Tubing hanger space-out mechanism

What is claimed is: 1. A system, comprising: a tubing hanger body; and a space-out mechanism, the space-out mechanism comprising: a ramp ring having a tapered surface; and a lower member rotationally locked to the tubing hanger body, the lower member having a tapered surface, wherein the ramp ring is configured to rotate relative to the tubing hanger body and the lower member, and wherein the tapered surface of the ramp ring and the tapered surface of the lower member are configured to bear against each other to rigidize the system. 2. The system of claim 1 , wherein the tapered surfaces of the ramp ring and the lower member are complimentary. 3. The system of claim 2 , wherein the taper of the tapered surface of the ramp ring and the taper of the tapered surface of the lower member have a slope between 0.5° and 7°. 4. The system of claim 1 , wherein: the ramp ring further comprises: a ramp ring rotational stop surface; the lower member further comprises: a lower member rotational stop surface; and the ramp ring rotational stop surface is configured to abut the lower member rotation stop surface. 5. The system of claim 1 , further comprising: an anti-rotation pin, wherein: the tubing hanger body further comprises: a radially exterior profile having a pin slot; the lower member further comprises: a threaded pin borehole; the anti-rotation pin is coupled to the threaded pin borehole and disposed within the pin slot; and the anti-rotation pin is configured to rotationally lock the lower member to the tubing hanger body. 6. The system of claim 1 , wherein: the tubing hanger body comprises: a downward facing contact surface; and a radially exterior profile having a first sealing profile and a second sealing profile; the lower member further comprises: a first interior seal surface; and a second interior seal surface; the ramp ring further comprises: an upper contact surface; the upper contact surface of the ramp ring is configured to abut the downward facing contact surface of the tubing hanger body; a first seal is formed between the first interior seal surface of the lower member and the first sealing profile of the tubing hanger body; and a second seal is formed between the second interior seal surface of the lower member and the second sealing profile of the tubing hanger body. 7. The system of claim 6 , wherein the lower member further comprises: an interior shoulder disposed between the first interior seal surface and the second interior seal surface, wherein the interior shoulder, the first seal, and the second seal are configured to create a piston force axially downward on the lower member. 8. The system of claim 1 , further comprising: a casing hanger; and a locking mechanism, wherein the locking mechanism is configured to lock the casing hanger, the tubing hanger body, the space-out mechanism, and the locking mechanism in place within a wellhead housing. 9. The system of claim 8 , wherein: the casing hanger comprises: an upper load shoulder; and a radially interior profile; the tubing hanger body comprises: an upward facing contact surface; a downward facing contact surface; and a radially exterior profile having a first sealing profile and a second sealing profile; the lower member further comprises: a lower load shoulder; a first interior seal surface; and a second interior seal surface; the ramp ring further comprises: an upper contact surface; the lower load shoulder of the lower member is configured to abut the upper load shoulder of the casing hanger; the upper contact surface of the ramp ring is configured to abut the downward facing contact surface of the tubing hanger body; the locking mechanism abuts the upward facing contact surface of the tubing hanger body; a first seal is formed between the first interior seal surface of the lower member and the first sealing profile of the tubing hanger body; a second seal is formed between the second interior seal surface of the lower member and the second sealing profile of the tubing hanger body; and a third seal is formed between the first sealing profile of the tubing hanger body and the interior profile of the casing hanger. 10. The system of claim 9 , wherein the lower member further comprises: an interior shoulder disposed between the first interior seal surface and the second interior seal surface, wherein the interior shoulder, the first seal, and the second seal are configured to create a piston force axially downward on the lower member within the wellhead housing. 11. The system of claim 1 , further comprising: a safety mechanism disposed within and between the ramp ring and the tubing hanger body, wherein when the safety mechanism is in a locked position, the ramp ring cannot rotate relative to the tubing hanger body, and when the safety mechanism is in an unlocked position, the ramp ring can rotate relative to the tubing hanger body. 12. The system of claim 1 , further comprising: a retainer ring disposed within a groove in a radially exterior profile of the tubing hanger body, wherein the retainer ring is configured to collapse into the groove in the radially exterior profile of the tubing hanger body. 13. A method, comprising: assembling a tubing hanger system, the tubing hanger system including a tubing hanger body and a space-out mechanism; running the tubing hanger system into a wellhead housing until the tubing hanger system lands on a casing hanger; locking the tubing hanger system to the wellhead housing; lifting the tubing hanger system; and actuating the space-out mechanism to rigidize the tubing hanger system within the wellhead housing, wherein the space-out mechanism comprises: a ramp ring having a tapered surface; and a lower member having a tapered surface, wherein the ramp ring tapered surface and the lower member tapered surface are configured to bear against each other; and wherein assembling the tubing hanger system comprises: rotationally locking the lower member to the tubing hanger body. 14. The method of claim 13 , wherein: the tubing hanger body comprises: a radially exterior profile having a first sealing profile and a second sealing profile; and assembling the tubing hanger system further comprises: disposing the ramp ring about the second sealing profile of the tubing hanger body; and disposing the lower member about the first sealing profile and the second sealing profile of the tubing hanger body. 15. The method of claim 14 , wherein: the lower member comprises: a threaded pin borehole; the radially exterior profile of the tubing hanger body further comprises: a pin slot; rotationally locking the lower member to the tubing hanger body comprises: aligning the threaded pin borehole of the lower member with the pin slot of the tubing hanger body; and threading an anti-rotation pin into the threaded pin borehole of the lower member, wherein the anti-rotation pin is configured to extend into the pin slot of the tubing hanger body when threaded into the threaded pin borehole. 16. The method of claim 14 , wherein the tapered surfaces of the ramp ring and the lower member are complementary. 17. The method of claim 14 , further comprising: installing a safety mechanism into the tubing hanger system, wherein when the safety mechanism is in a locked position, the ramp ring cannot rotate relative to the tubing hanger body, and when the safety mechanism is in an unlocked position, the ramp ring can rotate relative to the tubing hanger body