Devices and methods for downhole acoustic imaging

What is claimed is: 1. A method of performing acoustic imaging comprising: disposing a carrier in a borehole in an earth formation, the carrier including an acoustic imaging device, the acoustic imaging device including a plurality of acoustic transducers, each transducer of the plurality of acoustic transducers having an associated orientation; selecting a target location, and selecting a group of transducers from the plurality of acoustic transducers to transmit an acoustic beam to be electronically directed to the target location; selecting a transducer from the group of transducers as a transmitter, the transmitter having an orientation toward a location proximate to the target location, and transmitting an acoustic signal only by the transmitter; detecting an acoustic return signal by the transmitter and by a plurality of other transducers in the group; estimating a travel time for each of the group of transducers, the travel time corresponding to the amount of time between transmitting the acoustic signal to the location and detecting the acoustic return signal, the estimating including measuring a travel time for each of the other transducers, and estimating a travel time for the transmitter based on the travel time for each of the other transducers; calculating a beamforming delay associated with the transmitter and the other transducers based on the travel time, the beamforming delay configured to cause the group of transducers to generate an acoustic beam that is directed to the target location. 2. The method of claim 1 , further comprising: transmitting an acoustic beam toward the target location by actuating each of the group of transmitters according to the beamforming delay associated with each transducer; and receiving reflected signals by one or more of the transducers and generating an image of at least one of the borehole and the earth formation based on the reflected signals. 3. The method of claim 1 , wherein the at least one transducer is a pair of adjacent transducers configured as a first transmitter oriented toward a first location and a second transmitter oriented toward a second location. 4. The method of claim 3 , wherein estimating includes estimating a first travel time for each of the group of transducers, the first travel time corresponding to the amount of time between transmitting the acoustic signal to the first location and detecting a first acoustic return signal from the first location, the second travel time corresponding to the amount of time between transmitting a second acoustic signal to the second location and detecting a second acoustic return signal from the second location. 5. The method of claim 4 , wherein the target location is between the first location and the second location, and calculating the travel time includes performing a linear interpolation of the first travel time and the second travel time. 6. The method of claim 1 , wherein calculating the beamforming delay includes identifying the lowest travel time and subtracting the lowest travel time from the travel time for each of the group of transducers. 7. The method of claim 1 , wherein detecting the return signal includes selecting a detection window representing a time period during which the return signal arrives at the group of transducers. 8. The method of claim 7 , wherein selecting the detection window includes comparing a waveform detected by the transmitter to waveforms detected by the other transducers, and identifying a ring down component of the waveform based on the comparison. 9. The method of claim 1 , wherein the plurality of transducers include a transducer array forming at least a semicircular shape, the array configured to emit acoustic signals in a radial direction relative to an axis of the carrier. 10. The method of claim 1 , wherein the beamforming delay is calculated during an acoustic imaging operation that includes sequentially scanning at least one of the borehole and the formation to generate an image, the beamforming delay calculated to at least one of: update previously configured beamforming delays for the group of transducers; and focus the acoustic beam toward a location of interest to generate a higher resolution image of the location of interest relative to the image generated via the scanning. 11. An apparatus for performing acoustic imaging comprising: a carrier configured to be disposed in a borehole in an earth formation, the carrier including an acoustic imaging device, the acoustic imaging device including a plurality of acoustic transducers, each transducer of the plurality of acoustic transducers having an associated orientation; and a processor configured to perform: selecting a target location, and selecting a group of transducers from the plurality of acoustic transducers to transmit an acoustic beam to be electronically directed to the target location; selecting a transducer from the group of transducers as a transmitter, the transmitter having an orientation toward a location proximate to the target location; sending a control signal to the transmitter, the control signal causing only the transmitter to transmit acoustic signal; receiving an acoustic return signal detected by the transmitter and by a plurality of other transducers in the group; estimating a travel time for each of the group of transducers, the travel time corresponding to the amount of time between transmitting the acoustic signal to the location and detecting the acoustic return signal, the estimating including measuring a travel time for each of the other transducers, and estimating a travel time for the transmitter based on the travel time for each of the other transducers; and calculating a beamforming delay associated with the transmitter and the other transducers based on the travel time, the beamforming delay configured to cause the group of transducers to generate an acoustic beam that is directed to the target location; and a delay circuit configured to apply the beamforming delay to a control signal sent by the processor to each of the group of transducers. 12. The apparatus of claim 11 , wherein the processor is further configured to perform: sending a control signal to a driver coupled to each of the group of transducers, the driver configured to actuate a respective transducer according to the control signal and the beamforming delay, the control signal causing the group of transducers to transmit an acoustic beam toward the target location; and receiving reflected signals detected by one or more of the transducers and generating an image of at least one of the borehole and the earth formation based on the reflected signals. 13. The apparatus of claim 11 , wherein the at least one transducer is a pair of adjacent transducers configured as a first transmitter oriented toward a first location and a second transmitter oriented toward a second location. 14. The apparatus of claim 13 , wherein estimating includes estimating a first travel time for each of the group of transducers, the first travel time corresponding to the amount of time between transmitting the acoustic signal to the first location and detecting a first acoustic return signal from the first location, the second travel time corresponding to the amount of time between transmitting a second acoustic signal to the second location and detecting a second acoustic return signal from the second location. 15. The apparatus of claim 14 , wherein the target location is between the first location and the second location, and estimating the travel time includes performing a linear interpolation of the first travel tim