Process for the production of water and solvent-free hydrogenated nitrile rubbers

The invention claimed is: 1. A process for producing hydrogenated nitrile rubber containing less than 1.25 wt % volatile compounds, the process comprising removing volatile compounds from a fluid (F) having a viscosity of at maximum 200,000 Pa*s (measured at 100° C. and at a shear rate of 1/s) and containing: (i) at least one hydrogenated nitrile rubber comprising repeating units derived from at least one conjugated diene, at least one α,β-unsaturated nitrile, and optionally one or more copolymerizable monomer, and (ii) at least one volatile compound, and the process comprises the steps of: a) treating the fluid (F) in at least one concentrator unit comprising at least a heater ( 2 ), a degassing vessel ( 4 ) and a vapor line, whereby the fluid (F) is heated to produce a heated fluid (G), and the heated fluid (G) is fed into, and degassed in a degassing vessel where part of the volatile compounds are removed via the vapor line to obtain a concentrated fluid (H), b) reheating the concentrated fluid (H) from step a) in at least one reheating unit to obtain a reheated concentrated fluid (L) having a viscosity in the range of 10,000 mPa*s to 300,000 mPa*s; c) feeding the reheated concentrated fluid (L) from step b) into at least one extruder unit comprising at least an extruder degassing section comprising at least a conveying section, a vent port with one or more vapor lines, at least one accumulating section, and an outlet section; d) introducing at least one stripping agent into the reheated concentrated fluid (L) the extruder unit; and e) removing an additional portion of the volatile compounds from the reheated concentrated fluid (L) through the vent ports and vapor lines as the reheated concentrated fluid (L) passes through the extruder unit to produce, at the outlet section, hydrogenated nitrile rubber containing less than 1.25 wt % volatile compounds based on the mass of the hydrogenated nitrile rubber. 2. The process pursuant to claim 1 , further comprising producing the fluid (F) by: 1) polymerising at least one conjugated diene, at least one α,β-unsaturated nitrile, and optionally one or more further copolymerizable monomers to obtain a nitrile rubber, 2) subjecting the nitrile rubber of step 1) to a catalytic metathesis reaction, optionally in the presence of a 1-olefin to reduce the molecular weight of the nitrile rubber, and 3) subjecting the nitrile rubber of step 2) to a hydrogenation reaction in a volatile compound resulting in the fluid (F). 3. The process pursuant to claim 1 , wherein the hydrogenated nitrile rubber has a weight average molecular weight Mw of 50,000 g/mol or less, and a polydispersity (Mw/Mn) of less than 2.0. 4. The process pursuant to claim 1 , wherein the hydrogenated nitrile rubber has a weight average molecular weight Mw of more than 50,000 g/mol, and the polydispersity is 2.1 to 3.0. 5. The process pursuant to claim 1 , wherein the fluid (F) contains from 3 to 50 wt % of the non-volatile hydrogenated nitrile rubber polymer and from 50 to 97 wt % volatile compounds, whereby the aforementioned components add up to 90 to 100% of the total mass of fluid (F). 6. The process pursuant to claim 1 , wherein the fluid (F) entering the heater ( 2 ) has a temperature of 10° C. to 100° C. 7. The process pursuant to claim 1 , wherein the fluid (F) entering the heater ( 2 ) has a viscosity of 100 mPa*s to 75,000 mPa*s. 8. The process pursuant to claim 1 , wherein the heated fluid (G) has a temperature of 100 to 250° C. 9. The process pursuant to claim 1 , wherein the pressure in the degassing vessel ( 4 ) is 100 hPa to 4,000 hPa. 10. The process pursuant to claim 1 , wherein the degassing vessel ( 4 ) has the shape of a cyclone and has at least a torispherical shaped bottom to facilitate removal of concentrated fluid (H). 11. The process pursuant to claim 1 , wherein after degassing and separation in step a), the concentrated fluid (H) is obtained, and the method further comprises removing the concentrated fluid (H) from the degassing vessel ( 4 ) by means of a pump ( 4 . 2 ) which is selected from the group consisting of positive displacement type pumps, gear pumps, piston pumps, membrane pumps, screw type pumps, extruder type pumps like counter-rotating or co-rotating single or twin screw extruders or kneader type pumps or combinations thereof. 12. The process pursuant to claim 1 , wherein the temperature of the concentrated fluid (H) is lower than that of heated fluid (G) and the temperature of concentrated fluid (H) is 15° C. to 150° C. 13. The process pursuant to claim 1 , wherein the temperature of the reheated concentrated fluid (L) is higher than that of the concentrated fluid (H) and the temperature of concentrated fluid (L) is 50° C. to 250° C. 14. The process pursuant to claim 1 , wherein the extruder unit comprises at least one extruder selected from the group consisting of single and multiscrew extruders. 15. The process pursuant to claim 1 , wherein the extruder unit comprises means to operate separate zones of the extruder independently of each other at different temperatures so that the zones can either be heated, unheated or cooled. 16. The process pursuant to claim 1 , wherein the vent ports ( 15 ) comprise means to prevent the reheated concentrated fluid (L) or the hydrogenated nitrile rubber, from coming out of the vent ports. 17. The process pursuant to claim 1 , wherein accumulation in the accumulating sections ( 18 , 20 ) is accomplished by kneading or throttling elements, blister discs or die plates. 18. The process pursuant to claim 1 , wherein the extruder unit comprises 1 to 30 conveying and accumulating sections. 19. The process pursuant to claim 1 , wherein the outlet section ( 22 ) comprises means to allow the hydrogenated nitrile rubber to exit the extruder and product processing equipment, whereby the processing equipment is selected from the group consisting of combinations of die plates and cutters; die plates and underwater-pelletizing means; means for crumb formation, turbulators and fixed knifes placed at the end plate of the extruder. 20. The process pursuant to claim 1 , wherein the outlet section ( 22 ) further comprises cooling means, whereby the cooling means are selected from the group consisting of pneumatic crumb conveyers with convective air cooling, vibrating crumb conveyers with convective air cooling, vibrating crumb conveyer with cooled contact surfaces, belt conveyers with convective air cooling, belt conveyer with cooled belts, water spraying on hot crumbs upon outlet of the extruder and underwater-pelletizing means. 21. The process pursuant to claim 1 , wherein the outlet section ( 22 ) further comprises cooling means selected from the group consisting of heat exchangers, tube bundle heat exchangers, belt conveyors with convective air cooling, belt conveyors with cooled belts, water spraying on hot hydrogenated nitrile rubber or a water bath, whereby water serves as the coolant. 22. The process pursuant to claim 1 , wherein the stripping agent is selected from the group consisting of nitrogen, carbon dioxide, carbon monoxide, noble gases, methane, ethane, propane, butane, isobutane, pentane, hexane, cyclohexane, ethylene, propene, isobutane, butadiene, natural gas, acetone, methylethylketone, methanol, ethanol, diethylether, tetrahydrofuran, water or a mixture of the aforementioned substances. 23. The process pursuant to claim 1 , further comprising adding additives to fluid (F) o