Apparatus, system and process for characterizing multiphase fluids in a fluid flow stream

The invention claimed is: 1. A system for determining characteristics of a multiphase fluid, the system comprising: a pipe; and multiple pairs of transducers positioned circumferentially around the pipe, wherein each pair of transducers includes a transmitting transducer and a receiving transducer, wherein the transmitting transducer of each pair of transducers is oriented to transmit a respective acoustic signal toward the receiving transducer of the pair of transducers, wherein the transmitting transducer of each pair of transducers is operable to transmit the respective acoustic signal sequentially with respect to other transmitting transducers of the multiple pairs of transducers, and wherein a reception of a first acoustic signal transmitted by a transmitting transducer of a first pair transducers of the multiple pairs of transducers is completed by a receiving transducer of the first pair transducers before a transmitting transducer of another pair of transducers of the multiple pairs of transducers transmits a second acoustic signal. 2. The system of claim 1 , further comprising a multiphase fluid flowing through the pipe, wherein a travel time of an acoustic signal from a transmitting transducer of a pair of transducers to a receiving transducer of the corresponding pair of transducers is dependent on a composition of a portion of the multiphase fluid traversed by the acoustic signal. 3. The system of claim 1 , further comprising a signal processing device to control sequential generation of the acoustic signals by the transmitting transducers of the multiple pairs of transducers. 4. The system of claim 3 , wherein the transmitting transducer of each pair of transducers generates the respective acoustic signal based on an electrical signal provided to the transmitting transducer. 5. The system of claim 4 , wherein the electrical signal includes an electrical pulse. 6. The system of claim 3 , wherein the signal processing device is configured to: receive electrical signals from the receiving transducers of the multiple pairs of transducers; to generate an output electrical signal indicative of travel times of the acoustic signals through the multiphase fluid. 7. The system of claim 6 , further comprising a data processing device configured to receive the output electrical signal and to determine characteristics of the multiphase fluid. 8. The system of claim 1 , wherein a wall of the pipe has a plurality of openings, wherein each transducer of the multiple pairs of transducers is positioned at a respective opening of the plurality of openings to be exposed to a multiphase fluid in the pipe through the respective opening of the plurality of openings. 9. The system of claim 1 , wherein flow characteristics of a multiphase fluid flowing through a pipe are estimated based on the travel times of acoustic signals transmitted by transmitting transducers of the multiple pairs of transducers and received by receiving transducers of the multiple pairs of transducers. 10. A system for measuring characteristics of a multiphase fluid, the system comprising: an inner pipe; an outer pipe, wherein the inner pipe is positioned within the outer pipe, the inner pipe and the outer pipe defining an annular space; and a plurality of transducers positioned circumferentially around the inner pipe, wherein each transducer is configurable to operate as a transmitting transducer and a receiving transducer, wherein each transducer is oriented to transmit an acoustic signal toward the outer pipe such that the acoustic signal is reflected off the outer pipe toward the transducer for reception by the transducer. 11. The system of claim 10 , further comprising a multiphase fluid within the annular space, wherein a travel time of the acoustic signal from each transducer to the outer pipe and back to the transducer is dependent on a composition of a portion of the multiphase fluid traversed by the respective acoustic signal, and wherein characteristics of the multiphase fluid are determined based on the travel time of the acoustic signal transmitted by each transducer. 12. The system of claim 11 , further comprising a signal processing device to control sequential transmissions of acoustic signals by the transducers, wherein a first transducer of the plurality of transducers transmits a first acoustic signal and receives the first acoustic signal reflected off the outer pipe before another acoustic signal is transmitted by remaining one or more transducers of the plurality of transducers. 13. The system of claim 11 , wherein two or more transducers of the plurality of transducers transmit acoustic signals substantially simultaneously. 14. The system of claim 10 , wherein each transducer generates an output electrical signal based on the acoustic signal transmitted by the transducer and received by the transducer after being reflected off the outer pipe and wherein the output electrical signal is provided to a signal processing device. 15. The system of claim 14 , wherein each transducer generates an acoustic signal based on an electrical signal generated by the signal processing device and provided to the transducer. 16. A method for determining characteristics of a multiphase fluid, the system comprising: transmitting a first acoustic signal by a first transmitting transducer; receiving the first acoustic signal by a first receiving transducer; transmitting a second acoustic signal by a second transmitting transducer after receiving the first acoustic signal by the first receiving transducer; receiving the second acoustic signal by a second receiving transducer; determining a travel time of the first acoustic signal through a first portion of a multiphase fluid; and determining a travel time of the second acoustic signal through a second portion of the multiphase fluid, wherein the first transmitting transducer, the first receiving transducer, the second transmitting transducer, and the second receiving transducer are positioned circumferentially around the pipe. 17. The method of claim 16 , wherein the first transmitting transducer and the first receiving transducer are positioned diametrically opposite each other, wherein the second transmitting transducer and the second receiving transducer are positioned diametrically opposite each other, and wherein the multiphase fluid flows through the pipe. 18. The method of claim 16 , wherein the pipe is positioned within an outer pipe, wherein the multiphase fluid flows in an annular space between a wall of the inner pipe and a wall of the outer pipe, and wherein the first transmitting transducer and the first receiving transducer are the same transducer operable to transmit the first acoustic signal and to receive the first acoustic signal reflected of the wall of the outer pipe. 19. The method of claim 16 , further comprising: providing a first electrical signal to the first transmitting transducer such that the first transmitting transducer generates the first acoustic signal; and receiving a second electrical signal from the first receiving transducer, wherein the second electrical signal is generated by the first receiving transducer based on the first acoustic signal. 20. The method of claim 19 , further comprising: determining characteristics of the multiphase phase fluid based on a travel time of the first acoustic signal through a first portion of the multiphase fluid and based on a travel time of a second acoustic signal through a second portion of the multiphase fluid.