Turbine component having surface cooling channels and method of forming same

What is claimed is: 1. A component for a turbine engine, said component comprising: a substrate comprising a substrate first surface, said substrate first surface comprising a recess defined therein; an insert coupled to said substrate proximate said substrate first surface, wherein said insert is shaped complementary to a shape of said recess; a channel defined by a first channel wall formed in said substrate and a second channel wall formed by at least one coating disposed on said substrate first surface; an inlet opening defined in flow communication with said channel, said inlet opening defined by a first inlet wall formed in said substrate and a second inlet wall defined by said insert; and a transition region between said channel and said inlet opening such that said transition region is in flow communication with said channel and is at least partially defined by a first transition wall formed in said substrate and a second transition wall formed by said insert. 2. The component of claim 1 , wherein a longitudinal axis of said inlet opening intersects a longitudinal axis of said channel at an angle that is obtuse. 3. The component of claim 1 , wherein said insert comprises a plug disposed in said inlet opening proximate said substrate first surface. 4. The component of claim 1 , wherein a depth of said transition region decreases between said inlet opening and said channel. 5. A turbine engine comprising: a combustor section configured to generate a hot gas; and a component disposed along a path configured to be traversed by the hot gas, said component comprising: a substrate comprising a substrate first surface, said substrate first surface comprising a recess defined therein; an insert coupled to said substrate proximate said substrate first surface, wherein said insert is shaped complementary to a shape of said recess; a channel defined by a first channel wall formed in said substrate and a second channel wall formed by at least one coating disposed on said substrate first surface; an inlet opening defined in flow communication with said channel, said inlet opening defined by a first inlet wall formed in said substrate and a second inlet wall defined by said insert; and a transition region disposed between said channel and said inlet opening such that said transition region is in flow communication with said channel and is at least partially defined by a first transition wall formed in said substrate and a second transition wall formed by said insert. 6. The turbine engine of claim 5 , wherein a longitudinal axis of said inlet opening intersects a longitudinal axis of said channel at an angle that is obtuse. 7. The turbine engine of claim 5 , wherein said insert comprises a plug disposed in said inlet opening proximate said substrate first surface. 8. The turbine engine of claim 5 , wherein a depth of said transition region decreases between said inlet opening and said channel. 9. A method of forming a component for a turbine engine, said method comprising: forming a first channel wall of a channel in a substrate; forming a first inlet wall of an inlet opening in the substrate; forming a recess in the substrate first surface; coupling an insert to the substrate proximate a first surface of the substrate, wherein the insert defines a second inlet wall of the inlet opening, and wherein the insert is shaped complementary to a shape of the recess; disposing at least one coating on the substrate first surface, wherein the at least one coating forms a second channel wall of the channel, the inlet opening defined in flow communication with the channel; and forming a transition region between the channel and the inlet opening such that the transition region is in flow communication with the channel and is at least partially defined by a first transition wall formed in the substrate and a second transition wall formed by the insert. 10. The method of claim 9 , further comprising forming the first inlet wall such that a longitudinal axis of the inlet opening intersects a longitudinal axis of the channel at an angle that is obtuse. 11. The method of claim 9 , wherein said coupling the insert to the substrate comprises disposing a plug in the inlet opening proximate the substrate first surface. 12. The method of claim 9 , further comprising forming the transition region such that a depth of the transition region decreases between the inlet opening and the channel.