Catalytic recombiner and filter apparatus

The invention claimed is: 1. A catalytic recombiner and filter apparatus, comprising: a duct; a number of catalytic elements disposed in said duct for recombining hydrogen and oxygen, or carbon monoxide and oxygen, contained in a gas flow through said duct; a number of adsorber elements arranged inside said duct, said adsorber elements having iodine adsorbing surfaces and macroscopic flow channels formed in between said iodine adsorbing surfaces, wherein said iodine adsorbing surfaces are flown over by the gas flow; said adsorber elements being arranged downstream of the catalytic elements in a direction of the gas flow; a housing enclosing said duct, said housing having a section between said adsorber elements and said catalytic elements with a number of ventilation slots for facilitating an influx of ambient air into said duct; and a movable cover element disposed for covering a respective said ventilation slot and coupled to a temperature-dependent passive actuator, configured for opening said ventilation slot above a pre-defined critical temperature prevailing in said duct. 2. The catalytic recombiner and filter apparatus according to claim 1 configured for placement in a containment of a nuclear reactor. 3. The catalytic recombiner and filter apparatus according to claim 1 , wherein said number of catalytic elements is a plurality of catalytic elements and said number of adsorber elements is a plurality of adsorber elements. 4. The catalytic recombiner and filter apparatus according to claim 1 , wherein said flow channels are aligned along a longitudinal direction of said duct, and each of said flow channels has a cross section with an area of at least 500 mm 2 . 5. The catalytic recombiner and filter apparatus according to claim 1 , wherein each of said flow channels has a cross section with an area of at least 1500 mm 2 . 6. The catalytic recombiner and filter apparatus according to claim 1 , wherein said actuator has a given switching temperature corresponds to a permissible maximum operating temperature of said adsorber elements. 7. The catalytic recombiner and filter apparatus according to claim 1 , wherein said iodine adsorbing surfaces are made of, or contain, one or more materials selected from the group consisting of silver zeolite, silver-coated metal, and metal organic framework based materials. 8. The catalytic recombiner and filter apparatus according to claim 7 , wherein said silver-coated metal is in the form of silver-coated copper wires. 9. A nuclear power plant, comprising a containment and a catalytic recombiner and filter apparatus according to claim 1 disposed inside said containment. 10. A catalytic recombiner and filter apparatus, comprising: a duct; an electrostatic aerosol filter arranged inside said duct; a number of catalytic elements disposed in said duct for recombining hydrogen and oxygen, or carbon monoxide and oxygen, contained in a gas flow through said duct; a number of adsorber elements having iodine adsorbing surfaces and macroscopic flow channels formed in between said iodine adsorbing surfaces, wherein said iodine adsorbing surfaces are flown over by the gas flow; said adsorber elements being arranged downstream of the catalytic elements in a direction of the gas flow. 11. The catalytic recombiner and filter apparatus according to claim 10 , wherein said electrostatic aerosol filter is arranged upstream of said catalytic elements in the direction of the gas flow. 12. The catalytic recombiner and filter apparatus according to claim 10 , further comprising a thermoelectric generator for powering said electrostatic aerosol filter. 13. The catalytic recombiner and filter apparatus according to claim 12 , wherein the thermoelectric generator is thermally coupled to said catalytic elements and/or to the gas flow.