Production of liquid polyolefins

What is claimed: 1. A process for preparing at least one liquid polyolefin, the process comprising: a) contacting a feedstock comprising a mixture of C 6 to C 14 alpha-olefin monomers with a catalyst system comprising at least one activated metallocene catalyst in a polymerization reactor to produce an effluent stream comprising said at least one liquid polyolefin, residual catalyst, and unreacted alpha-olefin monomers, wherein from 50% to 95% of the alpha-olefin monomers are converted; b) contacting the effluent stream with at least one deactivator to produce a deactivated effluent stream; c) contacting the deactivated effluent stream with at least one sorbent to absorb residual catalyst to produce a deactivated effluent stream containing the at least one sorbent and the residual catalyst; d) filtering the deactivated effluent stream containing the at least one sorbent and the residual catalyst through a filter, wherein the filtering creates (i) a filtered effluent comprising a first portion of said at least one liquid polyolefin and (ii) a filter cake comprising the at least one sorbent, the residual catalyst, and a second portion of the at least one liquid polyolefin; e) washing the filter cake in the filter with a wash fluid comprising at least one alpha-olefin which corresponds to one of the alpha-olefin monomers in said mixture of C 6 to C 14 alpha-olefin monomers, to produce a washed filter cake containing no more than 1000 ppm of the at least one liquid polyolefin and a fluid mixture which contains a third portion of the at least one liquid polyolefin, wherein the amount of the at least one liquid polyolefin in the third portion is less than or equal to the amount of the at least one liquid polyolefin in the second portion; and f) removing the fluid mixture from the filter cake and recovering at least a portion of the third portion of the at least one liquid polyolefin from the fluid mixture. 2. The process of claim 1 , wherein the wash fluid contains no more than 5.0 vol % of water. 3. The process of claim 1 , wherein the washed filter cake contains no more than 100 ppm of the at least one liquid polyolefin. 4. The process of claim 1 , wherein the fluid mixture removed from the filter cake comprises at least a portion of the unreacted alpha-olefin monomers and the at least one alpha-olefin used to wash the filter cake, and wherein said recovering at least a portion of the third portion of the at least one liquid polyolefin from the fluid mixture further comprises distilling the fluid mixture to separate the unreacted alpha-olefin monomers, the at least one alpha-olefin used to wash the filter cake, and at least a portion of the third portion of the at least one liquid polyolefin. 5. The process of claim 1 , wherein the fluid mixture removed from the filter cake further comprises the at least one alpha-olefin used to wash the filter cake, and wherein the at least one alpha-olefin used to wash the filter cake contained in the fluid mixture and the unreacted alpha-olefin monomers are recycled to the polymerization reactor. 6. The process of claim 1 , wherein the activated metallocene catalyst is a single site metallocene catalyst and wherein the catalyst system further comprises, an NCA activator and a trialkyl aluminum co-activator. 7. The process of claim 1 , wherein the at least one sorbent is capable of chemically and physically interacting with the residual catalyst. 8. The process of claim 1 , wherein the polymerization reactor is a tank reactor comprising at least one spray nozzle and a recirculating pump, and wherein the tank reactor comprises no internal agitator. 9. The process of claim 1 , wherein the at least one deactivator comprises at least one of air, CO 2 , water, and mixtures thereof. 10. A lubricant made by the process of claim 1 , wherein the lubricant is a gear oil, bearing oil, circulating oil, compressor oil, hydraulic oil, turbine oil, or machinery grease.