High-pressure polymerization process of ethylenically unsaturated monomers in a polymerization reactor

What is claimed is: 1. A process for polymerizing ethylene, and optionally one or more comonomers, to obtain an ethylene-based polymer in a high-pressure polymerization system comprising a) a continuously operated polymerization reactor having a reactor inlet and having a reactor outlet and b) a reactor blow down system comprising a fluid communication system, adapted and arranged to be in fluid communication with the polymerization reactor via the fluid communication system, comprising b1) a reactor blow down vessel containing an aqueous quenching medium, b2) a first emergency valve arranged in the fluid communication system and adapted to open and close fluid communication between the polymerization reactor and the reactor blow down system, b3) a reactor blow down dump vessel arranged and adapted to be in fluid communication with the reactor blow down vessel, and b4) a drain valve in the fluid communication system between the reactor blow down vessel and the reactor blow down dump vessel adapted and arranged to open or close fluid communication between the reactor blow down vessel and the reactor blow down dump vessel, wherein the reactor blow down vessel is installed above the reactor blow down dump vessel, and wherein the process comprises the steps of A) monitoring the high-pressure polymerization system for a disturbance, and B) opening the first emergency valve, thereby allowing a content of the high-pressure polymerization system comprising polymer and gaseous components to expand into the reactor blow down vessel via the fluid communication system, when a disturbance occurs and wherein the drain valve is closed, C) contacting the content of the polymerization system in the reactor blow down vessel with the aqueous quenching medium, thereby obtaining an aqueous polymer slurry, D) separating the aqueous polymer slurry and the gaseous components, and E) transferring the aqueous polymer slurry to the reactor blow down dump vessel by opening the drain valve. 2. The process of claim 1 , wherein the reactor blow down system further comprises b5) a blow down separator or a combination of blow down separator elements, arranged and adapted for receiving the aqueous polymer slurry from the reactor blow down dump vessel and separating the aqueous quenching medium from the polymer of the aqueous polymer slurry, and b6) a circulation pump arranged and adapted to return a separated aqueous quenching medium to the blow down dump vessel, wherein the process further comprises the steps of F) transferring the aqueous polymer slurry from the reactor blow down dump vessel to the blow down separator or the first element of the combination of blow down separator elements and G) returning the separated aqueous quenching medium to the blow down dump vessel by use of the circulation pump. 3. The process of claim 1 , wherein the reactor blow down system b) further comprises b7) a nitrogen blanketing system, b8) a pressure control system and/or b9) a fill-level control system. 4. The process of claim 1 , wherein the high-pressure polymerization system further comprises c) a pressure control valve, d) a post reactor cooler, and e) a separation vessel or a cascade of separation vessels, wherein the post reactor cooler is in fluid communication with the continuously operated polymerization reactor via f) a first connecting line, wherein the separation vessel or the cascade of separation vessels is in fluid communication with the post reactor cooler via g) a second connecting line, and wherein the pressure control valve is adapted and arranged to control fluid communication between the continuously operated polymerization reactor and the post reactor cooler. 5. The process of claim 4 , wherein the high-pressure polymerization system further comprises h) a third connecting line between the reactor blow down vessel and the first connecting line, which branches off the first connecting line downstream of the pressure control valve, and i) a second emergency valve adapted and arranged to open and close the third connecting line, thereby enabling or preventing fluid communication with the reactor blow down vessel, and/or j) a fourth connecting line between the reactor blow down vessel and the second connecting line and k) a third emergency valve adapted and arranged to open and close the fourth connecting line, thereby enabling or preventing fluid communication with the reactor blow down vessel, wherein the process further comprises after step A), prior to step C), and instead of step B), the step of B′) opening the first emergency valve and the second emergency valve and/or the third emergency valve, thereby allowing the content of the high-pressure polymerization system comprising polymer and gaseous components to expand into the reactor blow down vessel via the fluid communication system and via the third connecting line h) and/or the fourth connecting line i), when a disturbance occurs and wherein the drain valve is closed. 6. The process of claim 1 , wherein the reactor blow down vessel further comprises a gas outlet. 7. The process of claim 1 , wherein, following an occurrence of a disturbance, polymerization is restarted after transferring the aqueous polymer slurry to the reactor blow down dump vessel, thereby emptying the reactor blow down vessel, and closing the first emergency valve, a combination of previously open emergency valves, and the drain valve. 8. The process of claim 5 , wherein the first emergency valve or a combination of previously open emergency valves are closed after step B) or B′) when the fluid communication system, or the fluid communication system and the third connecting line and/or the fourth connecting line experience a positive pressure. 9. The process according to claim 2 , wherein the reactor blow down vessel and the reactor blow down dump vessel are inside a protective enclosure and/or wherein the blow down separator or a combination of blow down separator elements and/or the circulation pump is outside a protective enclosure. 10. The process according to claim 1 , wherein the drain valve is opened to transfer the aqueous polymer slurry to the reactor blow down dump vessel after the first emergency valve or a combination of previously open emergency valves is closed. 11. A high-pressure polymerization system comprising a) a continuously operable polymerization reactor having a reactor inlet and having a reactor outlet and b) a reactor blow down system adapted and arranged to be in fluid communication with the polymerization reactor via a fluid communication system comprising b1) a reactor blow down vessel, b2) a first emergency valve arranged in the fluid communication system and adapted to open and close fluid communication between the polymerization reactor and the reactor blow down system, b3) a reactor blow down dump vessel arranged and adapted to be in fluid communication with the reactor blow down vessel, and b4) a drain valve in the fluid communication system between the reactor blow down vessel and the reactor blow down dump vessel adapted and arranged to close the reactor blow down vessel, thereby enabling or preventing fluid communication with the reactor blow down dump vessel, wherein the reactor blow down vessel is installed above, and being in fluid communication with, the reactor blow down dump vessel. 12. The high-pressure polymerization system of claim 11 , wherein the reactor blow down system further comprises b5) a blow down separator or a combination of blow down separator elements, arranged and adapted for receiving an aqueous polymer slurry from the reactor blow down dump vessel and separating an aqueous quenc