Influence of localised smooth steps on the instability of a boundary layer

Xu, Hanlin; Lombard, Jean-Eloi; Sherwin, Spencer J.

doi:10.1017/jfm.2017.113

Cited by 22 publications

(13 citation statements)

References 83 publications

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“…Finite element methods [24][25][26][27] and the finite volume method [28,29] are very effective tools to solve some partial differential equations (PDEs) on complex geometries, which is applied in a wide range of engineering and biomedical disciplines [30][31][32][33][34]. In this paper, the finite volume method is implemented to calculate the NS equation.…”

Section: Resultsmentioning

confidence: 99%

Effects of Single-arc Blade Profile Length on the Performance of a Forward Multiblade Fan

Wei

Ying²,

Xu³

et al. 2019

Processes

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The effects of single-arc blade profile length on the performance of a forward multiblade fan are investigated in this paper by computational fluid dynamics and experimental measurement. The present work emphasizes that the use of a properly reduced blade inlet angle (β1A) and properly improved blade outlet angle (β2A) is to increase the length blade profile, which suggests a good physical understanding of internal complex flow characteristics and the aerodynamic performance of the fan. Numerical results indicate that the gradient of the absolute velocity among the blades in model-L (reducing the blade inlet angle and improving blade outlet angle) is clearly lower than that of the baseline model and model-S (improving the blade inlet angle and reducing blade outlet angle), where a number of secondary flows arise on the exit surface of baseline model and model-S. However, no secondary flow occurs in model-L, and the flow loss at the exit surface of the volute (scroll-shaped flow patterns) for model-L is obviously lower than that of the baseline model at the design point. The comparison of the test results further shows that to improve the blade profile length is to increase the static pressure and the efficiency of the static pressure, since the improved static pressure of the model-L rises as much as 22.5 Pa and 26.2%, and the improved static pressure efficiency of the model-L rises as much as 5 % at the design flow rates. It is further indicated that increasing the blade working area provides significant physical insight into increasing the static pressure, total pressure, the efficiency of the static pressure and the total pressure efficiency.

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Section: Resultsmentioning

confidence: 99%

Effects of Single-arc Blade Profile Length on the Performance of a Forward Multiblade Fan

Wei

Ying²,

Xu³

et al. 2019

Processes

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“…Through steady and unsteady simulations of the centrifugal fan based on computational fluid dynamics (CFD), the internal flow field of the centrifugal fan has attracted a large number of researchers [32][33][34][35][36][37][38][39][40][41][42]. The discrete format at steady calculations is SIMPLE; SIMPLE is also adopted at the unsteady simulations, and the second-order format is carried out in the steady and unsteady simulations.…”

Section: Numerical Verificationmentioning

confidence: 99%

Unsteady Characteristics of Forward Multi-Wing Centrifugal Fan at Low Flow Rate

Lun

Ye²,

Lin³

et al. 2019

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The unsteady flow characteristics of a forward multi-wing centrifugal fan under a low flow rate are studied using the computational fluid dynamics (CFD) method. This paper emphasizes the eddy current distribution in terms of the Q criterion method, as well as pressure fluctuation, frequency spectrum, and kinetic energy spectrum analysis of internal monitoring points in a forward multi-wing centrifugal fan. The numerical results show that abnormal eddies mainly appear at the volute outlet and near the volute tongue, boundary layer separation occurs near the suction surface of the blade, and shedding eddies appear at the trailing edge of the blade with the time evolution. The unsteady flow characteristics of a forward multi-wing centrifugal fan at a small flow rate provide significant physical insight into understanding the internal flow law.

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“…Recently, the instability methods using the spectral/hp element method have been employed for investigating the stability analysis of vortical flows and controlling wakes of flows past bluff bodies [82,83,84]. With the linearised Navier-Stokes equations, the interaction between instability waves and surface distortion in a 2-D and 3-D boundary layer have been precisely investigated [75,10,11].…”

Section: Hydrodynamic Stabilitymentioning

confidence: 99%

“…The spectral/hp element method is gaining increasing traction in the field of CFD [3], and it has achieved great success in both the direct and large eddy simulation (LES) of complex flows [7,8,9,10,11]. It has also been successfully applied to a broad range of other applications in various research fields, for instance, cardiac electrophysiology [12], solid mechanics [13,14], porous media [15] and oceanographic modelling [16].…”

Section: Introductionmentioning

confidence: 99%

Spectral/hp element methods: Recent developments, applications, and perspectives

Cantwell

Monteserin

et al. 2018

J Hydrodyn

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Abstract:The spectral/hp element method combines the geometric flexibility of the classical h-type finite element technique with the desirable numerical properties of spectral methods, employing high-degree piecewise polynomial basis functions on coarse finite element-type meshes. The spatial approximation is based upon orthogonal polynomials, such as Legendre or Chebychev polynomials, modified to accommodate a 0 -C continuous expansion. Computationally and theoretically, by increasing the polynomial order p , high-precision solutions and fast convergence can be obtained and, in particular, under certain regularity assumptions an exponential reduction in approximation error between numerical and exact solutions can be achieved. This method has now been applied in many simulation studies of both fundamental and practical engineering flows. This paper briefly describes the formulation of the spectral/hp element method and provides an overview of its application to computational fluid dynamics. In particular, it focuses on the use of the spectral/hp element method in transitional flows and ocean engineering. Finally, some of the major challenges to be overcome in order to use the spectral/hp element method in more complex science and engineering applications are discussed.

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Influence of localised smooth steps on the instability of a boundary layer

Cited by 22 publications

References 83 publications

Effects of Single-arc Blade Profile Length on the Performance of a Forward Multiblade Fan

Effects of Single-arc Blade Profile Length on the Performance of a Forward Multiblade Fan

Unsteady Characteristics of Forward Multi-Wing Centrifugal Fan at Low Flow Rate

Spectral/hp element methods: Recent developments, applications, and perspectives

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