Electrolysis unit and electrolyser

The invention claimed is: 1. An electrolysis device for electrolysis of water, comprising: a water electrolysis cell configured to electrolytically cleave water into hydrogen gas and oxygen (O2) gas, wherein the water electrolysis cell comprises an anode space comprising an anode and a cathode space comprising a cathode, wherein the anode space is separated from the cathode space by means of a proton exchange membrane, and the anode space is suitable for receiving the water and oxidizing it at the anode to give a first product comprising oxygen gas and the cathode space is suitable for receiving the water and reducing it at the cathode to give a second product comprising hydrogen gas; a first gas separating apparatus for separation of the first product comprising oxygen gas; a connection line that connects an external port of a lower section of the anode space to an external port of a lower section of the cathode space; a first line which is connected to an upper section of the anode space and to the first gas separating apparatus in which the water flows via natural circulation; and a second line which is connected to the first gas separating apparatus and leads to the connection line and in which the water flows via the natural circulation; wherein the external port of the lower section of the anode space is configured to receive water originating from the second line and water separately originating from the connection line; and wherein the first gas separating apparatus is arranged above the water electrolysis cell in a manner that is effective to generate the natural circulation of water in which the water flows from the anode space to the first gas separating apparatus and then back to the connection line via only the natural circulation. 2. The electrolysis device as claimed in claim 1 , further comprising: a second gas separating apparatus for separation of the second product comprising hydrogen gas; a third line which is connected to an upper section of the cathode space and to the second gas separating apparatus; and a fourth line which is connected to the second gas separating apparatus and to the connection line, wherein the second gas separating apparatus is arranged above the water electrolysis cell in a manner that is effective to generate a natural circulation of water in which the water flows in the third line and then in the fourth line via only the natural circulation. 3. The electrolysis device as claimed in claim 2 , wherein at least one of: a first heat exchanger is arranged in the second line and configured to exchange heat but not mass between a coolant and the water in the second line, and a second heat exchanger is arranged in the fourth line and configured to exchange heat but not mass between the coolant and the water in the fourth line. 4. The electrolysis device as claimed in claim 3 , wherein the first heat exchanger is arranged in the second line and the second heat exchanger is arranged in the fourth line; and wherein the first heat exchanger and the second heat exchanger are thermally coupled. 5. The electrolysis device as claimed in claim 2 , wherein a first heat exchanger is configured to receive the water from the second line and to receive the water from the fourth line, to allow the water from the second line to mix with the water from the fourth line, and to exchange heat but not mass between a coolant and both the water from the second line and the water from the fourth line. 6. The electrolysis device as claimed in claim 2 , wherein the second line, the fourth line, and the connection line and are configured to cause water equalization between the anode space and the cathode space. 7. The electrolysis device as claimed in claim 6 , wherein a first heat exchanger is arranged in the second line, a second heat exchanger is arranged in the fourth line, the second line and the fourth line are discrete between the respective gas separation device and respective heat exchanger, and the second line and the fourth line are connected via the connection line between the respective heat exchanger and the respective space. 8. The electrolysis device as claimed in claim 7 , wherein the connection line is disposed at a lowest point in the electrolysis device. 9. The electrolysis device as claimed in claim 2 , wherein a diameter of the first line is smaller than a diameter of the third line. 10. The electrolysis device as claimed in claim 9 , wherein a cross sectional area of the third line is at least twice a cross sectional area of the first line. 11. The electrolysis device as claimed in claim 9 , wherein a difference between the diameter of the first line and the diameter of the second line is configured to account for a difference between a volume of hydrogen formed and a volume of oxygen formed as a result of a cleavage of water in the electrolysis device. 12. The electrolysis device as claimed in claim 1 , wherein the water electrolysis cell is configured to maintain an operating pressure with a range from 0.5 bar to 2 bar. 13. The electrolysis device as claimed in claim 1 , wherein the water electrolysis cell is configured to maintain an operating pressure at one bar. 14. An electrolysis device for electrolysis of water, comprising: a water electrolysis cell configured to electrolytically cleave water into hydrogen gas and oxygen (O2) gas, wherein the water electrolysis cell comprises an anode space comprising an anode and a cathode space comprising a cathode, wherein the anode space is separated from the cathode space by means of a proton exchange membrane, and the anode space is suitable for receiving the water and oxidizing it at the anode to give a first product comprising oxygen gas and the cathode space is suitable for receiving the water and reducing it at the cathode to give a second product comprising hydrogen gas; a first gas separating apparatus for separation of the first product comprising oxygen gas; a first line which is connected to an upper section of the anode space and to the first gas separating apparatus in which the water flows via natural circulation; a second line that is directly connected to an external port of the lower section of the anode space at an end of the second line, that is connected to the first gas separating apparatus, and in which the water flows via the natural circulation; a second gas separating apparatus for separation of the second product comprising hydrogen gas; a third line which is connected to an upper section of the cathode space and to the second gas separating apparatus; a fourth line that is directly connected to an external port of the lower section of the cathode space at an end of the fourth line, and that is connected to the second gas separating apparatus; and a connection line comprising a first end that is directly connected to the end of the second line and a second end that is directly connected to the end of the fourth line; wherein the first gas separating apparatus is arranged above the water electrolysis cell in a manner that is effective to generate the natural circulation of water in which the water flows from the anode space to the first gas separating apparatus and then back to the connection line via only the natural circulation. 15. An electrolysis device for electrolysis of water, comprising: a water electrolysis cell configured to electrolytically cleave water into hydrogen gas and oxygen (O2) gas, wherein the water electrolysis cell comprises an anode space comprising an anode and a cathode space comprising a cathode, wherein the anode space is separated from the cathode space by