Sealing plug system

What is claimed is: 1. A method for deploying a sealing plug system to seal a hole formed in a flexible pipe, comprising: inserting a seal of the sealing plug system through the hole in the flexible pipe, wherein: the seal is coupled to a shaft of the sealing plug system that extends through a reaction collar of the sealing plug system; and the seal comprises a tapered surface that extends between a first end face and a second end face of the seal to facilitate insertion of the seal through the hole in the flexible pipe in a first direction while resisting removal of the seal through the hole in the flexible pipe in a second direction opposite the first direction; and moving the shaft through the reaction collar to cause the seal to be compressed against an interior surface of the flexible pipe such that the seal sealingly engages the interior surface of the flexible pipe. 2. The method of claim 1 , comprising disposing the reaction collar of the sealing plug system against an exterior surface of the flexible pipe. 3. The method of claim 2 , wherein: the hole in the flexible pipe is present in an inner layer of the flexible pipe; a first other hole aligned with the hole in the inner layer of the flexible pipe is present in a middle layer of the flexible pipe; and a second other hole aligned with the hole in the inner layer of the flexible pipe is present in an outer layer of the flexible pipe. 4. The method of claim 3 , comprising enlarging a first initial area of the first other hole in the middle layer of the flexible pipe and a second initial area of the second other hole in the outer layer of the flexible pipe to enable: the seal to be inserted through the hole in the inner layer of the flexible pipe; and the reaction collar to be disposed against the inner layer of the flexible pipe. 5. The method of claim 1 , wherein moving the shaft through the reaction collar to compress the seal against the interior surface of the flexible pipe comprises moving the shaft through the reaction collar in the second direction while blocking movement of the shaft through the reaction collar in the first direction opposite via a locking assembly of the sealing plug system. 6. The method of claim 5 , wherein: moving the shaft through the reaction collar in the second direction comprises pulling a ring coupled to the shaft in the second direction; and blocking movement of the shaft through the reaction collar in the first direction comprises engaging a locking dog embedded within the reaction collar with a groove on the shaft. 7. The method of claim 5 , wherein moving the shaft through the reaction collar in the second direction while blocking movement of the shaft through the reaction collar in the first direction comprises tightening a nut on the shaft such that the nut abuts an exterior surface of the reaction collar. 8. The method of claim 5 , wherein moving the shaft through the reaction collar in the second direction comprises engaging a tool with a head of the sealing plug system that is coupled to the shaft. 9. The method of claim 1 , wherein moving the shaft through the reaction collar to cause the seal to sealing engage the interior surface of the flexible pipe comprises moving the shaft through the reaction collar in the first direction while blocking movement of the shaft through the reaction collar in the second direction via a locking assembly of the sealing plug system. 10. The method of claim 9 , wherein: inserting the seal through the hole in the flexible pipe comprises inserting a sleeve of the sealing plug system that is coupled to the shaft radially inward of the seal through the hole in the flexible pipe; and moving the shaft through the reaction collar in the first direction while blocking movement of the shaft through the reaction collar in the second direction comprises tightening the shaft in threading implemented in the sleeve. 11. The method of claim 1 , wherein inserting the seal through the hole in the flexible pipe comprises inserting a sleeve of the sealing plug system that is coupled to the shaft radially inward of the seal through the hole in the flexible pipe, wherein the sleeve comprises: another end face that abuts the first end face of the seal; and another tapered surface that tapers inwardly from the other end face of the sleeve. 12. A sealing plug system, comprising: a reaction collar configured to be disposed against an exterior surface of a flexible pipe adjacent to a hole formed through the flexible pipe; a shaft that extends through the reaction collar; a seal coupled to the shaft, wherein: the seal is configured to be inserted through the hole in the flexible pipe to facilitate sealingly engaging an interior surface of the flexible pipe; and the seal comprises a first end face and a second end face that is configured to engage the interior surface of the flexible pipe; and a sleeve coupled to the shaft such that the sleeve abuts the first end face of the seal, wherein the shaft is configured to be moved through the reaction collar to cause the sleeve to compress the second end face of the seal against the interior surface of the flexible pipe. 13. The sealing plug system of claim 12 , wherein the seal comprises a tapered surface that extends between the first end face and the second end face of the seal to facilitate insertion of the seal through the hole in the flexible pipe in a first direction while resisting removal of the seal through the hole in the flexible pipe in a second direction opposite the first direction. 14. The sealing plug system of claim 12 , comprising a locking assembly configured to block movement of the shaft through the reaction collar in a first direction while enabling movement of the shaft through the reaction collar in a second direction opposite the first direction to facilitate compressing the seal against the interior surface of the flexible pipe. 15. The sealing plug system of claim 14 , wherein: the shaft comprises a groove; and the locking assembly comprises a locking dog embedded within the reaction collar, wherein the locking dog is configured to engage the groove on the shaft to enable movement of the shaft through the reaction collar in the second direction while blocking movement of the shaft through the reaction collar in the first direction. 16. The sealing plug system of claim 14 , comprising a ring coupled to the shaft, wherein the ring is configured to facilitate movement of the shaft in the second direction. 17. The sealing plug system of claim 14 , comprising a head coupled to the shaft, wherein the head is configured to engage a tool to facilitate movement of the shaft in the second direction. 18. A method of implementing a sealing plug system, comprising: implementing a reaction collar to be disposed against an exterior surface of a flexible pipe adjacent to a hole formed through the flexible pipe; inserting a shaft through the reaction collar to enable the shaft to be partially inserted through the hole in the flexible pipe; coupling a seal to the shaft, wherein the seal comprises a first end face, a second end face to be used to sealingly engage an interior surface of the flexible pipe, and a tapered surface that extends between the first end face and the second end face to facilitate insertion of the seal through the hole in the flexible pipe in a first direction while resisting removal of the seal through the hole in the flexible pipe in a second direction opposite the first direction; and coupling a sleeve to the shaft radially inward of the se