Method of cleaning a carbon dioxide rich flue gas and a boiler system

The invention claimed is: 1. A method of cleaning a carbon dioxide rich flue gas generated in a boiler combusting a fuel in the presence of a gas containing oxygen gas, the method comprising: forwarding the carbon dioxide rich flue gas from the boiler to a gas cleaning system, removing in said gas cleaning system at least a portion of a contaminant content of the carbon dioxide rich flue gas, pressurizing at least a portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed, and forwarding at least a portion of the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed to at least one gas cleaning device for being utilized as a utility gas therein; and utilizing the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed by at least one of: (i) flushing a cover for an isolator of the at least one gas cleaning device in the form of an electrostatic precipitator; (ii) atomizing an absorption liquid of the at least one gas cleaning device in the form of a spray dryer absorber; and (iii) fluidization of a particulate material of the at least one gas cleaning device in the form of a mixing device supplying the particulate material mixed with absorbent to a contact reactor bringing the particulate material mixed with the absorbent into contact with the carbon dioxide rich flue gas. 2. The method according to claim 1 , wherein said pressurizing is conducted in a gas compression and purification unit operating to prepare from the carbon dioxide rich flue gas that has been cleaned in the gas cleaning system a pressurized carbon dioxide gas for disposal. 3. The method according to claim 2 , wherein the gas compression and purification unit comprises a low pressure compression unit being operative for increasing the pressure of the carbon dioxide rich flue gas to a pressure of 20 to 50 bar absolute pressure, wherein said forwarding at least a portion of the pressurized portion of the carbon dioxide rich flue gas comprises forwarding to said at least one gas cleaning device a gas that has passed through at least a part of the low pressure compression unit. 4. The method according to claim 3 , wherein said forwarding at least the portion of the pressurized portion of the carbon dioxide rich flue gas comprises forwarding to said at least one gas cleaning device a gas that has passed through an intermediate dehydration unit located downstream of the low pressure compression unit. 5. The method according to claim 1 , comprising utilizing a portion of the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed for pulse-cleaning the at least one gas cleaning device in the form of a fabric filter. 6. The method according to claim 1 , wherein the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed is utilized for the flushing of the cover for the isolator of the at least one gas cleaning device in the form of the electrostatic precipitator. 7. The method according to claim 1 , wherein the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed is utilized for the atomizing of the absorption liquid of the at least one gas cleaning device in the form of the spray dryer absorber. 8. The method according to claim 1 , wherein the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed is utilized for the fluidization of the particulate material of the at least one gas cleaning device in the form of the a mixing device supplying the particulate material mixed with the absorbent to the contact reactor bringing the particulate material mixed with the absorbent into contact with the carbon dioxide rich flue gas. 9. The method according to claim 8 , wherein at least a portion of the pressurized portion of the carbon dioxide rich flue gas, from which at least the portion of the contaminant content has been removed, that is forwarded to the mixing device is collected downstream of a filter removing the particulate material supplied to said contact reactor by said mixing device, the carbon dioxide rich flue gas being collected, pressurized and forwarded to said mixing device prior to passing through a gas compression and purification unit. 10. A boiler system comprising: a boiler for combusting a fuel in the presence of a gas containing oxygen gas, and a gas cleaning system being operative for removing at least a portion of a contaminant content of a carbon dioxide rich flue gas generated in the boiler, a compression device being operative for pressurizing at least a portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed, and a carbon dioxide supply duct being operative for forwarding at least a portion of the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed to at least one gas cleaning device for being utilized as a utility gas therein; and wherein the at least one gas cleaning device comprises at least one of: (i) an electrostatic precipitator, the carbon dioxide supply duct being operative for forwarding the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed to an isolator flushing system of the electrostatic precipitator, (ii) a spray dryer absorber, the carbon dioxide supply duct being operative for forwarding the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed to a slurry atomization arrangement of the spray dryer absorber, and (iii) a mixing device supplying particulate material mixed with absorbent to a contact reactor being operative for bringing the particulate material mixed with the absorbent into contact with the carbon-dioxide rich flue gas, the carbon dioxide supply duct being operative for forwarding the pressurized portion of the carbon dioxide rich flue gas from which at least the portion of the contaminant content has been removed to the mixing device for fluidizing the particulate material in the mixing device. 11. The boiler system according to claim 10 , wherein the boiler system further comprises a gas compression and purification unit being operative for preparing from the carbon dioxide rich flue gas that has been cleaned in the gas cleaning system a pressurized carbon dioxide gas for disposal, said compression device being included in the gas compression and purification unit, said carbon dioxide supply duct being operative for forwarding at least a portion of said pressurized portion of the carbon dioxide rich flue gas from which at least a portion of the contaminant content has been removed, from the gas compression and purification unit to said at least one gas cleaning device. 12. The boiler system according to claim 11 , wherein the gas compression and purification unit comprises a low pressure compression unit being operative for increasing the pressure of the carbon dioxide rich flue gas to a pressure of 20 to 50 bar absolute pressure, the carbon dioxide supply duct being operative for forwarding to said at least one gas cleaning device a gas that has passed through at least a part of the low pressure compression unit. 13. The boiler system