TY - JOUR UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85141323402&doi=10.1016%2fj.measurement.2022.112152&partnerID=40&md5=4227dbf5108ad082da54b7e201347fe5 VL - 205 N2 - A real-time in-line rheological measurement is essential in many sectors to investigate and monitor the performance of the unit, process, and transportation operations. Ultrasound velocity profiling (UVP) technique, combined with pressure differential (PD) data, is among the effective technologies for in-line rheological measurement. This paper reviews and summarizes the basic principle of UVP-PD measurement along with the factors affecting this tool's performance. The working mechanism of a typical UVP-PD-based experimental setup, according to published literature combined with its limitation, is also discussed in this paper. In addition, a brief description of the experimental procedure used hardware; and data gathering and processing process, along with the expected outcome, are provided. A brief overview of all the published literature on the UVP-PD method is presented per the scope of their industrial applications. Finally, the prospective with the recommendation of this tool application and improvement for precise measurement and analysis are highlighted. © 2022 Elsevier Ltd ID - scholars16125 AV - none N1 - cited By 0 Y1 - 2022/// TI - Ultrasound velocity profiling technique for in-line rheological measurements: A prospective review KW - Data handling; Rheology; Ultrasonic velocity; Ultrasonic waves KW - Flow behaviours; Fluid flow behavior; Fluid-flow; Pressure differential; Prospectives; Real- time; Rheological measurements; Ultra-sound velocities; Velocity profiles; Velocity profiling KW - Flow of fluids PB - Elsevier B.V. JF - Measurement: Journal of the International Measurement Confederation A1 - Krishna, S. A1 - Thonhauser, G. A1 - Kumar, S. A1 - Elmgerbi, A. A1 - Ravi, K. SN - 02632241 ER -