Mathematical model and analysis method for flowfield separation and transition

Peng, Yue; Xiao, Jingping; Xu, Ke; Li, Ming; Jiang, Feng; Lu, Yiyu; Peng, Dewei

doi:10.1063/5.0047401

Cited by 6 publications

(3 citation statements)

References 55 publications

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“…According to the theory of fluid mechanics, the basic governing equations describing the flow field can be expressed as follows [23,24]:…”

Section: Governing Equationmentioning

confidence: 99%

Research on the Capillary Filling Behavior of Liquid Solder Al-12Si under the Action of Electromagnetic Ultrasonic Wave

Chen,

Gao,

Zhang

et al. 2024

Applied Sciences

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To address the issues of high cost, low welding efficiency, and complex processes in vacuum brazing, we proposed a method of electromagnetic ultrasonic (EU)-assisted brazing with Al-12Si solder to join SiC ceramic and TC4 alloy. The results showed that the maximum magnetic induction strength (MIS) on the surface of the liquid solder was 0.629 T when subjected to a static and alternating magnetic field (MF). Additionally, the combined action of MF and eddy current generated a downward Lorentz force (LF) in the liquid solder, with the maximum LF in the horizontal and vertical directions being 48.91 kN m−3 and 60.93 kN m−3, respectively. Under the influence of an EU wave, the liquid solder exhibited capillary filling (CF) behavior. At 26 ms, the maximum length of CF was 12.21 mm.

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“…According to the theory of fluid mechanics, the basic governing equations describing the flow field can be expressed as follows [23,24]:…”

Section: Governing Equationmentioning

confidence: 99%

Research on the Capillary Filling Behavior of Liquid Solder Al-12Si under the Action of Electromagnetic Ultrasonic Wave

Chen,

Gao,

Zhang

et al. 2024

Applied Sciences

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“…This has limited the development of flow control [17][18], aircraft design [19][20], and wind tunnel experiments [21][22]. Therefore, a critical factor in advancing the resolution of the issues mentioned above will be the development of a flow analysis theory for flow fields that is universally applicable [23].…”

Section: Introductionmentioning

confidence: 99%

Mathematical Model for Excited State Fluid Dynamics

Yue,

Zhang,

Wei

2023

J. Phys.: Conf. Ser.

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The rational mechanic’s research method is synthesized with the help of mathematical means such as generalized function analysis and tensor analysis. The basic definition of the fluctuation velocity generation is based on phenomenological physics in this article. The basic control equations of general excited state fluid dynamics applicable to the flowfield are obtained based on the basic principles of quantum mechanical superposition states. The simplified basic equations of the excited State are finally obtained through time and space discretization. The basic theory of excited state fluid dynamics is established, providing new ideas for the innovation and application of flow control, fluid mechanical engineering design, and other aspects of research work.

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“…Meanwhile, the problem of flow past an object is nonlinear, which makes it more difficult to obtain accurate solutions. Yue P. et al [27] have proved the mathematical principle of flow field separation and transition, which makes it possible to further accurately solve fluid mechanics problems and obtain the aerodynamic characteristics of an object's surface. This lays the foundation for calculating the pressure distribution in a complex flow field.…”

Section: Introductionmentioning

confidence: 99%

Surface Pressure Calculation Method of Multi-Field Coupling Mechanism under the Action of Flow Field

et al. 2023

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At present, the majority of fluid mechanisms are multi-field coupling mechanisms, and their function is also achieved in the flow field. Therefore, calculating the aerodynamic characteristics of the multi-field coupling mechanism in a symmetric flow field is very important. However, at present, the strong coupling algorithm in the domain has the problems of low accuracy and computational efficiency, which make it more difficult to solve the coupling problem. This article obtains the vector potential of the law of conservation of momentum using the tensor analysis method in a Cartesian coordinate system. Meanwhile, the generalized operator of Navier–Stokes equations and the fundamental solution of the generalized operator are obtained on this basis. Then, this article proposes the boundary integral equation of the Navier–Stokes equations by combining the fundamental solution of the Laplace equation with generalized potential theory. Based on this boundary integral equation, this article has developed a new calculation method that can help achieve integral calculation without domains, greatly reducing the problem’s difficulty. Finally, by comparing the ellipsoid example solution with the experimental results, the algorithm’s reliability in solving the incompressible problem is verified.

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Mathematical model and analysis method for flowfield separation and transition

Cited by 6 publications

References 55 publications

Research on the Capillary Filling Behavior of Liquid Solder Al-12Si under the Action of Electromagnetic Ultrasonic Wave

Research on the Capillary Filling Behavior of Liquid Solder Al-12Si under the Action of Electromagnetic Ultrasonic Wave

Mathematical Model for Excited State Fluid Dynamics

Surface Pressure Calculation Method of Multi-Field Coupling Mechanism under the Action of Flow Field

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