Systems and methods for producing superabsorbent polymers

What is claimed is: 1. A production system for superabsorbent polymers from ethylene oxide and carbon monoxide, comprising: a β-propiolactone production system, comprising: a first reactor comprising: at least one inlet to receive carbon monoxide, ethylene oxide, carbonylation catalyst, and solvent; and at least one outlet for a first β-propiolactone stream comprising β-propiolactone, solvent, and carbonylation catalyst; a carbonylation catalyst recycling system configured to separate at least a portion of the carbonylation catalyst from the first β-propiolactone stream to produce a second β-propiolactone stream; and a superabsorbent polymer production system, comprising: a second reactor comprising: at least one inlet to receive the second β-propiolactone stream, a crosslinking agent, and a sodium-containing component; and at least one outlet for a superabsorbent polymer stream comprising superabsorbent polymer. 2. The production system of claim 1 , wherein the second reactor comprises at least one selected from the group of a distillation reactor, a loop reactor, or a continuous stirred-tank reactor. 3. The production system of claim 1 , wherein the at least one inlet of the second reactor is further configured to receive a chelating agent. 4. The production system of any of claim 1 , wherein the at least one inlet of the second reactor is further configured to receive a gelling agent. 5. The production system of any of claim 1 , wherein the sodium-containing component comprises sodium hydroxide, sodium acrylate, or sodium methacrylate, or any combinations thereof. 6. The production system of any of claim 1 , further comprising a β-propiolactone purification system between the carbonylation catalyst recycling system and the superabsorbent polymer production system configured to separate at least a portion of the solvent from the second β-propiolactone stream to produce a third β-propiolactone stream which is received by the at least one inlet of the second reactor instead of the second β-propiolactone stream. 7. A production system for superabsorbent polymers, comprising: a distillation reactor comprising: at least one inlet to receive β-propiolactone, a crosslinking agent, and a sodium-containing component; and at least one outlet for a superabsorbent polymer stream comprising superabsorbent polymer. 8. The production system of claim 7 , wherein the at least one inlet of the distillation reactor is further configured to receive a chelating agent. 9. The production system of claim 7 , wherein the at least one inlet of the distillation reactor is further configured to receive a gelling agent. 10. The production system of any of claim 7 , wherein the sodium-containing component comprises sodium hydroxide, sodium acrylate, or sodium methacrylate, or any combinations thereof. 11. The production system of any of claim 7 , wherein the β-propiolactone comprises solvent. 12. The production system of any of claim 7 , wherein the β-propiolactone and the sodium-containing component are combined prior to entering the distillation reactor. 13. The production system of any of claim 7 , wherein the crosslinking agent and the sodium-containing component are combined prior to entering the distillation reactor. 14. The production system of any of claim 7 , wherein the distillation reactor further comprises a catalytic material. 15. The production system of any of claim 7 , wherein the distillation reactor comprises a separate inlet to receive the β-propiolactone, the crosslinking agent, and the sodium-containing component. 16. A production system for superabsorbent polymers, comprising: a distillation reactor, comprising: at least one inlet to receive acrylic acid, a crosslinking agent, and a sodium-containing component; and at least one outlet for a superabsorbent polymer stream comprising superabsorbent polymer, wherein the sodium-containing component comprises sodium hydroxide, sodium acrylate, or sodium methacrylate, or any combinations thereof. 17. The production system of claim 16 , wherein the acrylic acid and the sodium-containing component are combined prior to entering the distillation reactor. 18. The production system of claim 16 , wherein the crosslinking agent and the sodium-containing component are combined prior to entering the distillation reactor. 19. The production system of claim 16 , wherein the at least one inlet of the distillation reactor is further configured to receive a catalytic material. 20. The production system of claim 16 , wherein the distillation reactor comprises a separate inlet to receive the acrylic acid, the crosslinking agent, and the sodium-containing component. 21. A production system for superabsorbent polymers, comprising: a loop reactor comprising: at least one inlet to receive β-propiolactone, a crosslinking agent, and a sodium-containing component; and at least one outlet for a superabsorbent polymer stream comprising superabsorbent polymer. 22. The production system of claim 21 , wherein the at least one inlet of the loop reactor is further configured to receive a chelating agent. 23. The production system of claim 21 , wherein the at least one inlet of the loop reactor is further configured to receive a gelling agent. 24. The production system of claim 21 , wherein the sodium-containing component comprises sodium hydroxide, sodium acrylate, or sodium methacrylate, or any combinations thereof. 25. The production system of claim 21 , wherein the β-propiolactone comprises solvent. 26. The production system of claim 21 , wherein the β-propiolactone and the sodium-containing component are combined prior to entering the loop reactor. 27. The production system of claim 21 , wherein the crosslinking agent and the sodium-containing component are combined prior to entering the loop reactor. 28. The production system of claim 21 , wherein the at least one inlet of the loop reactor is further configured to receive a catalytic material. 29. The production system of claim 21 , wherein the at least one inlet of the loop reactor is further configured to receive a diluent. 30. The production system of claim 21 , wherein the loop reactor comprises a separate inlet to receive the β-propiolactone, the crosslinking agent, and the sodium□ containing component. 31. A production system for superabsorbent polymers, comprising: a loop reactor comprising: at least one inlet to receive acrylic acid, a crosslinking agent, and a sodium-containing component; and at least one outlet for a superabsorbent polymer stream comprising superabsorbent polymer, wherein the sodium-containing component comprises sodium hydroxide, sodium acrylate, or sodium methacrylate, or any combinations thereof. 32. The production system of claim 31 , wherein the acrylic acid and the sodium-containing component are combined prior to entering the loop reactor. 33. The production system of claim 31 , wherein the crosslinking agent and the sodium-containing component are combined prior to entering the loop reactor. 34. The production system of claim 31 , wherein the at least one inlet of the loop reactor is further configured to receive a catalytic material. 35. The production system of claim 31 , wher