Systems for ionic liquid catalyzed alkylation based on a modular reactor

What is claimed is: 1. A system for ionic liquid catalyzed hydrocarbon conversion, the system comprising: a modular reactor comprising a plurality of static mixer modules and one or more feed modules, wherein: said plurality of static mixer modules are arranged in series, each of said plurality of static mixer modules and each of said one or more feed modules are vertically aligned, at least one of said one or more feed modules comprises a sparger that is configured for distributing a hydrocarbon feed over an entire cross-sectional area of the modular reactor, said plurality of static mixer modules are arranged alternately with said one or more feed modules such that each of the one or more feed modules is disposed between two of said plurality of static mixer modules, and each of said plurality of static mixer modules is arranged coaxially with each of said one or more feed modules. 2. The system according to claim 1 , wherein a number of said plurality of static mixer modules is n, and a second number of said one or more feed modules is (n−1), wherein said plurality of static mixer modules are arranged alternately with said one or more feed modules such that each one of a feed module is disposed between two of said plurality of static mixer modules. 3. The system according to claim 2 , wherein the number of said plurality of static mixer modules, n, is in a range from two (2) to 10. 4. The system according to claim 1 , wherein: each of said plurality of static mixer modules is in contact with at least one of said one or more feed modules, and each of said one or more feed modules is in contact with two of said plurality of static mixer modules. 5. The system according to claim 1 , wherein: each of said plurality of static mixer modules and each of said one or more feed modules has a circular cross-section, and each of said plurality of static mixer modules and each of said one or more feed modules has the same internal diameter. 6. The system according to claim 1 , wherein each of said plurality of static mixer modules occupies essentially the entire cross-sectional area of the modular reactor. 7. The system according to claim 1 , further comprising a feed supply line, wherein: each of said one or more feed modules includes a feed conduit, each said feed conduit is in fluid communication with the feed supply line, and the system is configured for delivering the hydrocarbon feed to the modular reactor via each of said one or more feed modules. 8. The system according to claim 1 , wherein: each of said plurality of static mixer modules has a mixer module proximal end and a mixer module distal end, and each of said plurality of static mixer modules comprises a mixer module proximal flange at the mixer module proximal end and a mixer module distal flange at the mixer module distal end, each of said one or more feed modules has a feed module proximal end and a feed module distal end, each of said one or more feed modules comprises a feed module proximal flange at the feed module proximal end and a feed module distal flange at the feed module distal end, the mixer module distal flange is configured for coupling to the feed module proximal flange, and the feed module distal flange is configured for coupling to the mixer module proximal flange. 9. The system according to claim 1 , further comprising: a circulation loop in fluid communication with the modular reactor, the modular reactor having a base and a top, the circulation loop having a first loop end coupled to the base of the modular reactor, and the circulation loop further having a second loop end coupled to the top of the modular reactor, the system configured for withdrawing reactor effluent from the modular reactor via the first loop end into the circulation loop, and the system further configured for delivering a recirculation stream to the top of the modular reactor via the second loop end, wherein the circulation loop comprises: an ionic liquid catalyst inlet configured for adding fresh ionic liquid catalyst to withdrawn reactor effluent to provide the recirculation stream, and a heat exchanger configured for cooling the recirculation stream. 10. A system for ionic liquid catalyzed hydrocarbon conversion, the system comprising: a modular reactor comprising a plurality of mixer modules and one or more feed modules; and a feed supply line in fluid communication with each of said one or more feed modules, wherein: said plurality of mixer modules are arranged in series, each of said one or more feed modules is disposed between two of said plurality of mixer modules, at least one of said one or more feed modules comprises a sparger that is configured for distributing a hydrocarbon feed over an entire cross-sectional area of the modular reactor, each of said plurality of mixer modules and each said one or more feed modules are vertically aligned, and each of said plurality of mixer modules is coaxial with each of said one or more feed modules. 11. The system according to claim 10 , wherein: each said one or more feed modules includes a feed conduit, each said feed conduit is in fluid communication with the feed supply line, and the system is configured for delivering the hydrocarbon feed to the modular reactor via each of said one or more feed modules. 12. The system according to claim 10 , wherein: each of said plurality of mixer modules is in fluid communication with, and in contact with, at least one of said one or more feed modules, and each of said one or more feed modules is in fluid communication with, and reversibly affixed to, two of said plurality of mixer modules. 13. The system according to claim 10 , wherein: each of said plurality of mixer modules comprises a static mixer, and each of said one or more feed modules comprises the sparger. 14. The system according to claim 10 , further comprising: a circulation loop in fluid communication with the modular reactor, the modular reactor having a base and a top, the circulation loop having a first loop end coupled to the base of the modular reactor, and the circulation loop further having a second loop end coupled to the top of the modular reactor, the system configured for withdrawing reactor effluent from the modular reactor via the first loop end into the circulation loop, wherein the circulation loop comprises: an ionic liquid catalyst inlet configured for adding fresh ionic liquid catalyst to withdrawn reactor effluent to provide a recirculation stream, and a heat exchanger configured for cooling the recirculation stream. 15. The system according to claim 14 , wherein: the plurality of mixer modules comprise a first mixer module and at least a second mixer module disposed downstream from the first mixer module, the first mixer module is in fluid communication with the second loop end for receiving the recirculation stream from the circulation loop, the first mixer module is configured for mixing the recirculation stream, and the second mixer module is configured for mixing the hydrocarbon feed with the recirculation stream. 16. A system for ionic liquid catalyzed hydrocarbon conversion, the system comprising: a modular reactor having a base and a top; and a circulation loop in fluid communication with the modular reactor, the circulation loop having a first loop end coupled to the base of the modular reactor, the system configured for withdrawing reactor effluent from the base of the modular reactor into the circulation loop, the circulation loop further having a second loop end coupled to the top of the modular re