Continuously-operable flow stream processing system and method

We claim: 1. A continuously-operable flow stream processing system comprising: a fluid inlet for receiving a flow stream into the system; at least two fluid processing media; a fluid conduit in fluidic communication with the fluid inlet, with the fluid-processing media serially arranged along the fluid conduit so that each fluid processing media is independently actuable between an online position for processing the flow stream and an offline position removed from processing the flow stream; and a flow controller adapted to independently actuate the serially arranged fluid processing media between the online position and the offline position so that a service-ready fluid process media remains online and continues to process the flow stream while the other fluid processing media is offline so as to be serviceable without taking the system offline to service a service-needed fluid processing media, whereby the system may operate continuously to process the flow stream without stoppage. 2. A continuously-operable flow stream processing system, comprising: a fluid inlet for receiving a flow stream into the system; at least two fluid processing media; at least two fluid conduits branching from and in fluidic communication with the fluid inlet, wherein for each fluid conduit, an associated one of the fluid processing media is positioned therein to process the flow stream when directed through said fluid conduit; a valve operably connected inline with the conduits; a flow controller adapted to control the valve to selectively switch the flow stream between the conduits and between service-needed fluid processing media and service-ready fluid processing media so that at least one of a service-ready fluid processing media is online and continues to process the flow stream while at least one of the other fluid processing media is offline so as to be serviceable without taking the system offline to service the service-needed fluid processing media, whereby the system may operate continuously to process the flow stream without stoppage; and means for in situ cleaning of offline fluid processing media including, means for removing material from the offline fluid processing media, a separator for collecting the removed material from the offline fluid processing media; and a flow diverter adapted to control fluid communication between the offline fluid processing media and the separator, wherein the means for removing material from the offline fluid processing media includes a cleaning fluid source and a fluid injector arranged downstream of the offline fluid processing media in relation to an online flow path of the flow stream to inject the cleaning fluid from the cleaning fluid source to an outlet side of the offline fluid processing media and into the separator for collection. 3. A continuously-operable flow stream processing system, comprising: a fluid inlet for receiving a flow stream into the system; at least two fluid processing media; at least two fluid conduits branching from and in fluidic communication with the fluid inlet, wherein for each fluid conduit, an associated one of the fluid processing media is positioned therein to process the flow stream when directed through said fluid conduit; a valve operably connected inline with the conduits; a flow controller adapted to control the valve to selectively switch the flow stream between the conduits and between service-needed fluid processing media and service-ready fluid processing media so that at least one of a service-ready fluid processing media is online and continues to process the flow stream while at least one of the other fluid processing media is offline so as to be serviceable without taking the system offline to service the service-needed fluid processing media, whereby the system may operate continuously to process the flow stream without stoppage; and sensors positioned to directly monitor the fluid processing media, wherein the flow controller is adapted to determine that a currently online fluid processing media is in need of servicing based on a predetermined threshold condition detected by the sensors, and based on said determination to control the valve to selectively switch the flow stream from the service-needed fluid processing media to a service-ready fluid processing media without taking the system offline so that at least one of the service-ready fluid processing media is online and continues to process the flow stream while at least one of the other fluid processing media is offline so as to be serviceable. 4. A method of continuously processing a flow stream comprising: providing a system having a fluid inlet for receiving a flow stream, at least two fluid processing media, and a fluid conduit in fluidic communication with the fluid inlet, with the fluid processing media serially arranged along the fluid conduit so that each fluid processing media is independently actuable between an online position for processing the flow stream and an offline position removed from processing the flow stream; and independently actuating the serially arranged fluid processing media between the online position and the offline position so that a service-ready fluid process media remains online and continues to process the flow stream while the other fluid processing media is offline so as to be serviceable without taking the system offline to service a service-needed fluid processing media, whereby the system may operate continuously to process the flow stream without stoppage. 5. A method of continuously processing a flow stream comprising: providing a fluid inlet for receiving a flow stream, at least two fluid processing media, at least two fluid conduits branching from and in fluidic communication with the fluid inlet, wherein for each fluid conduit, an associated one of the fluid processing media is positioned to process the flow stream when directed through said fluid conduit, and a valve operably connected inline with the conduits; using a flow controller to control the valve to selectively switch the flow stream between the conduits and between service-needed fluid processing media and service-ready fluid processing media so that at least one of a service-ready fluid processing media is online and continues to process the flow stream while at least one of the other fluid processing media is offline so as to be serviceable without taking the system offline to service the service-needed fluid processing media, whereby the system may operate continuously to process the flow stream without stoppage; and in situ cleaning offline fluid processing media by removing material from the offline fluid processing media, using a separator to collect the removed material from the offline fluid processing media; and using a flow diverter to control fluid communication between the offline fluid processing media and the separator, wherein the removal of material from the offline fluid processing media includes providing a cleaning fluid source and a fluid injector arranged downstream of the offline fluid processing media in relation to an online flow path of the flow stream, and using the fluid injector to inject the cleaning fluid from the cleaning fluid source to an outlet side of the offline fluid processing media and into the separator for collection. 6. A method of continuously processing a flow stream comprising: providing a fluid inlet for receiving a flow stream, at least two fluid processing media, at least two fluid conduits branching from and in fluidic communication with the fluid inlet, wherein for each fluid conduit, an associated one of the fluid processing media is positioned to process the flow stream when directed through said fluid conduit, and a valve operably connected inline with the conduits; using a flow controller