Supported metal oxides for olefin metathesis and related methods

What is claimed is: 1. A method comprising: (a) exposing a supported heterogeneous metathesis catalyst comprising a support material and transition metal active groups dispersed on the support material to a first olefin compound for an activation time at an activation temperature, thereby providing an activated supported heterogeneous metathesis catalyst; (b) exposing the activated supported heterogeneous metathesis catalyst to a reactant capable of undergoing a metathesis reaction for a reaction time at a reaction temperature to produce metathesis products, thereby providing a deactivated supported heterogeneous metathesis catalyst; and (c) exposing the deactivated supported heterogeneous metathesis catalyst to a regenerating compound for a regeneration time at a regeneration temperature, thereby providing a regenerated supported heterogeneous metathesis catalyst, wherein the activity of the regenerated supported heterogeneous metathesis catalyst is substantially the same or greater than the activity of the activated supported heterogeneous metathesis catalyst prior to deactivation, wherein the activation temperature is greater than the reaction temperature, wherein the regenerating compound is provided as an inert gas atmosphere substantially free of oxygen or air, and further wherein regeneration to achieve substantially the same or greater activity as compared to the activated supported heterogeneous metathesis catalyst prior to deactivation is accomplished without exposing the deactivated supported heterogeneous metathesis catalyst to another olefin compound and without exposing the deactivated supported heterogeneous metathesis catalyst to oxygen. 2. The method of claim 1 , wherein the regeneration temperature is at least about 200° C. 3. The method of claim 1 , wherein the method comprises repeating steps (b) and (c) at least one additional time. 4. The method of claim 1 , wherein the method comprises repeating steps (b) and (c) at least twice. 5. The method of claim 1 , wherein the transition metal active groups are transition metal oxide active groups. 6. The method of claim 5 , wherein the transition metal oxide active groups are tungsten oxide active groups, molybdenum oxide active groups, rhenium oxide active groups, ruthenium oxide active groups, tantalum oxide active groups or niobium oxide active groups. 7. The method of claim 5 , wherein the transition metal oxide active groups are WO 3 active groups, MoO 3 active groups, Re 2 O 7 active groups, RuO 2 active groups, Ta 2 O 5 active groups, or Nb 2 O 5 active groups. 8. The method of claim 1 , wherein the activation temperature is at least about 200° C. 9. The method of claim 1 , wherein the exposure in step (a) is accomplished by exposing the supported heterogeneous metathesis catalyst at a first activation temperature which is ramped to a second activation temperature at a temperature ramping rate during the activation time. 10. The method of claim 1 , wherein the exposure in step (a) is accomplished by flowing a gas mixture comprising the first olefin compound and a carrier over the supported heterogeneous metathesis catalyst. 11. The method of claim 1 , wherein between steps (a) and (b), the method further comprises exposing the activated supported heterogeneous metathesis catalyst to an inert gas for a purging time at a purging temperature, wherein the purging temperature is substantially the same as the activation temperature. 12. The method of claim 1 , wherein between steps (a) and (b), the method further comprises exposing the activated supported heterogeneous metathesis catalyst to an inert gas for a purging time at a purging temperature, wherein the purging temperature is substantially the same as the activation temperature or greater, and further wherein the regeneration temperature is substantially the same as the activation temperature or greater. 13. The method of claim 12 , wherein the purging temperature and the regeneration temperature are each substantially the same as the activation temperature. 14. The method of claim 13 , wherein the activation temperature is at least about 200° C. 15. A method of regenerating a deactivated supported heterogeneous metathesis catalyst, the method comprising exposing a deactivated supported heterogeneous metathesis catalyst comprising a support material and transition metal active groups dispersed on the support material to an inert gas atmosphere substantially free of oxygen or air for a regeneration time at a regeneration temperature, thereby providing a regenerated supported heterogeneous metathesis catalyst, wherein the activity of the regenerated supported heterogeneous metathesis catalyst is substantially the same or greater than the activity of the supported heterogeneous metathesis catalyst prior to deactivation, and further wherein regeneration to achieve substantially the same or greater activity as compared to the supported heterogeneous metathesis catalyst prior to deactivation is accomplished without exposing the deactivated supported heterogeneous metathesis catalyst to an olefin compound and without exposing the deactivated supported heterogeneous metathesis catalyst to oxygen. 16. The method of claim 15 , wherein the transition metal active groups are transition metal oxide active groups. 17. The method of claim 15 , wherein the regeneration time is about 10 minutes or less. 18. A method comprising: (a) exposing a supported heterogeneous metathesis catalyst comprising a support material and transition metal active groups dispersed on the support material to a first olefin compound for an activation time at an activation temperature of at least about 400° C., thereby providing an activated supported heterogeneous metathesis catalyst; (b) exposing the activated supported heterogeneous metathesis catalyst to a reactant capable of undergoing a metathesis reaction for a reaction time at a reaction temperature of no more than about 250° C. to produce metathesis products, thereby providing a deactivated supported heterogeneous metathesis catalyst; and (c) exposing the deactivated supported heterogeneous metathesis catalyst to a regenerating compound for a regeneration time at a regeneration temperature, thereby providing a regenerated supported heterogeneous metathesis catalyst, wherein the activity of the regenerated supported heterogeneous metathesis catalyst is substantially the same or greater than the activity of the activated supported heterogeneous metathesis catalyst prior to deactivation. 19. The method of claim 18 , wherein the first olefin compound is propylene. 20. The method of claim 18 , wherein the transition metal active groups are transition metal oxide active groups and further wherein the activity of the regenerated supported heterogeneous metathesis catalyst is characterized by a turnover frequency of at least about 10 3 /h.