Convective shielding cooling hole pattern

The invention claimed is: 1. A turbine used in a turbine engine comprising: a turbine airfoil that is in communication with a platform for the turbine; the platform comprising: a first set of suction side openings extending between an inner surface and a top surface of the platform that exhaust a first cooling stream in the direction of a stream of airflow through the airfoil in communication with the platform when the turbine is at a desired velocity, each first suction side opening of the first set of suction side openings including a first axis, the first axis extending between the inner surface and the top surface of platform along the center of the first suction side opening, each first suction side opening of the first set of suction side openings further including a first angle, the first angle being defined as the angle between the inner surface of the platform and the first axis; and a second set of suction side openings extending between the inner surface and the top surface of the platform that exhaust a second cooling stream in the direction of the stream of airflow through the airfoil in communication with the platform when the turbine is at the desired velocity wherein the second set of suction side openings are located downstream of the first set of suction side openings relative to a flow direction of the first cooling stream along the top surface in a path of the first cooling stream and wherein the first cooling stream is adapted to cool the second set of suction side openings, each second suction side opening of the second set of suction side openings including a second axis, the second axis extending between the inner surface and the top surface of platform along the center of the second suction side opening, each second suction side opening of the second set of suction side openings further including a second angle, the second angle being defined as the angle between the inner surface of the platform and the second axis, the second angle less than the first angle. 2. The turbine of claim 1 , the platform further comprising: a third set of suction side openings extending between the inner surface and the top surface of the platform that exhaust a third cooling stream in the direction of the stream of airflow through the airfoil in communication with the platform when the turbine is at the desired velocity wherein the third set of suction side openings are located downstream of the second set of suction side openings relative to a flow direction of the second cooling stream along the top surface in the path of the second cooling stream and wherein the second cooling stream is adapted to cool the third set of suction side openings, each third suction side opening of the third set of suction side openings including a third axis, the third axis extending between the inner surface and the top surface of platform along the center of the third suction side opening, each third suction side opening of the third set of suction side openings further including a third angle, the third angle being defined as the angle between the inner surface of the platform and the third axis, the third angle less than the first angle and the second angle. 3. The turbine of claim 2 , wherein the third set of suction side openings is in the path of the first cooling stream. 4. The turbine of claim 1 , wherein the first set of suction side openings have a first diffuser adapted to provide control to the first cooling stream. 5. The turbine of claim 4 , wherein the second set of suction side openings have a second diffuser adapted to provide control to the second cooling stream. 6. The turbine of claim 1 , wherein the first set or second set of suction side openings is cylindrical. 7. The turbine of claim 1 , wherein at least one of the first set of suction side openings and the second set of suction side openings are linear. 8. The turbine of claim 1 , wherein at least one of the first set of suction side openings and the second set of suction side openings are curved. 9. The turbine of claim 1 , wherein the first set of suction side openings is placed in an area of the platform that is hotter than a surrounding area of the platform at an operating temperature. 10. A method of creating a platform for a turbine for use in a turbine engine comprising: creating a platform to accept at least one airfoil; in the platform, i. forming a first set of suction side openings extending between an inner surface and a top surface of the platform that exhaust a first cooling stream in the direction of a stream of airflow through the at least one airfoil in communication with the platform when the turbine is at a desired velocity, each first suction side opening of the first set of suction side openings including a first axis, the first axis extending between the inner surface and the top surface of platform along the center of the first suction side opening, each first suction side opening of the first set of suction side openings further including a first angle, the first angle being defined as the angle between the inner surface of the platform and the first axis; and ii. forming a second set of suction side openings extending between an inner surface and a top surface of the platform that exhaust a second cooling stream in the direction of the stream of airflow through the airfoil in communication with the platform when the turbine is at the desired velocity wherein the second set of suction side openings are located downstream of the first set of suction side openings relative to a flow direction of the first cooling stream along the top surface in a path of the first cooling stream and wherein the first cooling stream is adapted to cool the second set of suction side openings, each second suction side opening of the second set of suction side openings including a second axis, the second axis extending between the inner surface and the top surface of platform along the center of the second suction side opening, each second suction side opening of the second set of suction side openings further including a second angle, the second angle being defined as the angle between the inner surface of the platform and the second axis, the second angle less than the first angle. 11. The method of claim 10 , further comprising forming in the platform a third set of suction side openings that exhaust a third cooling stream in the direction of the stream of airflow through the airfoils in communication with the platform when the turbine is at the desired velocity wherein the third set of suction side openings are located downstream of the second set of suction side openings relative to a flow direction of the second cooling stream along the top surface in the path of the second cooling stream and wherein the second cooling stream is adapted to cool the third set of suction side openings, each third suction side opening of the third set of suction side openings including a third axis, the third axis extending between the inner surface and the top surface of platform along the center of the third suction side opening, each third suction side opening of the third set of suction side openings further including a third angle, the third angle being defined as the angle between the inner surface of the platform and the third axis, the third angle less than the first angle and the second angle. 12. The method of claim 11 , wherein the third set of suction side openings is formed in the path of the first cooling stream. 13. The method of claim 10 , further comprising forming a diffuser at the outlet of at least one of the first set of suction side openings and the second set of suction side openings wherein