Carbon dioxide capture

1 - 20 . (canceled) 21 . A system for capture of atmospheric carbon dioxide, comprising: a carbon dioxide capture device having a capture medium operable to capture atmospheric carbon dioxide under a first set of thermodynamic conditions, and to release carbon dioxide under a second set of thermodynamic conditions different to the first set of thermodynamic conditions, the first set of thermodynamic conditions comprising a first temperature range and the second set of thermodynamic conditions comprising a second temperature range; a heat engine configured receive a working fluid at an inlet temperature and arranged to discharge at least a portion of the working fluid at a discharge temperature in the second temperature range or higher; a heat transfer arrangement configured to convey heat from discharged working fluid to the capture medium to release carbon dioxide therefrom. 22 . The system of claim 21 , in which the heat engine is connected to an electrical generator, and the carbon dioxide capture device comprises one or more electrically-powered fans electrically connected with the electrical generator, the fans being arranged to draw atmospheric air over the capture medium. 23 . The system of claim 21 , in which the first temperature range is up to 80 degrees Celsius and the second temperature range from 80 to 120 degrees Celsius. 24 . The system of claim 21 , in which the capture medium is a sorbent material operable to capture carbon dioxide by a sorbing process at the first temperature range and a desorbing process at the second temperature range. 25 . The system of claim 24 , wherein the capture medium comprises one of: an adsorbent; or an absorbent. 26 . The system of claim 24 , wherein the capture medium comprises an ion-exchange material. 27 . The system of claim 21 , in which the heat engine comprises a first heat engine and a second heat engine in series, wherein the at least a portion of the working fluid is discharged between the first heat engine and the second heat engine. 28 . The system of claim 27 , the first heat engine is configured to operate between the inlet temperature and the discharge temperature, and the second heat engine is configured to operate between an intermediate temperature and an outlet temperature, wherein the intermediate temperature is less than the discharge temperature. 29 . The system of claim 21 , in which the heat engine is a multistage turbine having a first stage and final stage, and the at least a portion of the working fluid is discharged at a discharge station between the first stage and the final stage. 30 . A cogeneration plant for generation of electricity and capture of atmospheric carbon dioxide, comprising the system of claim 22 ; and a heat source for raising the temperature of the working fluid. 31 . The cogeneration plant of claim 30 , in which the heat source is a nuclear reactor. 32 . The cogeneration plant of claim 31 , in which the nuclear reactor is a gas-cooled reactor or a pressurised water reactor, and steam is provided by a steam generator in heat exchange relationship with the nuclear reactor. 33 . The cogeneration plant of claim 31 , in which the nuclear reactor is a boiling water reactor, and steam is provided by the boiling water reactor. 34 . A method of capturing atmospheric carbon dioxide, comprising: generating steam; expanding the steam through a steam turbine and producing a steam exhaust; directing heat from the steam exhaust to a direct air carbon capture plant; desorbing, by the heat, carbon dioxide captured in a capture medium in the direct air carbon capture plant. 35 . The method of claim 34 , in which the steam is generated using heat from a nuclear reactor.