Processes for treating effluent streams in alkylation processes are described. One or more process streams rom HF alkylation processes, H.sub.2SO.sub.4 alkylation processes, or ionic liquid alkylation processes can be thermally oxidized in a thermal oxidation system. The thermal oxidation system can replace at least one of the caustic wash unit, the neutralization unit, and the acid gas treatment unit.

Processes for treating effluent streams in alkylation processes are described. One or more process streams rom HF alkylation processes, H.sub.2SO.sub.4 alkylation processes, or ionic liquid alkylation processes can be thermally oxidized in a thermal oxidation system. The thermal oxidation system can replace at least one of the caustic wash unit, the neutralization unit, and the acid gas treatment unit.

A method is provided for predicting conjunct polymer concentration in spent ionic liquid during a continuous hydrocarbon conversion process.

The present disclosure describes a process for the production of alkylaromatics that may be performed using a loop reactor comprising the steps of: introducing an alkylatable aromatic compound; introducing an olefin; introducing a catalyst; adjusting the alkylatable aromatic compound to a pre-reaction temperature that is below a desired reaction temperature; optionally, adjusting the olefin to a second pre-reaction temperature that is below the desired reaction temperature; optionally, adjusting the catalyst to a third pre-reaction temperature that is below the desired reaction temperature; initially contacting the catalyst and olefin under conditions to control the temperature of the reaction of the catalyst and olefin; mixing and/or circulating the alkylatable aromatic compound, the olefin and the catalyst; and maintaining the alkylatable aromatic compound and olefin at the desired reaction temperature.

The present disclosure describes a process for the production of alkylaromatics that may be performed using a loop reactor comprising the steps of: introducing an alkylatable aromatic compound; introducing an olefin; introducing a catalyst; adjusting the alkylatable aromatic compound to a pre-reaction temperature that is below a desired reaction temperature; optionally, adjusting the olefin to a second pre-reaction temperature that is below the desired reaction temperature; optionally, adjusting the catalyst to a third pre-reaction temperature that is below the desired reaction temperature; initially contacting the catalyst and olefin under conditions to control the temperature of the reaction of the catalyst and olefin; mixing and/or circulating the alkylatable aromatic compound, the olefin and the catalyst; and maintaining the alkylatable aromatic compound and olefin at the desired reaction temperature.

The present disclosure describes a process for the production of alkylaromatics that may be performed using a loop reactor comprising the steps of: introducing an alkylatable aromatic compound; introducing an olefin; introducing a catalyst; adjusting the alkylatable aromatic compound to a pre-reaction temperature that is below a desired reaction temperature; optionally, adjusting the olefin to a second pre-reaction temperature that is below the desired reaction temperature; optionally, adjusting the catalyst to a third pre-reaction temperature that is below the desired reaction temperature; initially contacting the catalyst and olefin under conditions to control the temperature of the reaction of the catalyst and olefin; mixing and/or circulating the alkylatable aromatic compound, the olefin and the catalyst; and maintaining the alkylatable aromatic compound and olefin at the desired reaction temperature.

A method for preparing 2-alkylanthracene includes the step of separating 2-alkylanthracene from a reaction product of anthracene alkylation reaction. The anthracene alkylation reaction is a reaction of anthracene and an alkylation reagent under an alkylation condition and in the presence of an alkylation reaction solvent and a catalyst. The reaction product of the anthracene alkylation reaction contains anthracene and the product of a series of alkylanthracenes containing 2-alkylanthracene.

A method for preparing 2-alkylanthracene includes the step of separating 2-alkylanthracene from a reaction product of anthracene alkylation reaction. The anthracene alkylation reaction is a reaction of anthracene and an alkylation reagent under an alkylation condition and in the presence of an alkylation reaction solvent and a catalyst. The reaction product of the anthracene alkylation reaction contains anthracene and the product of a series of alkylanthracenes containing 2-alkylanthracene.

Processes for alkylating benzene are provided. In embodiments, the process comprises combining benzene, an olefin, and a catalyst composition under conditions to react benzene with the olefin to produce an alkylbenzene, the catalyst composition comprising components selected from the group consisting of an ionic liquid, an acid, and an aromatic; an acid, a base capable of forming an ionic liquid with the acid, and an aromatic; an ionic liquid and an acid; and an acid and a base capable of forming an ionic liquid with the acid. The ionic liquid does not comprise a metal halide and the catalyst composition is free of a metal halide and the aromatic, if present in the catalyst composition, is not the benzene being alkylated.

Processes for alkylating benzene are provided. In embodiments, the process comprises combining benzene, an olefin, and a catalyst composition under conditions to react benzene with the olefin to produce an alkylbenzene, the catalyst composition comprising components selected from the group consisting of an ionic liquid, an acid, and an aromatic; an acid, a base capable of forming an ionic liquid with the acid, and an aromatic; an ionic liquid and an acid; and an acid and a base capable of forming an ionic liquid with the acid. The ionic liquid does not comprise a metal halide and the catalyst composition is free of a metal halide and the aromatic, if present in the catalyst composition, is not the benzene being alkylated.