. The combustor of claim 8 , wherein the plurality of film starters covers substantially an entirety of a circumference of the annular outer liner. 10. The combustor of claim 4 , wherein the louver has a rectangular cross-section. 11. A combustor for a gas turbine engine having a rotation axis, the combustor comprising: an outer liner and an inner liner defining an annular combustion chamber between the outer liner and the inner liner; a fuel nozzle disposed in a front portion of the combustion chamber; a plurality of air passages defined through the outer liner downstream of the fuel nozzle; and an air film starter disposed inside the combustion chamber and connected to the outer liner via a threaded stud, the air film starter defining: a front-facing elongate air outlet directing air from at least one of the plurality of air passages along the outer liner toward the fuel nozzle when the combustor is in use; and a rear-facing elongate air outlet directing air from at least one of the plurality of air passages along the outer liner away from the fuel nozzle when the combustor is in use, a louver disposed inside the combustion chamber proximate to and spaced from the outer liner, and front and rear axial edges of the louver define the front-facing and rear-facing elongate air outlets, respectively, between the front and rear axial edges, respectively, and the outer liner, a divider wall extending from the outer liner to the louver, wherein the divider wall and the louver, when viewed in a circumferential direction with respect to the rotation axis, is T-shaped. 12. The combustor of claim 11 , wherein the front and rear axial edges are free of contact with the outer liner. 13. The combustor of claim 12 , wherein: the front-facing elongate air outlet extends radially inward of the outer liner; and the rear-facing elongate air outlet extends radially inward of the outer liner. 14. The combustor of claim 13 , wherein the threaded stud includes a plurality of bolts distributed circumferentially along the outer liner and extending into the combustion chamber through the outer liner and connecting to the air film starter; or a plurality of threaded studs extending from the air film starter out of the combustion chamber through the outer liner. 15. The combustor of claim 14 , wherein the divider wall is between opposed circumferential ends of the louver, and the air film