Adaptive real-time nuclear magnetic resonance logging for subsurface operations

What is claimed: 1. A method for performing nuclear magnetic resonance (NMR) logging in downhole operations, the method comprising: performing a scout logging acquisition operation using an NMR logging tool to determine NMR logging parameters for a formation interval; setting an NMR logging acquisition mode based on the NMR logging parameters from the scout logging acquisition operation; and performing an NMR data logging operation to determine properties of the formation interval based on the set NMR logging acquisition mode, wherein the scout logging acquisition operation comprises an NMR pulse sequence different from an NMR pulse sequence of the NMR data logging operation. 2. The method of claim 1 , wherein the NMR pulse sequence of the scout logging acquisition operation has a longer acquisition length than the NMR pulse sequence of the NMR data logging operation. 3. The method of claim 1 , wherein the NMR logging tool is disposed along a drill string. 4. The method of claim 3 , wherein the scout logging acquisition operation is performed while drilling. 5. The method of claim 1 , wherein the NMR logging tool is disposed along a wireline tool string. 6. The method of claim 1 , wherein the NMR logging tool is set with a first NMR logging acquisition mode and the NMR logging acquisition mode of the NMR logging tool is set to a second NMR logging acquisition mode based on the scout logging acquisition operation. 7. The method of claim 1 , wherein setting the NMR logging acquisition mode comprises using a look-up table based on the NMR logging parameters for the formation interval. 8. The method of claim 1 , wherein the scout logging acquisition operation is performed based on a trigger. 9. The method of claim 8 , wherein the trigger comprises at least one of a time interval, a depth interval, a detected changed in a formation interval, and a signal received at the NMR logging tool from the surface. 10. The method of claim 8 , wherein the trigger is received from a different downhole tool operably connected to the NMR logging tool. 11. A downhole logging system comprising: an NMR logging tool configured to: perform a scout logging acquisition operation using an NMR logging tool to determine NMR logging parameters for a formation interval; set an NMR logging acquisition mode based on the NMR logging parameters from the scout logging acquisition operation; and perform an NMR data logging operation to determine properties of the formation interval based on the set NMR logging acquisition mode, wherein the scout logging acquisition operation comprises an NMR pulse sequence different from an NMR pulse sequence of the NMR data logging operation. 12. The downhole logging system of claim 11 , further comprising: a tool string, wherein the NMR logging tool is disposed along the tool string. 13. The downhole logging system of claim 12 , wherein the tool string is a drill string. 14. The downhole logging system of claim 13 , wherein the scout logging acquisition operation is performed while drilling. 15. The downhole logging system of claim 11 , wherein the NMR logging tool is disposed along a wireline tool string. 16. The downhole logging system of claim 11 , wherein the NMR logging tool is set with a first NMR logging acquisition mode and the NMR logging acquisition mode of the NMR logging tool is set to a second NMR logging acquisition mode based on the scout logging acquisition operation. 17. The downhole logging system of claim 11 , wherein the NMR logging tool includes a memory having a look-up table stored thereon, wherein the setting of the NMR logging acquisition mode comprises using the look-up table based on the NMR logging parameters for the formation interval. 18. The downhole logging system of claim 11 , wherein the scout logging acquisition operation is performed based on a trigger. 19. The downhole logging system of claim 18 , wherein the trigger comprises at least one of a time interval, a depth interval, a detected changed in a formation interval, and a signal received at the NMR logging tool from the surface. 20. The downhole logging system of claim 11 , wherein the NMR pulse sequence of the scout logging acquisition operation has a longer acquisition length than the NMR pulse sequence of the NMR data logging operation.