Device and a method of cleaning an effluent gas from an aluminium production electrolytic cell

The invention claimed is: 1. A gas cleaning unit for cleaning an effluent gas of at least one aluminium production electrolytic cell, the gas cleaning unit comprising: at least one contact reactor in which the effluent gas is brought into contact with alumina; a dust removal device in which at least a portion of the alumina having adsorbed pollutants from the effluent gas in the contact reactor is separated from the effluent gas; and a wet scrubber where effluent gas flowing from the dust removal device is brought into contact with an absorption liquid containing water for removing further pollutants from the effluent gas, the wet scrubber positioned at a point vertically higher than that of the dust removal device; wherein a wet scrubber inlet opening for receiving effluent gas flowing from the dust removal device is arranged in a bottom of the wet scrubber, the wet scrubber inlet opening being positioned at a point vertically higher than that of the dust removal device. 2. The gas cleaning unit according to claim 1 , wherein the wet scrubber is positioned at a point vertically higher than and beside the dust removal device. 3. The gas cleaning unit according to claim 1 , wherein an alumina silo is arranged beside the dust removal device, the wet scrubber being arranged above the alumina silo and at least partly obscuring from view the alumina silo when viewed from above the wet scrubber. 4. A gas cleaning unit for cleaning an effluent gas of at least one aluminium production electrolytic cell, the gas cleaning unit comprising: at least one contact reactor in which the effluent gas is brought into contact with alumina; a dust removal device in which at least a portion of the alumina having adsorbed pollutants from the effluent gas in the contact reactor is separated from the effluent gas; and a wet scrubber where effluent gas flowing from the dust removal device is brought into contact with an absorption liquid containing water for removing further pollutants from the effluent gas, the wet scrubber positioned at a point vertically higher than that of the dust removal device; wherein the dust removal device comprises a clean gas plenum arranged at the top thereof, the wet scrubber being fluidly connected to the clean gas plenum via an outlet duct arranged in a side wall of the clean gas plenum. 5. The gas cleaning unit according to claim 1 , wherein the dust removal device comprises a clean gas plenum arranged at the top thereof, the wet scrubber being fluidly connected to the clean gas plenum via an outlet duct arranged in a side wall of the clean gas plenum and a fan is connected to the outlet duct for causing a flow of effluent gas from the clean gas plenum to the wet scrubber. 6. The gas cleaning unit according to claim 5 , wherein the fan is a radial fan comprising an impeller rotating on a horizontal shaft, the fan receiving effluent gas flowing in a horizontal direction from the clean gas plenum and transporting the effluent gas upward into the wet scrubber. 7. A gas cleaning unit for cleaning an effluent gas of at least one aluminium production electrolytic cell, the gas cleaning unit comprising: at least one contact reactor in which the effluent gas is brought into contact with alumina; a dust removal device in which at least a portion of the alumina having adsorbed pollutants from the effluent gas in the contact reactor is separated from the effluent gas; and a wet scrubber where effluent gas flowing from the dust removal device is brought into contact with an absorption liquid containing water for removing further pollutants from the effluent gas, the wet scrubber positioned at a point vertically higher than that of the dust removal device; wherein the dust removal device and the wet scrubber together form a common stacked unit supported on a common support structure. 8. The gas cleaning unit according to claim 1 , wherein a gas cleaning unit penthouse houses at least a part of a clean gas plenum of the dust removal device, and at least a part of the wet scrubber. 9. The gas cleaning unit according to claim 1 , wherein a gas distributor is arranged at the bottom of the wet scrubber for distributing effluent gas, entering the wet scrubber from below, inside a housing of the wet scrubber. 10. The gas cleaning unit according to claim 1 , wherein a stack discharging cleaned effluent gas is arranged on top of the wet scrubber. 11. The gas cleaning unit of claim 1 , comprising: an outlet duct extending horizontally from the dust removal device to the wet scrubber, the outlet duct being between 0.1 meters to 2 meters in length. 12. The gas cleaning unit of claim 1 , comprising: a fan in fluid communication with the dust removal device and the wet scrubber, the fan being positioned between the dust removal device and the wet scrubber, the fan configured to cause the effluent gas to flow vertically into a bottom portion of the wet scrubber for feeding the effluent gas output from the dust removal device into the wet scrubber. 13. The gas cleaning unit of claim 12 , wherein the wet scrubber has a distributor in the bottom portion of the wet scrubber, the distributor configured to distribute the effluent gas in the wet scrubber passing vertically through the wet scrubber toward a stack positioned above the wet scrubber, the distributor configured to facilitate formation of an even gas distribution profile of the effluent gas inside the wet scrubber. 14. The gas cleaning unit of claim 13 , comprising: an outlet duct between the dust removal device and the fan, the outlet duct extending 0.1 meters to 2 meters from the dust removal device to adjacent to the fan. 15. The gas cleaning unit of claim 13 , comprising: a silo, the silo configured to contain alumina for feeding the alumina to the at least one contact reactor; and the stack being positioned on a top of a housing of the wet scrubber; wherein the wet scrubber is positioned directly above the fan; wherein the fan, the wet scrubber, the stack, the at least one contact reactor, and the dust removal device are all supported by a common support structure, the common support structure comprising a plurality of stands; and wherein the wet scrubber is above the silo, the at least one contact reactor, the fan, and the dust removal device. 16. The gas cleaning unit of claim 4 , comprising: an outlet duct extending from the dust removal device to the wet scrubber; and a fan in fluid communication with the dust removal device and the wet scrubber, the fan being positioned between the dust removal device and the wet scrubber, the fan configured to cause the effluent gas to flow vertically into a bottom portion of the wet scrubber for feeding the effluent gas output from the dust removal device into the wet scrubber. 17. The gas cleaning unit of claim 16 , wherein the wet scrubber has a distributor in the bottom portion of the wet scrubber, the distributor configured to distribute the effluent gas in the wet scrubber passing vertically through the wet scrubber toward a stack positioned above the wet scrubber, the distributor configured to facilitate formation of an even gas distribution profile of the effluent gas inside the wet scrubber. 18. The gas cleaning unit of claim 17 , comprising: a silo, the silo configured to contain alumina for feeding the alumina to the at least one contact reactor; and the stack being positioned on a top of a housing of the wet scrubber; wherein the wet scrubber is positioned directly above the fan; wherein the fan, the wet scrubber, the stack, the at least