Process improvements in selective ethylene oligomerizations

What is claimed is: 1. A process comprising: contacting 1) ethylene, 2) a catalyst system comprising i) a chromium component comprising an N 2 -phosphinyl amidine chromium compound complex, an N 2 -phosphinyl formamidine chromium compound complex, an N 2 -phosphinyl guanidine chromium compound complex, or any combination thereof, and ii) an aluminoxane, 3) an organic reaction medium, and optionally 4) hydrogen to form an oligomer product in a reaction zone, wherein the ethylene is contacted with at least a portion of the organic reaction medium to form an ethylene feedstock mixture prior to contacting ethylene with the catalyst system, wherein the catalyst system is introduced into the reaction zone separately from the ethylene feedstock mixture, wherein: A) a mass of polymer per mass of oligomer in the reaction zone is less than a mass of polymer per mass of oligomer in the reaction zone of an otherwise similar process which does not: it contact ethylene with the at least a portion of the organic reaction medium prior to contact of ethylene with the catalyst system, and ii) introduce or feed the ethylene feedstock mixture into the reaction zone separately from the catalyst system, or B) the process has a productivity greater than a productivity in an otherwise similar process which does not: i) contact ethylene with the at least portion of the organic reaction medium prior to contact of ethylene with the catalyst system, and ii) introduce or feed the ethylene feedstock mixture into the reaction zone separately from the catalyst system. 2. The process of claim 1 , wherein the ethylene and the organic reaction medium are dispersed in the ethylene feedstock mixture prior to contact of the ethylene feedstock mixture with the catalyst system. 3. The process of claim 2 , wherein the ethylene and the organic reaction medium are dispersed in a mixing device. 4. The process of claim 3 , wherein the mixing device comprises a static mixer, an impeller, or a propeller. 5. The process of claim 1 , wherein the oligomer product comprises hexenes and/or octenes. 6. The process of claim 1 , wherein the ethylene feedstock mixture, the catalyst system, and optionally, hydrogen are periodically or continuously introduced into the reaction zone and a reaction zone effluent comprising the oligomer product is periodically or continuously removed from the reaction zone. 7. The process of claim 1 , wherein the reaction zone comprises one or more reactors selected from an autoclave reactor, a continuous stirred tank reactor, a loop reactor, a gas phase reactor, a solution reactor, a tubular reactor, a recycle reactor, a bubble reactor, or any combination thereof. 8. The process of claim 1 , the mass of polymer per mass of oligomer in the reaction zone is decreased by at least 10% relative to the otherwise similar process which does not: i) contact ethylene with the at least a portion of the organic reaction medium prior to contact of ethylene with the catalyst system, and/or ii) introduce or feed the ethylene feedstock mixture into the reaction zone separately from the catalyst system. 9. The process of claim 1 , wherein the organic reaction medium is selected from aliphatic hydrocarbons. 10. The process of claim 1 , further comprising: contacting the organic reaction medium with a scrub agent prior to contacting the at least a portion of the organic reaction medium with ethylene. 11. The process of claim 10 , further comprising: contacting hydrogen with the ethylene prior to contacting the ethylene with the at least a portion of the organic reaction medium. 12. The process of claim 1 , further comprising: contacting hydrogen with the ethylene prior to contacting the ethylene with the at least a portion of the organic reaction medium. 13. A process comprising: introducing a catalyst system to a reaction zone, the catalyst system comprising i) a chromium component comprising an N 2 -phosphinyl amidine chromium compound complex, an N 2 -phosphinyl formamidine chromium compound complex, an N 2 -phosphinyl guanidine chromium compound complex, or any combination thereof, and ii) an aluminoxane; introducing an ethylene feedstock mixture to the reaction zone separately from the catalyst system, the ethylene feedstock mixture comprising ethylene and at least a portion of an organic reaction medium, wherein the ethylene feedstock mixture is substantially free of the catalyst system; optionally introducing hydrogen to the reaction zone; and contacting the catalyst system and the ethylene feedstock mixture in the reaction zone to form an oligomer product, wherein: A) a mass of polymer per mass of oligomer in the reaction zone is less than a mass of polymer per mass of oligomer in the reaction zone of an otherwise similar process which does not: i) contact ethylene with the at least a portion of the organic reaction medium prior to contact of ethylene with the catalyst system, and ii) introduce or feed the ethylene feedstock mixture into the reaction zone separately from the catalyst system, or B) the process has a productivity greater than a productivity in an otherwise similar process which does not: i) contact ethylene with the at lea a portion of the organic reaction medium prior to contact of ethylene with the catalyst system, and ii) introduce or feed the ethylene feedstock mixture into the reaction zone separately from the catalyst system. 14. The process claim 13 , wherein the oligomer product comprises hexenes and/or octenes. 15. The process of claim 13 , wherein the ethylene feedstock mixture, the catalyst system, and optionally, hydrogen are periodically or continuously introduced into the reaction zone and a reaction zone effluent comprising the oligomer product is periodically or continuously removed from the reaction zone. 16. The process of claim 13 , wherein the reaction zone comprises one or more reactors selected from an autoclave reactor, a continuous stirred tank reactor, a loop reactor, a gas phase reactor, a solution reactor, a tubular reactor, a recycle reactor, a bubble reactor, or any combination thereof. 17. The process of claim 13 , the mass of polymer per mass of oligomer in the reaction zone is decreased by at least 10% relative to the otherwise similar process which does not: i) contact ethylene with the at least a portion of the organic reaction medium prior to contact of ethylene with the catalyst system, and/or ii) introduce or feed the ethylene feedstock mixture into the reaction zone separately from the catalyst system.