Cyclonic separator for a turbine engine

What is claimed is: 1. A gas turbine engine comprising: an engine core having a compressor section, a combustor section, and a turbine section in axial flow arrangement; a cooling air circuit fluidly coupling the compressor section to the turbine section; and a cyclonic separator comprising: a housing, a centerbody located within the housing defining an annular volume between the housing and centerbody as an annular cyclonic separating chamber; an inlet tangentially coupling the annular volume to the cooling air circuit, a cleaner air outlet coupling the annular volume to the cooling air circuit downstream of the inlet, and a scavenge outlet fluidly coupled to the annular volume; further comprising an inducer section axially upstream of the turbine section and having at least one inducer with a turning passage having an inlet coupled to the cyclonic separator cleaner air outlet and an outlet fluidly coupled to the turbine section; wherein a centerline of the inlet of the turning passage and the centerline of the cleaner air outlet are aligned. 2. A gas turbine engine comprising: an engine core having a compressor section, a combustor section, and a turbine section in axial flow arrangement; a cooling air circuit fluidly coupling the compressor section to the turbine section; and a cyclonic separator comprising: a housing defining an interior, a centerbody located within the interior to define an annular volume within the housing between the centerbody and the housing to form an annular cyclonic separating chamber, an inlet tangentially coupling the annular volume to the cooling air circuit, a cleaner air outlet coupling the annular volume to the cooling air circuit downstream of the inlet, and a scavenge outlet fluidly coupled to the annular volume; wherein the cyclonic separator inlet has a portion with a cross-sectional area to accelerate the cooling air; and wherein the portion has a continuously reducing cross-sectional area. 3. A gas turbine engine comprising: an engine core having a compressor section, a combustor section, and a turbine section in axial flow arrangement; a cooling air circuit fluidly coupling the compressor section to the turbine section; and a cyclonic separator comprising: a housing defining an interior, a centerbody located within the interior to define an annular volume within the housing between the centerbody and the housing to form an annular cyclonic separating chamber, an inlet tangentially coupling the annular volume to the cooling air circuit, a cleaner air outlet coupling the annular volume to the cooling air circuit downstream of the inlet, and a scavenge outlet fluidly coupled to the annular volume; wherein the cyclonic separator comprises a turning element for turning airflow located within the annular volume. 4. An inducer assembly for a gas turbine engine comprising: a disk comprising a plurality of circumferentially arranged inducers having a turning passage with an inlet and outlet and defining a flow streamline; and a plurality of cyclonic separators paired with the plurality of inducers, each of the cyclonic separators having an annular cyclonic separating chamber with an air inlet, a cleaner air outlet, and a scavenge outlet, and defining an annulus centerline; wherein the air inlet is tangential to the annular cyclonic separating chamber, the cleaner air outlet is coupled to the inducer inlet and defines a cleaner air outlet streamline, and the cleaner air outlet is coupled to the inducer inlet such that the cleaner air outlet streamline aligns with the inducer streamline. 5. The inducer assembly of claim 4 wherein the cyclonic separator air inlet has a portion with a reduced cross-sectional area to accelerate a flow of cooling air. 6. The inducer assembly of claim 5 wherein the portion has a continuously reducing cross-sectional area. 7. The inducer assembly of claim 4 wherein the cyclonic separators comprise a turning element located within the annular cyclonic separating chamber. 8. The inducer assembly of claim 4 wherein the scavenge outlet is tangential to the annular cyclonic separating chamber. 9. The inducer assembly of claim 4 wherein the disk defines a disk centerline, the cyclonic separators define a plurality of cyclonic centerlines, and the disk centerline and cyclonic centerlines are parallel or angularly offset. 10. The inducer assembly of claim 9 wherein the cyclonic centerlines are angularly offset from the disk centerline by a compound angle comprising both axial and radial components with respect to the disk centerline. 11. The inducer assembly of claim 10 wherein the cyclonic separators are arranged circumferentially about the disk centerline. 12. A gas turbine engine having an engine centerline and at least one cyclonic separator circumferentially arranged about the engine centerline, the at least one cyclonic separator having an annular cyclonic separating chamber with an air inlet, a cleaner air outlet, and a scavenge outlet, and defining an annulus centerline, wherein the air inlet is tangential to the annular separating chamber; further comprising an inducer assembly having a plurality of inducers circumferentially arranged about the engine centerline, the inducers having a turning passage with an inlet and outlet and defining a flow streamline, and the cleaner air outlet is coupled to the inducer inlet and defines a cleaner air outlet streamline, wherein the cleaner air outlet is coupled to the inducer inlet such that the cleaner air outlet streamline aligns with the inducer inlet streamline. 13. A gas turbine engine having an engine centerline and at least one cyclonic separator circumferentially arranged about the engine centerline, the at least one cyclonic separator having an annular cyclonic separating chamber with an air inlet, a cleaner air outlet, and a scavenge outlet, and defining an annulus centerline, wherein the air inlet is tangential to the annular cyclonic separating chamber; further comprising a turning element for turning airflow located within the annular cyclonic separating chamber upstream of the inducer inlet. 14. A turbine engine having an engine centerline, the turbine engine comprising: at least one cyclonic separator circumferentially arranged about the engine centerline, the at least one cyclonic separator having an annular cyclonic separating chamber defining an annulus centerline and having: an air inlet, a cleaner air outlet, and a scavenge outlet, wherein the air inlet is tangential to the annular cyclonic separating chamber; further comprising an inducer assembly having a plurality of inducers circumferentially arranged about the engine centerline, the inducers having a turning passage with an inlet and outlet and defining a flow streamline, and the cleaner air outlet is coupled to the inducer inlet and defines a cleaner air outlet streamline, wherein the cleaner air outlet is coupled to the inducer inlet such that the cleaner air outlet streamline aligns with the inducer inlet streamline. 15. A turbine engine having an engine centerline, the turbine engine comprising: at least one cyclonic separator circumferentially arranged about the engine centerline, the at least one cyclonic separator having an annular cyclonic separating chamber defining an annulus centerline and having: an air inlet, a cleaner air outlet, and a scavenge outlet, wherein the air inlet is tangential to the annular cyclonic separating chamber; further comprising a turning element for turning airflow located within the annular cyclonic separating chamber upstream of the cle