Fluid pipeline leak detection and location with miniature RF tags

What is claimed is: 1. A system for detecting and locating a breach or an obstruction in a conduit that is carrying a fluid medium, the system comprising: a plurality of uniquely identifiable Radio Frequency (RF) tags for introducing into the conduit at an upstream point, each uniquely identifiable RF tag of said plurality of uniquely identifiable RF tags included within a sensor pod having a tailored size for effectively determining a size of the breach or the obstruction and a sensor also included within the respective sensor pod for measuring a flow velocity of the fluid medium; a first transceiver, said first transceiver being disposed on the outside of the conduit and proximate to the upstream point; a second transceiver, said second transceiver being disposed on the outside of the conduit and proximate to a downstream point, the downstream point located downstream of the upstream point in the direction that the fluid medium is flowing; and wherein each respective uniquely identifiable RF tag of said plurality of uniquely identifiable RF tags communicate individually with said first transceiver and only the uniquely identifiable RF tags that pass through the conduit without encountering the breach or the obstruction communicate individually with said second transceiver such that the uniquely identifiable RF tags that do not communicate with said second transceiver and the tailored size of their respective sensor pods, in combination, provide an approximate size of the breach or the obstruction in the conduit and the flow velocity measurement provides a speed and a direction component of the fluid medium in the conduit. 2. The breach detection system as recited in claim 1 and further comprising a pipeline inspection gauge (pig) having a third transceiver for introducing into the upstream point of the conduit for locating the uniquely identifiable RF tags that have encountered the breach or the obstruction in the conduit. 3. The breach detection system as recited in claim 1 wherein each respective sensor pod further includes a ballast that varies a buoyancy of said respective sensor pod in the fluid medium over time. 4. The breach detection system as recited in claim 3 wherein the ballast is configured to provide increased buoyancy over time. 5. The breach detection system as recited in claim 3 wherein the ballast is configured to provide decreased buoyancy over time. 6. A method of detecting and locating a breach or an obstruction in a conduit carrying a fluid medium comprising the steps of: a. locating a first transceiver proximate to an upstream point; b. locating a second transceiver proximate to a downstream point, the downstream point being located downstream of the upstream point in the direction that the fluid medium flows; c. introducing a plurality of uniquely identifiable Radio Frequency (RF) tags into the fluid medium at the upstream point, each respective uniquely identifiable RF tag of said plurality of uniquely identifiable RF tags included within a sensor pod having a tailored size for effectively determining the size of the breach or the obstruction and a sensor also included within the respective sensor pod for measuring a flow velocity of the fluid medium; d. communicating with each respective uniquely identifiable RF tag of said plurality of uniquely identifiable RF tags with said first transceiver at a first time; e. communicating with the uniquely identifiable RF tags that pass through the conduit without encountering the breach or the obstruction with said second transceiver at a second time that is later than the first time; and f. comparing the communications of steps d) and e) to determine if any of the plurality of uniquely identifiable RF tags that were present at the upstream point are not present at the downstream point such that the uniquely identifiable RF tags that do not communicate with said second transceiver and the tailored size of their respective sensor pods, in combination, provide an approximate size of the breach or the obstruction in the conduit and the flow velocity measurement provides a speed and a direction component of the fluid medium in the conduit. 7. The method as recited in claim 6 further comprising the step of: g. introducing a pipeline inspection gauge (pig) having a third transceiver into the conduit to locate the uniquely identifiable RF tags that have encountered the breach or the obstruction in the conduit. 8. The method as recited in claim 6 wherein each respective sensor pod includes a ballast that varies a buoyancy of said respective sensor pod in the fluid medium over time. 9. The method as recited in claim 8 wherein the ballast is configured to provide increased buoyancy over time. 10. The method as recited in claim 8 wherein the ballast is configured to provide decreased buoyancy over time. 11. A conduit inspection system comprising: a plurality of uniquely identifiable Radio Frequency (RF) tags that are introduced into a fluid medium within a conduit, each respective uniquely identifiable RF tag of said plurality uniquely identifiable RF tags included within a sensor pod having a tailored size, so that one or more of the plurality of uniquely identifiable RF tags encounters a breach in the conduit, and a sensor also included within the respective sensor pod for measuring a flow velocity of the fluid medium; and wherein a transceiver communicates with the one or more of the uniquely identifiable RF tags that are lodged in the breach to determine the location and size of the breach and a speed and a direction component of the fluid medium.