Fuel or DEF dispenser having fluid temperature conditioning and control system

What is claimed is: 1. A fluid dispenser for installation in a forecourt in a fueling environment for dispensing liquid fuel or diesel exhaust fluid from at least one fluid storage tank remote from said fluid dispenser into a vehicle, comprising: a housing in which fluid flow control components are located; at least one fluid conduit completing first and second fluid flow paths between said at least one fluid storage tank and a nozzle coupled to said housing; a fluid flow meter located along said first fluid flow path; a control system; and a recirculation subsystem, said recirculation subsystem comprising a bypass valve located along one of said first and second flow paths; said bypass valve being operative to prevent fluid communication between said first and second fluid flow paths when said fluid dispenser is in use and to allow fluid communication between said first and second fluid flow paths when said fluid dispenser is not in use. 2. A fluid dispenser as in claim 1 , further comprising a fluid temperature conditioning subsystem positioned in said housing, said fluid temperature conditioning subsystem located along said first fluid flow path upstream of said fluid flow meter. 3. A fluid dispenser as in claim 2 , wherein said fluid temperature conditioning subsystem comprises a heating device. 4. A fluid dispenser as in claim 2 , wherein said fluid temperature conditioning subsystem comprises a cooling device. 5. A fluid dispenser as in claim 2 , wherein said control system is adapted to selectively operate said fluid temperature conditioning subsystem upon detection of a predetermined temperature. 6. A fluid dispenser as in claim 5 , wherein said control system is in electronic communication with at least one thermometric probe. 7. A fluid dispenser as in claim 1 , wherein said bypass valve is located at a distal end of one of said first and second fluid flow paths proximate said nozzle. 8. A fluid dispenser as in claim 1 , said recirculation subsystem further comprising at least one controllable valve, said control system being adapted to selectively actuate said at least one controllable valve such that flowing fluid flows to said at least one fluid storage tank when said fluid dispenser is not in use. 9. A fluid dispenser as in claim 1 , further comprising a recirculation pump coupled to one of said first and second fluid flow paths. 10. A fluid dispenser as in claim 9 , further comprising a fluid inlet along one of said first and second fluid flow paths for ingress of an evacuation fluid. 11. A fluid dispenser as in claim 10 , said recirculation subsystem further comprising at least one controllable valve, said control system being adapted to selectively actuate said at least one controllable valve and said recirculation pump such that fluid is evacuated from said at least one fluid conduit and returned to said at least one fluid storage tank. 12. A fluid dispenser as in claim 9 , said recirculation subsystem further comprising at least one controllable valve, said control system being adapted to selectively actuate said at least one controllable valve and said recirculation pump such that said liquid fuel or said diesel exhaust fluid recirculates along said first and second fluid flow paths through said fluid dispenser without returning to said at least one fluid storage tank. 13. A fluid dispenser as in claim 1 , wherein said at least one fluid conduit comprises first and second fluid conduits. 14. A fluid dispenser for dispensing liquid fuel or diesel exhaust fluid from at least one fluid storage tank into a vehicle, comprising: a housing in which fluid flow control components are located; a control system; a first fluid conduit completing a first flow path between said at least one fluid storage tank and a nozzle coupled to said housing; a second fluid conduit completing a second flow path between said nozzle and said at least one fluid storage tank; a bypass valve located along one of said first and second flow paths, said bypass valve being selectively openable to allow fluid communication between said first and second flow paths; and at least one controllable valve located along said second flow path, said at least one controllable valve in electronic communication with said control system. 15. A fluid dispenser as in claim 14 , further comprising a temperature conditioning subsystem located along said first flow path upstream of a fluid flow meter located in said housing. 16. A fluid dispenser as in claim 15 , further comprising at least one thermometric probe along at least one of said first and second flow paths, said at least one thermometric probe in electronic communication with said control system. 17. A fluid dispenser as in claim 16 , wherein said control system is adapted to selectively operate said fluid temperature conditioning subsystem upon detection of a predetermined temperature. 18. A fluid dispenser as in claim 14 , further comprising a dual-channel hose extending between said housing and said nozzle, said dual-channel hose defining first and second separate flow channels. 19. A fluid dispenser as in claim 18 , wherein said bypass valve provides fluid communication between said first and second flow channels in said hose when said bypass valve is open. 20. A method of measuring the flow rate of a fluid in a fluid dispenser for dispensing liquid fuel or diesel exhaust fluid to a vehicle in a fueling environment, comprising the steps of: providing a fluid dispenser comprising a housing and a control system; said fluid dispenser defining first and second fluid conduits connectable to first and second fluid flow paths, respectively, between at least one fluid storage tank and a nozzle coupled to said fluid dispenser; providing a first controllable valve located along said first flow path and in electronic communication with said control system, said first flow path defining a fluid inlet for an evacuation fluid downstream of said first controllable valve; providing a recirculation pump coupled to said second flow path and in electronic communication with said control system; closing said first controllable valve and evacuating said fluid from said first and second fluid conduits when said fluid dispenser is not in use.