Alkylation of benzene with a hydrocarbon gas

What is claimed is: 1. A method of forming ethylbenzene comprising: introducing a benzene input stream that contains at least 95 wt. % benzene to an alkylation reaction zone having a plurality of catalyst beds containing an alkylation catalyst, wherein the alkylation catalyst comprises a cerium promoted beta zeolite; introducing a hydrocarbon gas to each catalyst bed in the alkylation reaction zone, thereby contacting the benzene with the hydrocarbon gas in the presence of the alkylation catalyst under alkylation conditions to produce a product stream containing ethylbenzene and to deactivate the alkylation catalyst, wherein the hydrocarbon gas is in a benzene:hydrocarbon gas weight ratio of 28:1 or less per catalyst bed; recovering the product stream from the alkylation reaction zone, wherein the product comprises 0.8 wt. % or less of butylbenzene; and regenerating the deactivated alkylation catalyst to produce a regenerated alkylation catalyst by: taking a reactor of the alkylation reaction zone offline; purging the alkylation catalyst with an inert gas at a purging temperature; heating the alkylation catalyst to a first temperature for a time period sufficient to provide an output stream having an oxygen content of about 0.5%; heating the alkylation catalyst to a second temperature higher than the first temperature for a time period sufficient to provide an output stream having an oxygen content of about 2.0%, wherein the first temperature and the second temperature are from about 50° C. to about 200° C. above the purging temperature; and reusing the regenerated alkylation catalyst. 2. The method of claim 1 , wherein the hydrocarbon gas is present in a benzene:hydrocarbon gas weight ratio ranging from 2:1 to 28:1 per catalyst bed. 3. A method of forming ethylbenzene comprising: contacting benzene with a hydrocarbon gas in a plurality of catalyst beds; wherein the hydrocarbon gas is present in a benzene:hydrocarbon gas weight ratio of 28:1 or less per catalyst bed; wherein the contact occurs in the presence of an alkylation catalyst comprising a cerium promoted beta zeolite disposed within the plurality of catalyst beds of an alkylation reaction zone under conditions sufficient to deactivate the alkylation catalyst and to produce a product stream comprising ethylbenzene and 0.8 wt. % or less of butylbenzene; recovering the product stream from the alkylation reaction zone; and regenerating the deactivated alkylation catalyst to produce a regenerated alkylation catalyst by: taking a reactor of the alkylation reaction zone offline; purging the alkylation catalyst with an inert gas at a purging temperature; heating the alkylation catalyst to a first temperature for a time period sufficient to provide an output stream having an oxygen content of about 0.5%; heating the alkylation catalyst to a second temperature higher than the first temperature for a time period sufficient to provide an output stream having an oxygen content of about 2.0%, wherein the first temperature and the second temperature are from about 50° C. to about 200° C. above the purging temperature; and reusing the regenerated alkylation catalyst.