Method and system for determination of pipe location in blowout preventers

What is claimed is: 1. A system to detect a position of a pipe with respect to a blowout preventer (BOP), comprising: a casing configured to be disposed around an outer surface of a section of the pipe, wherein a length of the casing is greater than or equal to a length of the section of the pipe; a plurality of ultrasound sensing devices configured to generate a plurality of position signals, wherein the plurality of sensing devices are arranged to form a plurality of arrays of sensing devices and wherein each of the plurality of arrays is disposed circumferentially around the casing and spaced from one another along the length of the casing; and a processing unit configured to: compute a distance between the pipe and each of the plurality of sensing devices based on the plurality of position signals; generate a first alert when the distance of the pipe determined from at least one sensing device is different from a reference distance between the pipe and the sensing devices; and generate a second alert when the distance between the pipe and each sensing device of at least one array of sensing devices is different from the reference distance between the pipe and sensing devices. 2. The system of claim 1 , wherein the reference distance between the pipe and sensing devices comprises a distance between the pipe and at least one sensing device of the plurality of sensing devices. 3. The system of claim 2 , wherein the processing unit is further configured to: compare an average distance between each of a first set of arrays and the pipe, wherein the distances between each sensing device in each array of the first set of arrays and the pipe is equal to the distance between remaining sensing devices of the respective array and the pipe; and select an average distance that is greater than remaining average distances as the reference distance. 4. The system of claim 1 , wherein the reference distance between the pipe and sensing devices comprises a predetermined distance between a reference pipe and the sensing devices. 5. The system of claim 1 , wherein the reference distance between the pipe and sensing devices comprises a distance provided by an operator. 6. The system of claim 1 , wherein the plurality of position signals comprises a response of the pipe to incident ultrasound signals that are transmitted by the plurality of sensing devices, and wherein the distance of the pipe is determined from the time taken by the sensing devices to collect the response of the pipe to the incident ultrasound signals. 7. The system of claim 1 , further comprising a data repository configured to store prior pipe distance information with respect to the sensing devices. 8. The system of claim 7 , wherein the processing unit is configured to compare the distance of the pipe with respect to the plurality of sensing devices determined from the plurality of position with the prior pipe distance information. 9. The system as recited in claim 8 , further comprising a calibration unit configured to calibrate the plurality of sensing devices when a difference between the prior pipe distance and the distance of the pipe with respect to each sensing device determined from the plurality of position signals is the same. 10. A system to detect a position of a pipe with respect to a blowout preventer (BOP) comprising: a casing configured to be disposed around an outer surface of a section of the pipe, wherein a length of the casing is greater than or equal to a length of the section of the pipe; a plurality of radio frequency transmitters configured to generate plurality of position signals, wherein the plurality of radio frequency transmitters are arranged to form a plurality of arrays of radio frequency transmitters and wherein each of the plurality of arrays is disposed circumferentially around the casing and spaced from one another along the length of the casing; and a processing unit configured to: compute a distance between the pipe and each of the plurality of radio frequency transmitters based on the plurality of position signals; generate a first alert when the distance of the pipe determined from at least one radio frequency transmitter is different from a reference distance between the pipe and the radio frequency transmitters; and generate a second alert when the distance between the pipe and each radio frequency transmitter of at least one array of radio frequency transmitters is different from the reference distance between the pipe and radio frequency transmitters. 11. The system of claim 10 , further comprising a radio frequency identification token that is placed at a predefined location on the pipe. 12. The system of claim 11 , wherein the plurality of position signals comprises a response of the radio frequency identification token to interrogation signals transmitted by the radio frequency transmitters, and wherein the distance of the pipe is determined from a strength of the response of the radio frequency identification token to the interrogation signals. 13. A method for monitoring a position of a pipe with respect to a blow-out preventer (BOP), comprising: receiving a plurality of position signals including a response to ultrasound signals transmitted by a plurality of ultrasound sensing devices, wherein the plurality of sensing devices are disposed on a casing to form a plurality of arrays of sensing devices along the length of the casing, and wherein the casing is disposed on an outer surface of a section of the pipe; computing a reference distance between the plurality of sensing devices and the section of the pipe; comparing a distance between each sensing device and the pipe with the reference distance; and generating at least one of a plurality of alerts when the reference distance is greater than at least one of a distance between at least one sensing device and the pipe or an average distance between sensing devices of at least one array and the pipe. 14. The method of claim 13 , wherein comparing the plurality of position signals comprises comparing time taken to receive the response from the pipe to the ultrasound signal transmitted by each of the plurality of sensing devices. 15. The method of claim 13 , further comprising generating an alert when the determined position of the pipe with respect to the BOP is different from an initial position of the pipe with respect to the BOP. 16. A method for monitoring a position of a pipe with respect to a blow-out preventer (BOP), comprising: receiving a plurality of position signals including a response to a radio frequency interrogation signal transmitted by each of the plurality of sensing devices, wherein the plurality of sensing devices are disposed on a casing to form a plurality of arrays of sensing devices along the length of the casing, and wherein the casing is disposed on an outer surface of a section of the pipe; computing a reference distance between the plurality of sensing devices and the section of the pipe; comparing a distance between each sensing device and the pipe with the reference distance; and generating at least one of a plurality of alerts when the reference distance is greater than at least one of a distance between at least one sensing device and the pipe or an average distance between sensing devices of at least one array and the pipe. 17. The method of claim 16 , wherein comparing the plurality of position signals comprises comparing strength of the response to the radio frequency interrogation signal transmitted by each of the plurality of sensing devices. 18. A sy