Patent ID: 8088528

Claim:
A method to cool and condense a stream rich in carbon dioxide, comprising the steps of: positioning more than one heat exchanger at a metering and pressure reduction station (MPRS), each heat exchanger having a first flow path for passage of a first fluid and a second flow path for passage of a second fluid; passing a stream of cold natural gas entering the MPRS sequentially along the first flow path of each heat exchanger with the cold natural gas being heated through a series of heat exchanges; positioning at least one fuel cell at the MPRS that converts natural gas into hydrogen; passing a gaseous stream rich in gaseous carbon dioxide produced as a byproduct of operation of the at least one fuel cell along the second flow path of at least one of the more than one heat exchanger, a heat exchange being effected with the cold natural gas in order to condense moisture in the gaseous stream rich in carbon dioxide, the gaseous stream rich in carbon dioxide then being passed through a separator to separate the gaseous stream rich in carbon dioxide into a water moisture stream and a gaseous carbon dioxide stream, the gaseous carbon dioxide stream exiting the separator then being passed along a second flow path of another of the more than one heat exchanger with condensed carbon dioxide from the gaseous carbon dioxide stream being captured in collection vessels, a portion of the natural gas exiting the more than one heat exchanger being diverted for consumption in the at least one fuel cell, with a majority of the natural gas exiting the more than one heat exchanger being routed for distribution to and consumption in a downstream municipal gas distribution network; the fuel cell having a cooling coil that extends from the fuel cell into a fluid reservoir holding a fluid medium; passing the fluid medium from the fluid reservoir along the second flow path of one of the more than one heat exchanger to effect a heat exchange between the fluid medium and a stream of natural gas; and passing a stream of natural gas along the second flow path of one of the more than one heat exchanger, after said stream of natural gas has been heated by being passed along the first stream of at least one of the more than one heat exchanger.