Subsea slip-on pipeline repair connector with graphite packing

We claim: 1. A pipeline connector, comprising: a. a graphite packer, comprising: i. a first side; ii. a second side disposed opposite the first side; iii. a first flexible C-shaped ring disposed on the first side; iv. a second flexible C-shaped ring disposed on the second side; and v. a graphite seal disposed intermediate the first flexible C-shaped ring and the second flexible C-shaped ring, the graphite seal comprising an inner diameter sized to slidingly fit about an outer diameter of a tubular and a graphite-based composition sufficient to flow under compression, the first flexible C-shaped ring and the second flexible C-shaped ring configured to operate as a primary extrusion mechanism for the graphite seal; and b. a set of slip limiting rings disposed on either the first side or the second side of the graphite packer against the first C-shaped ring or the second C-shaped ring. 2. The pipeline connector of claim 1 , wherein the first C-shaped ring and the second C-shaped ring comprise a metal, a Kevlar backing, or a wire mesh graphite backing. 3. The pipeline connector of claim 1 , wherein the first C-shaped ring and the second C-shaped ring are configured to inhibit the graphite seal from extruding out by comprising a flexibility sufficient to flare out to meet the outer diameter of the tubular before the graphite seal is compressed into a gap between an inner diameter of the graphite seal and the outer diameter of the tubular and to contain the graphite seal about the outer diameter of the tubular. 4. The pipeline connector of claim 3 , wherein the set of slip limiting rings are configured to prevent the first C-shaped ring and the second C-shaped ring from yielding or flaring out excessively to where the graphite seal is no longer contained. 5. A tubular connection system, comprising: a. a slip, comprising a substantially tubular housing sized to fit about an outer diameter of a tubular, the tubular housing comprising a first end and second end; b. a first pipeline connector sized to fit within the tubular housing, comprising: i. a graphite packer, comprising: 1. a first side; 2. a second side disposed opposite the first side; 3. a first flexible C-shaped ring disposed on the first side; 4. a second flexible C-shaped ring disposed on the second side; and 5. a graphite seal disposed intermediate the first flexible C-shaped ring and the second flexible C-shaped ring, the graphite seal comprising an inner diameter sized to slidingly fit about an outer diameter of a tubular and a graphite-based composition sufficient to flow under compression, the first flexible C-shaped ring and the second flexible C-shaped ring configured to operate as a primary extrusion mechanism for the graphite seal; and ii. a set of slip limiting rings disposed on either the first side or the second side of the graphite packer against the first C-shaped ring or the second C-shaped ring; and c. a connector activator operatively in communication with the tubular housing and operative to compress or decompress the graphite packer. 6. The tubular connection system of claim 5 , further comprising an end cap disposed at the second end of the tubular housing. 7. The tubular connection system of claim 5 , further comprising: a. a second pipeline connector identically shaped to the first pipeline connector, the second pipeline connector disposed within the tubular housing proximate the first pipeline connector; and b. an annulus ring disposed within the tubular housing about the tubular intermediate the first pipeline connector and the second pipeline connector. 8. The tubular connection system of claim 5 , wherein the tubular housing is sized to slidingly fit about the outer diameter of the tubular. 9. The tubular connection system of claim 5 , further comprising a grip disposed within the tubular housing about the tubular intermediate the first end of the housing and the graphite packer. 10. The pipeline repair connector of claim 5 , wherein the connector activator comprises a piston. 11. The pipeline repair connector of claim 10 , wherein the piston comprises a hydraulically activated piston or a mechanically activated piston. 12. The pipeline repair connector of claim 5 , wherein the connector activator is operatively in communication with a single pipeline repair connector. 13. The pipeline repair connector of claim 5 , wherein the connector activator is operatively in communication with a plurality of pipeline repair connectors. 14. The tubular connection system of claim 5 , wherein the connector activator further comprises: a. a flange configured to fit at least partially about the outer diameter of the tubular; and b. a connector disposed intermediate the flange and the tubular housing, the connector actuator operatively in communication with the flange and operative to move the flange about the outer diameter of the tubular. 15. A method of sealing a connector using a tubular connection system, the tubular connection system comprising: a slip which comprises a substantially tubular housing sized to fit about an outer diameter of a tubular, the tubular housing comprising a first end and second end; a first pipeline connector disposed within the tubular housing, the first pipeline connector comprising a graphite packer comprising: a first side, a second side disposed opposite the first side, a first flexible C-shaped ring disposed on the first side, a second flexible C-shaped ring disposed on the second side, and a graphite seal disposed intermediate the first flexible C-shaped ring and the second flexible C-shaped ring, wherein the graphite seal comprises: an inner diameter sized to slidingly fit about an outer diameter of the tubular and a graphite-based composition sufficient to flow under compression and wherein the first flexible C-shaped ring and the second flexible C-shaped ring are configured to operate as a primary extrusion mechanism for the graphite seal; a set of slip limiting rings, a first slip limiting ring of the set of slip limiting rings disposed on the first side of the graphite packer against the first C-shaped ring and a second slip limiting ring of the set of slip limiting rings disposed on the second side of the graphite packer against the second C-shaped ring; and a connector activator operatively in communication with the tubular housing and operative to compress or decompress the first graphite packer, the method comprising: a. maneuvering the tubular connection system to a position about the outer diameter of the tubular, the tubular comprising a positive and negative outer diameter tolerance range; b. using the connector activator to compress the first pipeline connector, thereby compressing the graphite packer; c. during compression, allowing the first C-shaped ring and the second C-shaped ring to operate as the primary extrusion mechanism for the graphite seal by allowing the first C-shaped ring and the second C-shaped ring to flare out before the graphite seal is compressed into a gap between an inner diameter of the graphite seal and the outer diameter of the tubular to meet the outer diameter of the tubular and to contain the graphite seal along the outer diameter of the tubular, thereby preventing the graphite seal from leaking out; d. using the flared first C-shaped ring and the second C-shaped ring to capture the graphite seal during setting of the first pipeline connector; and e. using the slip limiting rings to mitigate against extrusion by preventing the first C-shaped ring and the second C-shaped ring from yielding or flaring out excessively to where the g