Split flow vortex flowmeter

The subject matter claimed is: 1. A vortex flowmeter comprising: a first process connection having a meter inlet therein, the first process connection being configured to connect the meter inlet to an end of an upstream pipe segment of a fluid pipeline; a second process connection having a meter outlet therein, the second process connection being configured to connect the meter outlet to an end of a downstream pipe segment of the fluid pipeline; a fluid conveyance system for conveying fluid from the meter inlet to the meter outlet, the fluid conveyance system including multiple separate passages configured to divide fluid received by the meter inlet into multiple separate fluid streams and convey the fluid in each stream to the meter outlet; a bluff body for each of the separate passages, each bluff body being positioned to generate vortices in the respective fluid stream; a sensor for each of the separate fluid passages that is configured to detect vortices in the respective fluid stream; and a processing system configured to determine a flow rate through each of the fluid streams using information from the sensors; wherein the first and second process connections are configured to connect the flowmeter to a fluid pipeline having a diameter that is at least 10 inches. 2. A vortex flowmeter as set forth in claim 1 wherein the fluid conveyance system is configured to divide the fluid into only two separate streams. 3. A vortex flowmeter as set forth in claim 1 wherein the fluid conveyance system is configured so the flow through each of said multiple fluid streams carries about the same amount of fluid. 4. A vortex flowmeter as set forth in claim 1 wherein the fluid conveyance system is configured so at least one of said multiple fluid streams carries a substantially different amount of fluid than at least one other of said multiple fluid streams. 5. A vortex flowmeter as set forth in claim 1 wherein the processing system is configured to calculate a sum of the flow rate through all of said fluid streams. 6. A vortex flowmeter as set forth in claim 1 wherein the fluid conveyance system is configured so each of the multiple passages has a non-circular cross-sectional flow area. 7. A vortex flowmeter as set forth in claim 6 wherein said non-circular cross-sectional flow areas are each shaped to have a major axis and a minor axis, the major axis being longer than the minor axis. 8. A vortex flowmeter as set forth in claim 7 wherein the bluff bodies are oriented generally perpendicularly to the minor axis. 9. A vortex flowmeter as set forth in claim 6 wherein the fluid conveyance system is configured so there are only two passages and the passages are positioned generally side-by-side and oriented so their major axes are generally parallel. 10. A vortex flowmeter as set forth in claim 6 wherein at least one of the multiple passages has said non-circular cross-sectional flow area along a first segment of said at least one passage and has a circular cross-sectional flow area along a second segment of said at least one passage. 11. A vortex flowmeter as set forth in claim 10 wherein the bluff body for said at least one passage is mounted in said second segment. 12. A vortex flowmeter as set forth in claim 1 wherein at least one of the multiple passages has a first segment of said passage and a second segment of said passage, said first segment having a first end adjacent to said first process connection and a second end connected to the second segment, said first segment having a cross-sectional flow area, said cross-sectional area funneling from said first end to said second end. 13. A vortex flowmeter as set forth in claim 1 wherein each of the passages is configured to constrict fluid as the fluid flows by the respective bluff body. 14. A vortex flowmeter as set forth in claim 1 wherein each of the passages has the same cross-sectional flow area at its respective bluff body. 15. A vortex flowmeter as set forth in claim 1 wherein each of the passages has the same cross-sectional flow area along a meter section length. 16. A system for measuring fluid flow through a fluid pipeline, the system comprising: a first vortex metering unit configured to measure flow rate of fluid through the first vortex metering unit; a second vortex metering unit configured to measure flow rate of fluid through the second vortex metering unit; an upstream process connection mounted on each of the first and second vortex metering units for connecting the first and second vortex metering units to an end of an upstream segment of a fluid pipeline; a downstream process connection mounted on each of the first and second vortex metering units for connecting the first and second vortex metering units to an end of a downstream segment of the fluid pipeline; wherein the upstream and downstream process connections are configured to connect the system to a fluid pipeline having a diameter that is at least 10 inches. 17. A system as set forth in claim 16 wherein the upstream and downstream process connections are not connected to any fluid pipeline so the system can be transported as a unit. 18. A system as set forth in claim 16 wherein at least one of the first and second vortex metering units has a bluff body positioned in a flowtube having a fluid flow area having a non-circular cross-sectional shape. 19. A system as set forth in claim 16 wherein the first and second vortex metering units each have a flowtube, the flowtubes of the first and second vortex metering units being arranged side-by-side. 20. A system as set forth in claim 16 wherein each of the first and second vortex metering units has a flowtube with a bluff body positioned therein, each of the flowtubes having a cross-sectional flow area at the bluff body, each of the cross-sectional flow areas being equal. 21. A system as set forth in claim 16 wherein each of the first and second vortex metering units has a flowtube with a meter section length, each of the flowtubes having a fixed cross-sectional flow area along its respective meter section length, each of the fixed cross-sectional flow areas being equal. 22. A system as set forth in claim 16 further comprising a processing system configured to calculate a sum of flow rate measurements from the first and second vortex metering units. 23. A system as set forth in claim 16 further comprising a third vortex metering unit, the upstream process connection being mounted on the third vortex metering unit for connecting the third vortex metering unit to the end of the upstream segment of fluid pipeline and the downstream process connection being mounted on the third vortex metering unit for connecting the third vortex metering unit to the end of the downstream segment of the fluid pipeline. 24. A system for measuring fluid flow rate through a fluid pipeline, the system comprising: a fluidic system configured to divide flow through the pipeline into multiple passages plumbed in parallel with one another and recombine the flow through the multiple passages into a single stream; a bluff body positioned in each of the multiple passages, wherein the bluff body is configured to generate vortices downstream of the bluff body; a sensor for each of the multiple passages, each sensor configured to output a signal representative of the vortices generated in one of the multiple passages; and a processing system connected to each of the sensors and confi