Angled combustor liner cooling holes through transverse structure within a gas turbine engine combustor

What is claimed is: 1. A wall assembly within a gas turbine engine having an axial centerline, comprising: a support shell having a first side and a second side opposite the first side; a liner panel mounted to the support shell, the liner panel having a cold side facing the support shell and a hot side opposite the cold side; and an annular grommet mounted between the support shell and the liner panel, the annular grommet comprising a transverse structure comprising a wall, the wall having a first surface and a second surface opposite the first surface, the annular grommet further comprising at least one effusion passage, the at least one effusion passage including an inlet in the first surface of the wall, the annular grommet further comprising an outer portion, mounted between the second side of the support shell and the cold side of the liner panel, and an inner portion comprising the second surface of the wall; wherein the inner portion of the annular grommet has a grommet hot side and a grommet cold side opposite the grommet hot side and wherein the grommet hot side of the annular grommet and the hot side of the liner panel collectively form a first common surface and the grommet cold side of the annular grommet and the first side of the support shell collectively form a second common surface radially spaced from the second side of the support shell with respect to the axial centerline, wherein the second surface of the wall at least partially defines and interfaces with a dilution passage, and wherein the transverse structure further comprises a seal face configured to form a seal between the transverse structure and the second side of the support shell about a circumference of the dilution passage; wherein the support shell includes a radial surface extending between the first side of the support shell and the second side of the support shell and wherein the radial surface of the support shell abuts an outer radial surface of the annular grommet extending between the seal face and the grommet cold side of the annular grommet. 2. The wall assembly as recited in claim 1 , wherein the first surface is at least partially circular. 3. The wall assembly as recited in claim 1 , wherein the first surface is at least partially linear. 4. The wall assembly as recited in claim 1 , wherein the at least one effusion passage extends at an angle α, and the angle α is defined such that an outlet of the at least one effusion passage does not penetrate the second surface of the wall. 5. The wall assembly as recited in claim 1 , wherein the inlet is in communication with an impingement cavity. 6. The wall assembly as recited in claim 5 , wherein the liner panel and the support shell define the impingement cavity therebetween. 7. The wall assembly as recited in claim 1 , wherein the at least one effusion passage extends at an angle α, the angle α defined such that an outlet of the at least one effusion passage extends through the grommet hot side of the annular grommet, and the grommet hot side of the annular grommet is parallel to the hot side of the liner panel. 8. The wall assembly as recited in claim 1 , wherein the transverse structure is located within one of a combustor section, an augmentor section, an exhaust duct section or a nozzle section of the gas turbine engine. 9. The wall assembly of claim 1 , wherein the at least one effusion passage includes an outlet in the grommet hot side of the annular grommet. 10. The wall assembly of claim 1 , wherein the liner panel includes a radial surface extending between the cold side of the liner panel and the hot side of the liner panel and wherein the radial surface of the liner panel abuts a second radial surface of the annular grommet. 11. The wall assembly of claim 10 , wherein the seal face of the transverse structure is in contact with the second surface of the support shell to form the seal and wherein the transverse structure is radially fixed relative to the second side of the support shell. 12. The wall assembly of claim 1 , wherein the at least one effusion passage is non-linear and defined between the annular grommet and the liner panel. 13. The wall assembly of claim 12 , wherein the at least one effusion passage has a radially extending portion, with respect to a center axis of the dilution passage, in fluid communication with the inlet of the at least one effusion passage and wherein the at least one effusion passage has an axially extending portion extending perpendicular to the radially extending portion and in fluid communication with the outlet of the at least one effusion passage.