A hybrid RANS model of wing-body junction flow

Rona, Aldo; El-Dosoky, M.F.; Adebayo, David S.

doi:10.1016/j.euromechflu.2019.09.014

Cited by 4 publications

(3 citation statements)

References 27 publications

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“…With the development of the computer performance, both the calculation accuracy and speed have improved significantly. Computational Fluid Dynamics (CFD) is currently the most efficient method for analyzing the flow and flow-induced noise [49][50][51][52]. It is worh noting that the empirical model and assumption are used in the simulation process, so the experimental validation is essential.…”

Section: Numerical Simulation Studymentioning

confidence: 99%

A Review of the Flow-Induced Noise Study for Centrifugal Pumps

Guo

Gao

2020

Applied Sciences

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Flow-induced noise is a significant concern for the design and operation of centrifugal pumps. The negative impacts of flow-induced noise on operating stability, human health and the environment have been shown in many cases. This paper presents a comprehensive review of the flow-induced noise study for centrifugal pumps to synthesize the current study status. First, the generation mechanism and propagation route of flow-induced noise are discussed. Then, three kinds of study methodologies, including the theoretical study of hydrodynamic noise, numerical simulation and experimental measurement study, are summarized. Subsequently, the application of the three study methodologies to the analysis of the distribution characteristics of flow-induced noise is analyzed from aspects of the noise source identification and comparison, the frequency response analysis, the directivity characteristics of sound field and the noise changing characteristics under various operating conditions. After that, the analysis of the noise optimization design of centrifugal pumps is summarized. Finally, based on previous study results, this paper puts forward the unsolved problems and implications for future study. In conclusion, the information collected in this review paper could guide further study of the flow-induced noise of centrifugal pumps.

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Section: Numerical Simulation Studymentioning

confidence: 99%

A Review of the Flow-Induced Noise Study for Centrifugal Pumps

Guo

Gao

2020

Applied Sciences

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“…The interaction of the separation flow and the downflow generates a system of horseshoe vortices that envelope the base of the obstacle. Horseshoe vortex structures are unstable, change their shape, number, circulation and location, interact with each other and the streamlined surface, pair and break under the action of Reynolds and viscous stresses ( Rona et al., 2020 ; Robison et al., 2021 ; Qi et al., 2022 ; Lin and Wu, 2022 ). On the lateral sides of the bluff body, separated shear layers are formed.…”

Section: Introductionmentioning

confidence: 99%

“…In recent years, many studies have been carried out on the research of vortex and jet flows between single and group structures of bluff bodies and junction flows, both by numerical and experimental methods. RANS, DNS, LES and DES methods with various turbulence models k-ε, k-ω, k-g, SSD and others were used for numerical simulations ( Duraisamy et al., 2019 ; Rona et al., 2020 ; Chang et al., 2020 ; Chen et al., 2020a , 2020b ; Monti et al., 2020 ; Robison et al., 2021 ; Koken and Constantinescu, 2021 ; Hassan and Jalal, 2021 ; Zhao et al., 2022 ). Experimental studies of the fields of velocity, pressure, temperature and other parameters were carried out using a wide variety of sensors, measuring systems and equipment for recording, processing and analyzing data ( Bateni et al., 2019 ; Gautam et al., 2019 ; Galan et al., 2019 ; Hamed et al., 2019 ; Priyanka et al., 2019 ; Guan et al., 2019 ; Karimaei and Zarrati, 2019 ; Zuccarello et al., 2020 ; Yang et al., 2020 , 2021 ).…”

Section: Introductionmentioning

confidence: 99%