Cable conduit for turbine engine bypass

What is claimed is: 1. A gas turbine engine comprising: a compressor section configured to compress a gas; a combustor section aft of the compressor section and configured to combust the gas; a fan section configured to produce a bypass flow; an outer case having an inner surface and an inner case having an outer surface defining a bypass flow duct there between; and a cable conduit, disposed within the bypass flow duct, comprising: a head end, a sleeve having a foot end, a boot, and a split grommet, wherein the head end is coupled to the sleeve opposite the foot end, wherein the boot comprises a first flange and a neck, wherein the neck is coupled to a flared portion of the foot end, wherein the head end comprises a second flange having and a cutout penetrating into an interior volume of the sleeve, wherein the split grommet is coupled within the interior volume of the sleeve, and wherein the second flange is coupled the inner case and the first flange is coupled to the outer case. 2. The gas turbine engine of claim 1 , wherein the cable conduit further comprises a forward section and an aft section, wherein the sleeve comprises coupling lobes. 3. The gas turbine engine of claim 2 , wherein the forward section comprises a first perforation through a forward aerodynamic surface and the aft section comprises a second perforation through an aft aerodynamic surface, wherein the first perforation and the second perforation are in fluid communication with the bypass flow duct and the interior volume of the sleeve, wherein a portion of the bypass flow passes through the first perforation into the interior volume and exits the interior volume through the second perforation. 4. The gas turbine engine of claim 3 , wherein the boot comprises a first half section and a second half section separable at a seamline. 5. The gas turbine engine of claim 4 , wherein the boot comprises a pusher plate and a gasket. 6. The gas turbine engine of claim 5 , wherein a standoff washer is embedded into the gasket. 7. The gas turbine engine of claim 6 , wherein the sleeve comprises a sleeve locking feature. 8. The gas turbine engine of claim 6 , wherein the split grommet comprises a mating surface comprising at least one of an extrusion, a finger, a cavity, a pocket, a bore, or an embedded stud. 9. The gas turbine engine of claim 6 , wherein the gasket comprises a recessed portion configured to receive a flanged portion of the standoff washer, wherein the standoff washer defines a radial gap between the standoff washer and a gasket material.