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An Ultrasonic Transmission/Reflection Mode Tomography for Two-Phase Flow Measurement | ||
International Journal of Industrial Electronics Control and Optimization | ||
مقاله 6، دوره 5، شماره 3، دی 2022، صفحه 261-267 اصل مقاله (998.47 K) | ||
نوع مقاله: Research Articles | ||
شناسه دیجیتال (DOI): 10.22111/ieco.2022.42396.1430 | ||
نویسندگان | ||
Omid Qorbani1؛ Esmaeil Najafiaghdam* 2 | ||
1Sahand University Of Technology - Sahand City -Tabriz-Iran | ||
2Sahand University Of Technology - Sahand City -Tabriz-Iran P.O.B.: 5331811111 | ||
چکیده | ||
Ultrasonic process tomography obtains the distribution of the two-phase flow based on ultrasound propagation in different fluids, thus is valuable to industrial monitoring and measurement. Ultrasonic process tomography can do a non-intrusively exploration of the multi-phase flow hydrodynamics. In this paper, a dual-mode ultrasonic process tomography is presented that fuses by reflection-mode tomography and time-of-flight ultrasonic tomography. In this method, a 32-digit array of ultrasonic sensors have been used for flow measurement. The two-phase flow rate that involves liquid and gas phases, have been calculated through a simple algebraic algorithm with obtained data from sensors. Simulation results depict that the measurement technique is independent of the fluid flow pattern and the system error also has been decreased. The invention of the article is about a simple algebraic method for image reconstruction which a special case is not considered in it and simultaneously, the image reconstruction error has been reduced. The relative error of the reconstructed images is presented by MATLAB simulation and it is much lower than the conventional methods. For a gas bubble with ultrasonic wave reflection time from its surface, the simulation results depict the SIE factor is less than 2%. | ||
کلیدواژهها | ||
Multiphase Flow؛ Reflection-Mode Tomography؛ Ultrasonic Tomography | ||
مراجع | ||
[1] Bidar, Bahareh, et al. "Soft Sensor Development for Monitoring ASTM-D86 Index: Effect of Feed Flow Rate Change." International Journal of Industrial Electronics Control and Optimization 4.2: 211-220, 2021.
[2] Ismail, Idris, et al. "Tomography for multi-phase flow measurement in the oil industry." Flow measurement and instrumentation 16.2-3: 145-155, 2005. [3] Kirillov, K. M., et al. "An ultrasonic flowmeter for viscous liquids." Measurement Techniques 57.5: 533-536, 2014. [4] Li, Nan, and Kun Xu. "Simulation study on ultrasonic tomography in bubbly gas/liquid two-phase flow." 2017 IEEE International Conference on Imaging Systems and Techniques (IST). IEEE, 2017. [5] Qorbani, Omid, and Esmaeil Najafi Aghdam. "Two-Phase Flow Measuring with Ultrasonic Tomography." Archives of Acoustics: 459-465, 2020. [6] Rymarczyk, Tomasz, et al. "Image reconstruction methods in radio and ultrasound tomography." 2018 International Interdisciplinary PhD Workshop (IIPhDW). IEEE, 2018. [7] Safonov, A. V. "Experience with the use of ultrasonic flowmeters in systems for measuring the quantity and quality of petroleum." Measurement Techniques 57.4: 458-460, 2014. [8] Wahab, Y. Abdul, et al. "Application of transmission-mode ultrasonic tomography to identify multiphase flow regime." International Conference on Electrical, Control and Computer Engineering 2011 (InECCE). IEEE, 2011. [9] Duan, Xi, Panagiotis Koulountzios, and Manuchehr Soleimani. "Dual modality EIT-UTT for water dominate three phase material imaging." IEEE Access 8: 14523-14530, 2020. [10] Wang, Mi, ed. Industrial tomography: systems and applications. Elsevier, 2015. [11] Xu, Lijun, et al. "Application of ultrasonic tomography to monitoring gas/liquid flow." Chemical Engineering Science 52.13: 2171-2183, 1997. [12] Hanus, Robert, et al. "Evaluation of liquid-gas flow in pipeline using gamma-ray absorption technique and advanced signal processing." Metrology and Measurement Systems: 145-159, 2021. [13] Cailly, William, et al. "Pipe two-phase flow non-invasive imaging using Ultrasound Computed Tomography: A twodimensional numerical and experimental performance assessment." Flow Measurement and Instrumentation 74: 101784, 2020. [14] Camacho, Jorge, et al. "Multimodal ultrasonic imaging for breast cancer detection." Archives of Acoustics 37: 253 260, 2012. [15] Opieliński, Krzysztof, et al. "Ultrasound transmission tomography imaging of structure of breast elastography phantom compared to US, CT and MRI." Archives of Acoustics 38.3: 321-334, 2013. [16] Rahiman, Mohd Hafiz Fazalul, Ruzairi Abdul Rahim, and Nor Muzakkir Nor Ayob. "The front-end hardware design issue in ultrasonic tomography." IEEE Sensors Journal 10.7: 1276-1281, 2010. [17] Liang, Fachun, et al. "Gas–liquid two-phase flow pattern identification by ultrasonic echoes reflected from the inner wall of a pipe." Measurement Science and Technology 27.3: 035304, 2016. [18] Goh, C. L., et al. "Ultrasonic tomography system for flow monitoring: A review." IEEE Sensors Journal 17.17: 53825390, 2017. [19] Langener, Sascha, et al. "A real-time ultrasound process tomography system using a reflection-mode reconstruction technique." Flow Measurement and Instrumentation 53: 107-115, 2017. [20] Rokhana, Rika, and Santi Anggraini. "Using of array of 8 ultrasonic transducers On accoustic tomography for image reconstruction." 2015 International Electronics Symposium (IES). IEEE, 2015. [21] Staszewski, Wiktor, Tadeusz Gudra, and Krzysztof J. Opieliński. "The effect of dynamic beam deflection and focus shift on the acoustic field distribution inside the ultrasonic ring array." Archives of Acoustics: 625-636, 2019. [22] Tan, Chao, et al. "An ultrasonic transmission/reflection tomography system for industrial multiphase flow imaging." IEEE Transactions on Industrial Electronics 66.12: 9539-9548, 2019.
[23] Dobrucki, A. B., and K. J. Opieliński. "Adaptation of image reconstruction algorithm for purposes of ultrasound transmission tomography (UTT)." Archives of Acoustics 25.4: 2000. [24] Rupitsch, Stefan J. "Piezoelectric sensors and actuators." Simulation of Piezoelectric Sensor and Actuator Devices. In: Piezoelectric Sensors and Actuators. Topics in Mining, Metallurgy and Materials Engineering: 83-126, 2019. [25] Taghvayi, Ebrahim, and Mohammad Reza Karafi. "A New Method to Detect and Track the Resonance Frequency of Piezoelectric Transducers in Ultrasonic Power Supplies." International Journal of Industrial Electronics Control and Optimization 4.4: 409-416, 2021. [26] Ng, Alexander, and Justiaan Swanevelder. "Resolution in ultrasound imaging." Continuing Education in Anaesthesia Critical Care & Pain 11.5: 186-192, 2011. [27] Bratland, Ove. "Pipe flow 2: multi-phase flow assurance." 41-59, 2010. [28] Pratt V. Direct least-squares fitting of algebraic surfaces. ACM SIGGRAPH computer graphics. 1;21(4):145-52, Aug. 1987. [29] Besic, Nikola, et al. "Zernike ultrasonic tomography for fluid velocity imaging based on pipeline intrusive time offlight measurements." IEEE transactions on ultrasonics, ferroelectrics, and frequency control 61.11: 1846-1855, 2014. [30] Rahiman, MH Fazalul, R. Abdul Rahim, and Z. Zakaria. "Design and modelling of ultrasonic tomography for twocomponent high-acoustic impedance mixture." Sensors and Actuators A: Physical 147.2: 409-414, 2008. | ||
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