System and method for measuring rising velocity and deformation of bubble in viscous fluid

What is claimed is: 1. A system for measuring a rising velocity and a deformation of a bubble in a viscous fluid, comprising: a sample cell configured to hold the viscous fluid; a variable-diameter syringe provided at a bottom of the sample cell and configured to generate the bubble in the viscous fluid; two ultrasonic transmitting and receiving transducers arranged at different heights of the sample cell and configured to transmit respective first ultrasonic signals to the viscous fluid and receive respective second ultrasonic signals reflected by the bubble, wherein the respective second ultrasonic signal received by a first ultrasonic transmitting and receiving transducer of the two ultrasonic transmitting and receiving transducers is formed by the bubble reflecting the respective first ultrasonic signal transmitted by the first ultrasonic transmitting and receiving transducer, and wherein the respective second ultrasonic signal received by a second ultrasonic transmitting and receiving transducer of the two ultrasonic transmitting and receiving transducers is formed by the bubble reflecting the respective first ultrasonic signal transmitted by the second ultrasonic transmitting and receiving transducer; and a host computer configured to analyze time-domain information of the second ultrasonic signals received by the two ultrasonic transmitting and receiving transducers, calculate the rising velocity of the bubble, build a mathematical model about a bubble size and a reflected sound pressure, analyze frequency-domain information of the second ultrasonic signals received by the two ultrasonic transmitting and receiving transducers, and calculate the deformation of the bubble. 2. The system for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 1 , wherein the rising velocity of the bubble is calculated by calculating a time difference of the second ultrasonic signals received by the two ultrasonic transmitting and receiving transducers and dividing a height difference of the two ultrasonic transmitting and receiving transducers by the time difference to acquire the rising velocity of the bubble. 3. The system for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 2 , wherein the deformation of the bubble is calculated by substituting reflected sound pressures of the second ultrasonic signals received by the two ultrasonic transmitting and receiving transducers into the mathematical model to acquire two bubble sizes and calculating a difference between the two bubble sizes to acquire the deformation of the bubble. 4. The system for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 3 , wherein the mathematical model is: y= 0.0987 x+ 0.0135, wherein y denotes the reflected sound pressure and x denotes a diameter of the bubble. 5. The system for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 3 , wherein the host computer further corrects the rising velocity of the bubble according to the bubble sizes by: subtracting the difference between the two bubble sizes from the height difference to acquire a corrected height difference and dividing the corrected height difference by the time difference to acquire a corrected rising velocity of the bubble. 6. The system for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 1 , wherein the mathematical model is: y= 0.0987 x+ 0.0135, wherein y denotes the reflected sound pressure and x denotes a diameter of the bubble. 7. The system for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 1 , further comprising a pulse transmitting and receiving device, wherein the pulse transmitting and receiving device is electrically connected to the two ultrasonic transmitting and receiving transducers and the host computer and configured to provide first pulse signals to be converted into the first ultrasonic signals by the two ultrasonic transmitting and receiving transducers, receive second pulse signals converted from the second ultrasonic signals received by the two ultrasonic transmitting and receiving transducers, and upload the second pulse signals to the host computer. 8. A method for measuring a rising velocity and a deformation of a bubble in a viscous fluid, comprising: S1: generating the bubble at a bottom of the viscous fluid; S2: transmitting, respective first ultrasonic signals at a first height and a second height of the viscous fluid, receiving at the first height a respective second ultrasonic signal formed by the bubble reflecting the respective first ultrasonic signal transmitted at the first height, and receiving at the second height a respective second ultrasonic signal formed by the bubble reflecting the respective first ultrasonic signal transmitted at the second height; and S3: analyzing time-domain information of the second ultrasonic signals, calculating the rising velocity of the bubble, building a mathematical model about a bubble size and a reflected sound pressure, analyzing frequency-domain information of the second ultrasonic signals, and calculating the deformation of the bubble. 9. The method for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 8 , wherein the rising velocity of the bubble is calculated by calculating a time difference of the second ultrasonic signals received by the two ultrasonic transmitting and receiving transducers and dividing a height difference of the two ultrasonic transmitting and receiving transducers by the time difference to acquire the rising velocity of the bubble. 10. The method for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 9 , wherein the deformation of the bubble is calculated by substituting reflected sound pressures of the second ultrasonic signals received by the two ultrasonic transmitting and receiving transducers into the mathematical model to acquire two bubble sizes and calculating a difference between the two bubble sizes to acquire the deformation of the bubble. 11. The method for measuring the rising velocity and the deformation of the bubble in the viscous fluid according to claim 10 , wherein after S3, the method further comprises S4: correcting the rising velocity of the bubble according to the bubble sizes by subtracting the difference between the two bubble sizes from the height difference to acquire a corrected height difference and dividing the corrected height difference by the time difference to acquire a corrected rising velocity of the bubble.