Monitoring and control systems for continuous circulating drilling operations

We claim: 1. An apparatus for continuously flowing drilling fluid along a drill string, comprising: a continuous circulation device having at least a first fluid path in fluid communication with a top drive and a second fluid path in communication with a diverter in selective fluid communication with a pipe stand associated with the drills string; a circulation sub configured to selectively isolate at least a portion of the pipe stand at a rig floor, the circulation sub receiving the drilling fluid from the diverter and including: an upper hydraulic chamber, an upper port in selective fluid communication with the upper hydraulic chamber, a lower hydraulic chamber, and a lower port in selective fluid communication with the lower hydraulic chamber; and at least one pressure sensor in pressure communication with at least one of: (i) the upper hydraulic chamber, and (ii) the lower hydraulic chamber; and at least one flow rate sensor in fluid communication with at least one of (i) the upper port, and (ii) the lower port. 2. The apparatus of claim 1 , wherein the continuous circulation device includes at least one sealing element configured to form a hydraulically isolated chamber in which at least a portion of the drill string is enclosed. 3. The apparatus of claim 1 , further comprising a valve in which at least a portion of the first fluid path and the second fluid path are formed, wherein the valve includes an upper circulation valve that selectively closes the first fluid path and a lower circulation valve that selectively closes the second fluid path. 4. The apparatus of claim 3 , further comprising a fluid circulation device configured to convey a drilling fluid through a fluid conduit that includes the first fluid path and the second fluid path. 5. A method for continuous flowing drilling fluid along a drill string, comprising: manipulating the drill string using a continuous circulation device having at least a first fluid path in fluid communication with a top drive and a second fluid path in communication with a diverter in selective fluid communication with a pipe stand associated with the drill string; and controlling the continuous circulation device using at least one sensor configured to estimate at least one operating parameter associated with the continuous circulation device; wherein the continuous circulation system includes a circulation sub configured to selectively isolate at least a portion of the pipe stand at the rig floor, the circulation sub including: an upper hydraulic chamber, an upper port in selective fluid communication with the upper hydraulic chamber, a lower hydraulic chamber, and a lower port in selective fluid communication with the lower hydraulic chamber; wherein the at least one sensor includes a pressure sensor in pressure communication with at least one of: (i) the upper hydraulic chamber, and (ii) the lower hydraulic chamber; and a flow rate sensor in fluid communication with at least one of (i) the upper port, and (ii) the lower port. 6. The method of claim 5 , wherein the continuous circulation device includes at least one sealing element configured to form a hydraulically isolated chamber in which at least a portion of the drill string is enclosed. 7. The method of claim 5 , wherein at least a portion of the first fluid path and the second fluid path are formed in a valve, wherein the valve includes an upper circulation valve that selectively closes the first fluid path and a lower circulation valve that selectively closes the second fluid path. 8. The method of claim 7 , further comprising conveying a drilling fluid through a fluid conduit that includes the first fluid path and the second fluid path using a fluid circulation device. 9. An apparatus for continuously flowing drilling fluid along a drill string, comprising: a continuous circulation device having at least a first fluid path in fluid communication with a top drive and a second fluid path in communication with a diverter in selective fluid communication with a pipe stand associated with the drills string; at least one sensor configured to estimate at least one operating parameter associated with the continuous circulation device; a circulation sub configured to selectively isolate at least a portion of the pipe stand at a rig floor, the circulation sub receiving the drilling fluid from the diverter and including: an upper hydraulic chamber, an upper port in selective fluid communication with the upper hydraulic chamber, a lower hydraulic chamber, and a lower port in selective fluid communication with the lower hydraulic chamber, wherein the at least one sensor includes: at least one pressure sensor in pressure communication with at least one of: (i) the upper hydraulic chamber, and (ii) the lower hydraulic chamber; and at least one flow rate sensor in fluid communication with at least one of (i) the upper port, and (ii) the lower port. 10. The apparatus of claim 9 wherein the at least one sensor further includes a position sensor providing an indication of a position of at least one of: (i) the top drive, (ii) a lower pipe stand, (iii) a position of a pin-box connection. 11. The apparatus of claim 10 , further comprising a controller configured to control the circulation sub using measurements from the position sensor. 12. The apparatus of claim 9 further comprising: a fluid control device that receives fluid from a rig drilling fluid circulation system; and a diverter in fluid communication with fluid circulation device, wherein the fluid control device selectively directs fluid flow to the top drive and the diverter.