Polymer composition comprising a polyolefin produced in a high pressure process, a high pressure process and an article

What is claimed is: 1. A polymer composition comprising a polyolefin, wherein the polymer composition has an electric conductivity of 0.50×10 −15 S/m or less, when measured according to DC conductivity method using a tape sample consisting of the polymer composition as described under “Determination Methods”; wherein the polyolefin is a low density polyethylene (LDPE) selected from a LDPE homopolymer or LDPE copolymer of ethylene with one or more comonomer(s), which LDPE homopolymer or LDPE copolymer of ethylene may optionally be unsaturated, and wherein said polyolefin is produced in a high pressure process comprising: (a) compressing one or more monomer(s) under pressure in a compressor, wherein a compressor lubricant is used for lubrication, (b) polymerising a monomer optionally together with one or more comonomer(s) in a polymerisation zone, (c) separating the obtained polyolefin from the unreacted products and recovering the separated polyolefin in a recovery zone, wherein, in a) above, the compressor lubricant comprises a mineral oil. 2. The polymer composition according to claim 1 , wherein the polymer composition has an electric conductivity of 0.48×10 −15 S/m or less, preferably 0.40×10 −15 S/m or less, preferably 0.38×10 −15 S/m or less, when measured according to DC conductivity method using a tape sample consisting of the polymer composition, as described under “Determination Methods”. 3. The polymer composition according to claim 1 , wherein the polyolefin of the polymer composition has an electric conductivity of 0.50×10 −15 S/m or less, preferably of 0.48×10 −15 S/m or less, preferably 0.40×10 −15 S/m or less, preferably of 0.38×10 −15 S/m or less, when measured according to DC conductivity method using a tape sample consisting of the polyolefin polymer, as described under “Determination Methods”. 4. The polymer composition according to claim 1 , wherein the polyolefin is a LDPE homopolymer or LDPE copolymer of ethylene with one or more non-polar comonomer(s). 5. The polymer composition according to claim 1 , wherein the polyolefin is a LDPE homopolymer or LDPE copolymer of ethylene with a polyunsaturated comonomer and optionally with another comonomer. 6. The polymer composition according to claim 1 , comprising 80 to 100 wt % of the polyolefin. 7. The polymer composition according to claim 1 , wherein the polyolefin is the only polymer component in the composition. 8. The polymer composition according to claim 1 which is crosslinked. 9. A process for producing a polyolefin having an electric conductivity of 0.50×10 −15 S/m or less, preferably of 0.48×10 −15 S/m or less which is a low density polyethylene (LDPE) selected from a LDPE homopolymer or LDPE copolymer of ethylene with one or more comonomer(s), which LDPE homopolymer or LDPE copolymer of ethylene may optionally be unsaturated, wherein the polyolefin is produced in a high pressure process comprising: (a) compressing one or more monomer(s) under pressure in a compressor, wherein a compressor lubricant is used for lubrication, (b) polymerising a monomer optionally together with one or more comonomer(s) in a polymerisation zone, (c) separating the obtained polyolefin from the unreacted products and recovering the separated polyolefin in a recovery zone, wherein, in a) above, the compressor lubricant comprises a mineral oil. 10. The process according to claim 9 , wherein the polymerisation b) above is operated at a pressure up to 4000 bar, preferably from 700 to 4000 bar, and at a temperature of up to 400° C., preferably from 80 to 350° C. 11. A power cable comprising a conductor surrounded by one or more layers, wherein at least one of said layer(s) comprises a polymer composition comprising a polyolefin, wherein the polymer composition has an electric conductivity of 0.50×10 −15 S/m or less, when measured according to DC conductivity method using a tape sample consisting of the polymer composition as described under “Determination Methods”; wherein the polyolefin is a low density polyethylene (LDPE) homopolymer which may optionally be unsaturated, and wherein the polyolefin is produced in a high pressure process comprising: (a) compressing one or more monomer(s) under pressure in a compressor, wherein a compressor lubricant is used for lubrication, (b) polymerising a monomer optionally together with one or more comonomer(s) in a polymerisation zone, (c) separating the obtained polyolefin from the unreacted products and recovering the separated polyolefin in a recovery zone, wherein, in a) above, the compressor lubricant comprises a mineral oil. 12. The power cable of claim 11 , comprising at least an inner semiconductive layer, an insulation layer and an outer semiconductive layer, in that order, wherein the polymer composition is present in the insulation layer. 13. The power cable of claim 11 , wherein the polyolefin of the polymer composition has an electric conductivity of 0.50×10 −15 S/m or less, preferably of 0.48×10 −15 S/m or less, preferably 0.40×10 −15 S/m or less, preferably 0.38×10 −15 S/m or less, when measured according to DC conductivity method using a tape sample consisting of the polyolefin polymer as described under “Determination Methods”. 14. The power cable of claim 11 which is a direct current (DC) power cable. 15. The power cable of claim 11 in which the polymer composition is crosslinked. 16. A process for producing a power cable, comprising: producing a polyolefin having an electric conductivity of 0.50×10 −15 S/m or less, preferably of 0.48×10 −15 S/m or less which is a low density polyethylene (LDPE) homopolymer which may optionally be unsaturated, wherein the polyolefin is produced in a high pressure process comprising: (a) compressing one or more monomer(s) under pressure in a compressor, wherein a compressor lubricant is used for lubrication; (b) polymerising a monomer optionally together with one or more comonomer(s) in a polymerisation zone; and (c) separating the obtained polyolefin from the unreacted products and recovering the separated polyolefin in a recovery zone, wherein, in a) above, the compressor lubricant comprises a mineral oil; applying, preferably by (co)extrusion, one or more layer(s) on a conductor wherein at least one layer comprises a polymer composition comprising said polyolefin; and optionally crosslinking at least the obtained layer of the cable. 17. The process of claim 16 , wherein the polymer composition has an electric conductivity of 0.50×10 −15 S/m or less, when measured according to DC conductivity method using a tape sample consisting of the polymer composition as described under “Determination Methods”.