Systems and methods for polyethylene recovery with low volatile content

We claim: 1. A method for removing volatile components from an ethylene polymer effluent stream from an ethylene polymerization reactor, the method comprising: (i) reducing a pressure of the effluent stream to remove a first portion of the volatile components from polymer solids, wherein: the pressure is reduced to a range from about 2 to about 200 psig, and the polymer solids have a solids temperature from about 10° F. to about 50° F. less than a reaction temperature in the ethylene polymerization reactor; (ii) fluidizing the polymer solids while heating to increase the solids temperature from at least about 10° F. above the solids temperature in step (i) and up to about 20° F. greater than the reaction temperature, and wherein a second portion of the volatile components are removed; and (iii) contacting the polymer solids with a stripping gas to remove a third portion of the volatile components to form a polymer solids stream containing less than 40 ppm by weight (ppmw) of volatile components. 2. The method of claim 1 , wherein: the polymer solids are fluidized in step (ii) with a fluidizing gas having a temperature from about 10° F. less than to about 20° F. greater than the reaction temperature; the fluidizing gas further comprises a catalyst deactivating agent; and the stripping gas comprises nitrogen, ethylene, fuel gas, propane, ethane, or any combination thereof. 3. The method of claim 1 , wherein the ethylene polymerization reactor is a gas phase reactor, and wherein: a volatile content of the ethylene polymer effluent stream is from about 5 to about 25 wt. % volatile components; the pressure in step (i) is reduced to a range from about 2 to about 10 psig; the polymer solids contain from about 0.5 to about 5 wt. % volatile components in step (i) after the first portion of volatile components is removed; the solids temperature in step (i) is from about 10° F. to about 20° F. less than the reaction temperature; and the solids temperature in step (ii) is from at least about 15° F. above the solids temperature in step (i) and up to about 15° F. greater than the reaction temperature. 4. The method of claim 1 , wherein the ethylene polymerization reactor is a loop slurry reactor, and wherein: a volatile content of the ethylene polymer effluent stream is from about 35 to about 75 wt. % volatile components; the polymer solids contain from about 0.5 to about 10 wt. % volatile components in step (i) after the first portion of volatile components is removed; the solids temperature in step (i) is from about 30° F. to about 50° F. less than the reaction temperature; and the solids temperature in step (ii) is from at least about 15° F. above the solids temperature in step (i) and up to about 15° F. greater than the reaction temperature. 5. An ethylene polymerization process comprising: prior to conducting the method for removing volatile components from the ethylene polymer effluent stream of claim 1 , contacting a catalyst composition with ethylene and an optional olefin comonomer in the ethylene polymerization reactor under polymerization reaction conditions in a polymerization reactor system to produce the ethylene polymer effluent stream. 6. A method for removing volatile components from an ethylene polymer effluent stream from an ethylene polymerization reactor, the method comprising: (I) contacting the effluent stream with a fluidizing gas at a reduced pressure while heating to remove an initial portion of the volatile components from polymer solids, the polymer solids having a solids temperature from about 30° F. less to about 20° F. greater than a reaction temperature in the ethylene polymerization reactor; and (II) contacting the polymer solids with a stripping gas to remove a final portion of the volatile components to form a polymer solids stream containing less than 40 ppm by weight of volatile components. 7. The method of claim 6 , wherein: the ethylene polymerization reactor is a gas phase reactor or a loop slurry reactor; and the fluidizing gas and/or the stripping gas further comprise(s) a catalyst deactivating agent. 8. The method of claim 6 , wherein the ethylene polymerization reactor is a gas phase reactor, and wherein: a volatile content of the ethylene polymer effluent stream is from about 5 to about 25 wt. % volatile components; the pressure in step (I) is reduced to a range from about 1 to about 20 psig; the polymer solids contain from about 0.5 to about 5 wt. % volatile components in step (I) after the initial portion of volatile components is removed; and the solids temperature in step (I) is from about 15° F. less to about 15° F. greater than the reaction temperature. 9. The method of claim 6 , wherein the ethylene polymerization reactor is a loop slurry reactor, and wherein: a volatile content of the ethylene polymer effluent stream is from about 35 to about 70 wt. % volatile components; the polymer solids contain from about 0.5 to about 10 wt. % volatile components in step (I) after the initial portion of volatile components is removed; and the solids temperature in step (I) is from about 15° F. less than to about 15° F. greater than the reaction temperature. 10. An ethylene polymerization process comprising: prior to conducting the method for removing volatile components from the ethylene polymer effluent stream of claim 6 , contacting a catalyst composition with ethylene and an optional olefin comonomer in the ethylene polymerization reactor under polymerization reaction conditions in a polymerization reactor system to produce the ethylene polymer effluent stream. 11. A polyethylene recovery and volatile removal system comprising: (a) a flash chamber for reducing a pressure of an ethylene polymer effluent stream from an ethylene polymerization reactor and for removing a first portion of volatile components from polymer solids, wherein the flash chamber is configured to form the polymer solids at a solids temperature from about 10° F. to about 50° F. less than a reaction temperature in the ethylene polymerization reactor; (b) a fluidized bed heater for fluidizing the polymer solids and for heating the polymer solids to a solids temperature from at least about 10° F. above the solids temperature in (a) and up to about 20° F. greater than the reaction temperature, wherein the fluidized bed heater is configured to remove a second portion of the volatile components; (c) a purge column for contacting the polymer solids with a stripping gas, wherein the purge column is configured to remove a third portion of the volatile components to form a polymer solids stream containing less than 100 ppmw (ppm by weight) of volatile components; and (d) an extruder for converting the polymer solids stream into solid polymer pellets. 12. The system of claim 11 , wherein the ethylene polymerization reactor is a gas phase reactor. 13. The system of claim 11 , wherein the ethylene polymerization reactor is a loop slurry reactor. 14. A polymerization reactor system comprising: the polyethylene recovery and volatile removal system of claim 11 ; and the ethylene polymerization reactor, wherein the ethylene polymerization reactor is configured to contact a catalyst composition with ethylene and an optional olefin comonomer to produce the ethylene polymer effluent stream. 15. The polymerization reactor system of claim 14 , wherein the polymerization reactor system contains at least one reactor in addition to the ethylene polymerization reactor. 16. A polyethylene recovery and volatile removal system comprising: (A) a heated fluidized bed flash cham