Pipe connection systems in oil and gas applications

What is claimed is: 1. A pipe connection system for use in a well completion system, the pipe connection system comprising: an inner connector comprising a tapered wall and a plurality of pin threads arranged along the tapered wall, wherein a pitch between projections formed by the plurality of pin threads changes along an axial length of the inner connector, and wherein the pitch is most coarse at a tapered end of the inner connector; a resilient seal that surrounds a terminal lip of the inner connector at the tapered end; and an outer connector formed complementary to the inner connector along at least a portion of the outer connector, wherein the inner and outer connectors comprise a central axis and a double-thread construction that extends along the central axis, wherein the terminal lip forms a reverse angle along which the terminal lip of the inner connector contacts a shoulder of the outer connector, wherein the shoulder is formed complementarily to the terminal lip, and wherein the reverse angle is an acute angle that is formed between an end surface of the terminal lip and a transverse axis oriented perpendicular to the central axis. 2. The pipe connection system of claim 1 , wherein a last thread portion of the plurality of pin threads has a load flank angle that is between about +1.0 degree and about +1.1 degrees. 3. The pipe connection system of claim 2 , wherein the load flank angle is about +1.0 degree. 4. The pipe connection system of claim 1 , wherein a last thread portion of the plurality of pin threads is wider than remaining portions of the plurality of pin threads. 5. The pipe connection system of claim 1 , wherein the last thread portion of the plurality of pin threads has an increased height relative to an adjacent thread portion of the plurality of pin threads. 6. The pipe connection system of claim 1 , wherein each pin thread of the plurality of pin threads extends acutely with respect to a thread axis of the inner connector, and wherein the thread axis coincides with the central axis. 7. The pipe connection system of claim 1 , wherein the plurality of pin threads comprises two helical pin threads. 8. The pipe connection system of claim 7 , wherein the outer connector comprises two helical box threads. 9. The pipe connection system of claim 1 , wherein one or more of the projections have a tapered profile. 10. The pipe connection system of claim 1 , wherein the projections have rounded edges. 11. The pipe connection system of claim 1 , wherein the plurality of pin threads further form recesses. 12. The pipe connection system of claim 11 , wherein the recesses have a tapered profile. 13. The pipe connection system of claim 1 , wherein the inner and outer connectors together form a metal-to-metal seal. 14. The pipe connection system of claim 1 , wherein the double-thread construction comprises a first helical thread having a first pitch and a second helical thread having a second pitch that is different from the first pitch. 15. The pipe connection system of claim 14 , wherein one of the first and second helical threads is positioned 180 degrees ahead of the other of the first and second helical threads. 16. A method comprising: mating a first pipe section with a second pipe section at a pipe connection system, the pipe connection system comprising: an inner connector of the first pipe section, the inner connector comprising a tapered wall and a plurality of pin threads arranged along the tapered wall, wherein a pitch between projections formed by the plurality of pin threads changes along an axial length of the inner connector, and wherein the pitch is most coarse at a tapered end of the inner connector; a resilient seal that surrounds a terminal lip of the inner connector at the tapered end; and an outer connector of the second pipe section, the outer connector formed complementary to the inner connector along at least a portion of the outer connector, wherein the inner and outer connectors comprise a central axis and a double-thread construction that extends along the central axis, wherein the terminal lip forms a reverse angle along which the terminal lip of the inner connector contacts a shoulder of the outer connector, wherein the shoulder is formed complementarily to the terminal lip, and wherein the reverse angle is an acute angle that is formed between an end surface of the terminal lip and a transverse axis oriented perpendicular to the central axis. 17. The pipe connection system of claim 1 , wherein the terminal lip positively contacts the shoulder along an entire length of the end surface of the terminal lip. 18. The pipe connection system of claim 17 , wherein the reverse angle is configured to promote a compression efficiency of the pipe connection system along an interface between the inner and outer connectors such that the reverse angle is about 15 degrees to about 15.5 degrees. 19. The pipe connection system of claim 18 , wherein a contact between the terminal lip of the inner connector and the complementary shoulder of the outer connector forms a metal-to-metal seal. 20. The method of claim 16 , wherein the plurality of pin threads comprises two helical pin threads, and the outer connector comprises two helical box threads.