Wireless communication system for monitoring of subsea well casing annuli

What is claimed is: 1. In a subsea hydrocarbon production system which comprises a wellhead housing mounted at the upper end of a well bore, a number of concentric well casings extending from the wellhead housing through the well bore, including an innermost casing through which a hydrocarbon fluid is produced, and a plurality of casing annuli formed between successive ones of the wellhead housing and the well casings, an improvement comprising a monitoring system for monitoring a parameter existing in at least one of the casing annuli which comprises: an interrogation package which is operable to wirelessly transmit an interrogation signal; and at least one sensing package which is located in a corresponding casing annulus and which includes at least one sensor for sensing the parameter, the sensing package being operable to wirelessly receive the interrogation signal and in response thereto wirelessly transmit a response signal to the interrogation package which is indicative of the parameter sensed by the sensor; wherein the interrogation package communicates with the at least one sensing package using near-field magnetic induction (NFM) signals. 2. The subsea hydrocarbon production system of claim 1 , wherein the interrogation package is located externally of the wellhead housing. 3. The subsea hydrocarbon production system of claim 2 , wherein the sensing package is located in one of the casing annuli. 4. The subsea hydrocarbon production system of claim 3 , wherein the interrogation signals are transmitted directly between the interrogation package and the sensing package. 5. The subsea hydrocarbon production system of claim 2 , wherein the at least one sensing package comprises a plurality of sensing packages, each of which is located in a corresponding casing annulus. 6. The subsea hydrocarbon production system of claim 1 , wherein each sensing package comprises a plurality of sensors for monitoring corresponding parameters in the casing annuli. 7. The subsea hydrocarbon production system of claim 1 , further comprising means for powering the interrogation package. 8. The subsea hydrocarbon production system of claim 1 , further comprising means for powering the sensing package. 9. The subsea hydrocarbon production system of claim 8 , wherein the means for powering the sensing package comprises a transmitter for generating an AC magnetic field, a receiver which is exposed to the magnetic field and which in response thereto generates an AC current, and an energy storage device which is charged by the current, wherein the energy storage device powers the sensing package. 10. The subsea hydrocarbon production system of claim 9 , wherein the transmitter is located in the interrogation package. 11. The subsea hydrocarbon production system of claim 9 , wherein the energy storage device is continuously charged by the current and the power stored in the energy storage device is expended by the sensing device in a single burst. 12. The subsea hydrocarbon production system of claim 1 , wherein the plurality of casing annuli comprises at least an A annulus and a B annulus, and wherein the interrogation package is located in the A annulus and the sensing package is located in the B annulus. 13. The subsea hydrocarbon production system of claim 1 , wherein the plurality of casing annuli comprises at least an A annulus, a B annulus and a C annulus, and wherein the interrogation package is located in the A annulus and the sensing package is located in the C annulus. 14. In a subsea hydrocarbon production system which comprises a wellhead housing mounted at the upper end of a well bore, a number of concentric well casings extending from the wellhead housing through the well bore, including an innermost casing through which a hydrocarbon fluid is produced, and a plurality of casing annuli formed between successive ones of the wellhead housing and the well casings, an improvement comprising a monitoring system for monitoring a parameter existing in at least one of the casing annuli which comprises: an interrogation package which is operable to wirelessly transmit an interrogation signal; and at least one sensing package which is located in a corresponding casing annulus and which includes at least one sensor for sensing the parameter, the sensing package being operable to wirelessly receive the interrogation signal and in response thereto wirelessly transmit a response signal to the interrogation package which is indicative of the parameter sensed by the sensor; wherein the interrogation package is located externally of the wellhead housing, the at least one sensing package comprises a plurality of sensing packages, each of which is located in a corresponding casing annulus, and the interrogation signals are transmitted between the interrogation package and the sensing packages using a multi-hop signal transmission technique; and wherein the interrogation package communicates with a radially adjacent sensing package and the sensing packages communicate with each other using near-field magnetic induction (NFM) signals. 15. In a subsea hydrocarbon production system which comprises a wellhead housing mounted at the upper end of a well bore, a number of concentric well casings extending from the wellhead housing through the well bore, including an innermost casing through which a hydrocarbon fluid is produced, and a plurality of casing annuli formed between successive ones of the wellhead housing and the well casings, an improvement comprising a monitoring system for monitoring a parameter existing in at least one of the casing annuli which comprises: an interrogation package which is operable to wirelessly transmit an interrogation signal; and at least one sensing package which is located in a corresponding casing annulus and which includes at least one sensor for sensing the parameter, the sensing package being operable to wirelessly receive the interrogation signal and in response thereto wirelessly transmit a response signal to the interrogation package which is indicative of the parameter sensed by the sensor; wherein the interrogation package is located within the innermost casing; and wherein the interrogation package communicates with the at least one sensing package using near-field magnetic induction (NFM) signals. 16. The subsea hydrocarbon production system of claim 15 , wherein the sensing package is located in one of the casing annuli. 17. The subsea hydrocarbon production system of claim 16 , wherein the interrogation signals are transmitted directly between the interrogation package and the sensing package. 18. The subsea hydrocarbon production system of claim 15 , wherein the at least one sensing package comprises a plurality of sensing packages, each of which is located in a corresponding casing annulus. 19. In a subsea hydrocarbon production system which comprises a wellhead housing mounted at the upper end of a well bore, a number of concentric well casings extending from the wellhead housing through the well bore, including an innermost casing through which a hydrocarbon fluid is produced, and a plurality of casing annuli formed between successive ones of the wellhead housing and the well casings, an improvement comprising a monitoring system for monitoring a parameter existing in at least one of the casing annuli which comprises: an interrogation package which is operable to wirelessly transmit an interrogation signal; and at least one sensing package which is located in a corresponding casing annulus and which includes at least on