Oligomerization catalyst system activation and related ethylene oligomerization processes and reaction systems

We claim: 1. A process comprising: a) forming a first mixture in an activation vessel, the first mixture comprising: 1) ethylene, 2) a catalyst system comprising i) a heteroatomic ligand chromium compound complex and an organoaluminum compound, or ii) a heteroatomic ligand, a chromium compound, and an organoaluminum compound, 3) optionally, a first organic reaction medium, and 4) optionally, hydrogen; b) maintaining the first mixture in the activation vessel for an average residence time; c) introducing into a reaction zone: i) ethylene, ii) the first mixture from step b), iii) a second organic reaction medium, and iv) optionally, hydrogen; and d) forming an oligomer product in the reaction zone; wherein the average residence time of the first mixture in the activation vessel is in a range from 10 sec up to a period of time sufficient for a conversion of ethylene in the activation vessel to equal 5 mol % of a total ethylene utilized in step a) and step c). 2. The process of claim 1 , wherein: the first organic reaction medium and the second organic reaction medium comprise cyclohexane; in step c), the first mixture from step b) and the ethylene are introduced separately into the reaction zone; and the oligomer product comprises C 6 and/or C 8 olefins. 3. The process of claim 1 , wherein hydrogen is present in step c) and not present in step a). 4. The process of claim 1 , wherein the average residence time of the first mixture in the activation vessel is in a range from 1 min up to a period of time sufficient for a conversion of ethylene in the activation vessel to equal 3 mol % of a total ethylene utilized in step a) and step c). 5. The process of claim 4 , wherein i) the heteroatomic ligand chromium compound complex and the organoaluminum compound are, or ii) at least one of the heteroatomic ligand, the chromium compound, and the organoaluminum compound is, separately introduced into the activation vessel. 6. The process of claim 4 , wherein a catalyst system mixture comprising: (a) i) the heteroatomic ligand chromium compound complex and the organoaluminum compound, or ii) the heteroatomic ligand, the chromium compound, and the organoaluminum compound, and (b) a catalyst system organic medium comprising an aromatic hydrocarbon, is formed and then introduced into the activation vessel. 7. The process of claim 4 , wherein, in step c), a second feed stream comprising ethylene, at least a portion of the second organic reaction medium, and hydrogen is introduced into the reaction zone separate from the first mixture from step b). 8. The process of claim 4 , wherein the first organic reaction medium and the second organic reaction medium independently comprise a cyclic aliphatic hydrocarbon, an acyclic aliphatic hydrocarbon, an aromatic hydrocarbon, or any combination thereof. 9. The process of claim 4 , wherein: the first organic reaction medium and the second organic reaction medium comprise cyclohexane; in step c), the first mixture from step b) and the ethylene are introduced separately into the reaction zone; and the oligomer product comprises C 6 and/or C 8 olefins. 10. A process comprising: a) forming a first mixture in an activation vessel, the first mixture comprising: 1) a first catalyst system comprising i) a first heteroatomic ligand chromium compound complex and a first organoaluminum compound, or ii) a first heteroatomic ligand, a first chromium compound, and a first organoaluminum compound, 2) a first feed comprising ethylene, a second catalyst system comprising i) a second heteroatomic ligand chromium compound complex and a second organoaluminum compound, or ii) a second heteroatomic ligand, a second chromium compound, and a second organoaluminum compound, a second organic reaction medium, a second oligomer product, and optionally hydrogen, 3) optionally, a first organic reaction medium, and 4) optionally, hydrogen; b) maintaining the first mixture in the activation vessel for an average residence time; c) introducing into a reaction zone: i) ethylene, ii) the first mixture from step b), iii) the second organic reaction medium, and iv) optionally, hydrogen; and d) forming an oligomer product in the reaction zone; wherein a portion of a reaction zone effluent is fed to the activation vessel as the first feed, and wherein the average residence time of the first mixture in the activation vessel is in a range from 10 sec to 45 min. 11. The process of claim 10 , wherein, in step c), a second feed stream comprising ethylene, at least a portion of the second organic reaction medium, and hydrogen is introduced into the reaction zone separate from the first mixture from step b). 12. The process of claim 10 , wherein the average residence time is in a range from 30 sec to 45 min. 13. The process of claim 12 , wherein, in step a), a first feed stream comprising ethylene and at least a portion of the first organic reaction medium is introduced into the activation vessel separate from a catalyst system mixture comprising the first catalyst system. 14. The process of claim 10 , wherein the average residence time is in a range from 1 min to 30 min. 15. The process of claim 14 , wherein, in step c), the ethylene and the first mixture from step b) are introduced separately into the reaction zone. 16. The process of claim 14 , wherein a catalyst system mixture comprising i) the first heteroatomic ligand chromium compound complex and the first organoaluminum compound, or ii) the first heteroatomic ligand, the first chromium compound, and the first organoaluminum compound, and optionally at least a portion of the first organic reaction medium, is formed and then introduced into the activation vessel. 17. A reaction system comprising: (a) an activation vessel configured to form a first mixture, wherein the activation vessel is further configured for an average residence time of the first mixture in the activation vessel; (b) one or more activation vessel inlets configured to introduce i) ethylene and a catalyst system mixture, or ii) ethylene and components of a catalyst system mixture, into the activation vessel; (c) an activation vessel outlet configured to withdraw the first mixture from the activation vessel; (d) a reaction zone configured to contact ethylene, the first mixture, a second organic reaction medium, and optionally hydrogen to form an oligomer product; (e) one or more reaction zone inlets configured to introduce ethylene, the second organic reaction medium, and the first mixture from the activation vessel outlet into the reaction zone; and (f) a reaction zone outlet configured to withdraw a reaction zone effluent stream containing the oligomer product from the reaction zone; (g) a controller configured to control the average residence time of the first mixture in the activation vessel, and/or a temperature in the activation vessel, and/or a pressure in the activation vessel, and/or an ethylene conversion in the activation vessel, and/or an amount of ethylene introduced into the activation vessel; wherein the average residence time of the first mixture in the activation vessel is in a range from 10 sec up to a period of time sufficient to form an amount of a first oligomer product in the activation vessel equal to 5% of an amount of the oligomer product formed in the reaction zone; and wherein the activation vessel is a stirred tank. 18. The reaction system of claim 17 , wherein the activation vessel is further configured for a conversion of ethylene in the activation vessel th