Research on Distribution Properties of Coating Film Thickness from Air Spraying Gun-Based on Numerical Simulation

Xie, Xianmei; Wang, Yinan

doi:10.3390/coatings9110721

Cited by 18 publications

(17 citation statements)

References 15 publications

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“…In previous studies, 10,16 the initial condition of discrete phase in the spraying simulation was determined like this: the velocity and size distribution of droplets were measured by experiments that are expensive and time-consuming; then, the discrete phase was added at the inlet of paint hole to simulate the primary atomization when the liquid was assumed to be totally atomized. After that, the TAB model was used to predict the secondary breakup and the child droplets' diameters.…”

Section: Computational Domain and Numerical Methodsmentioning

confidence: 99%

“…The Eulerian wall film (EWF) model was employed to calculate the distribution of the coating film thickness on the targe plate. 16,35 When the liquid droplets in the spray flow field impinge on the plate and deposit to form a coating film, the mass and momentum of the liquid phase are removed from the two-phase flow and added as source terms to the mass and momentum conservation equations of the liquid film, respectively. Therefore, the thickness of the coating film can be calculated through the mass and momentum conservation equations of the liquid film.…”

Section: Numerical Setupmentioning

confidence: 99%

“…They investigated the influence of the rectangular target plate and its orientation on the paint film thickness. Further, some researchers focused on more complicated target plates, such as the inclined plane, 16 concave stepped surface, 13 and inner or outer cylindrical surface, 17 to fit in unforeseeable working situations. In terms of the operating conditions, Ye and Pulli 13 studied the effects of the atomizing and the shaping air flow rate on the droplet size distribution.…”

Section: Introductionmentioning

confidence: 99%

“…Figures 11 to16 show the response surfaces and respective contour plots that intuitively illustrate the interaction effects between two design parameters on the central pressure P c when the other parameters remain middle level.From Figure11, it can be seen that the central pressure P c rises with the increments of annular air hole diameter d and horn flare angle a. Compared with the horn flare angle a, annular air hole diameter d has a stronger effect to elevate the central pressure P c .…”

mentioning

confidence: 99%

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Optimal design of a pneumatic atomizer using response surface method to obtain more uniform coatings

Qiao

Zhu

Liu

2022

Advances in Mechanical Engineering

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Uneven coatings with overspray often occur to the target plate when using a pneumatic atomizer. This issue is mainly due to the high-level pressure in the plate center, which results from unreasonable design of the structure and operating parameters in atomizer. In this paper, an optimal design for these parameters was established by response surface method (RSM) and computational fluid dynamics (CFD) to produce more uniform coatings. The velocity data measured by a hot-wire anemometry experimentally verified the numerical model. Then, annular air hole diameter, horn flare angle, annular air pressure, and shaping air pressure were selected as design variables while the central pressure was chosen as objective function. The RSM with the central composite design (CCD) was employed to construct the regression equation that expresses the relationship between the central pressure and design parameters. Finally, the optimum combination of the parameters was carried out for reducing the central pressure, and the interaction effects between the parameters were also analyzed. The optimization results show that the central pressure is decreased by 44.6% and the performance of droplet size distribution is significantly improved. The experiment confirmed the effectiveness of the optimized atomizer to obtain well-distributed coatings.

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Section: Computational Domain and Numerical Methodsmentioning

confidence: 99%

Section: Numerical Setupmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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Optimal design of a pneumatic atomizer using response surface method to obtain more uniform coatings

Qiao

Zhu

Liu

2022

Advances in Mechanical Engineering

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“…In recent years, some experimental and numerical investigations [19][20][21][22][23][24][25][26][27] on the painting process have been conducted using the Euler-Lagrange method, focusing mainly on the droplet size distribution, the influences of spray gun geometry and air flow, on coating thickness distribution, as well as on droplet impingement. In the Euler-Lagrange method, the air is treated as a continuous phase and the droplets are treated as a discrete phase.…”

Section: Introductionmentioning

confidence: 99%

Design of a Double-Nozzle Air Spray Gun and Numerical Research in the Interference Spray Flow Field

Wang

Xie

2020

Coatings

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Spray painting robots equipped with air spray guns have been widely used in the painting industry. In view of the low efficiency of single-nozzle air spray guns when spraying large targets, a new double-nozzle air spray gun structure was designed in this paper based on the Coanda effect of double jets. Firstly, a 3-D physical model of the double-nozzle air spray gun was built in Solidworks, in which unstructured grids were generated for the computational domain by ICEM. Secondly, the spray painting process was numerically modeled with the help of the computational fluid dynamics (CFD) software ANSYS-Fluent 16.0. The two-phase spray flow was calculated by coupling a discrete phase model (DPM) and the Taylor analogy breakup (TAB) method. The TAB model was applied to predict the secondary break-up. The DPM model was applied to predict the droplet trajectories. The geometry of an air spray gun has a significant influence on the spray flow field characteristics. The influence of the air spray gun geometry on the interference spray flow field characteristics and coating film thickness distribution were investigated by changing the values of the distance between the centers of the two paint holes (L) and the angle between the axes of the two paint holes (θ). Numerical results show that the smaller L and θ are, the stronger the interference effect between the two jets, while the more concentrated the paint is in the central region of the target surface, the easier it is for overspray to occur. With increasing L and θ, the interference effect gradually decreased and the extension distance of the coating film along the x-axis gradually increased. However, if L and θ are too large, the interference effect will become too weak and the shape of the coating film will become a concave, with more paint on both side regions and less paint in the central region, which will cause an uneven coating film. From the simulation results, it can be concluded that a more uniform coating film can be obtained when L = 30 mm and θ = 10°. The effective coating width of the double-nozzle air spray gun was increased by 85.7% compared with the single-nozzle air spray gun, which improved the spraying efficiency.

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Design of a New Pneumatic Atomizer with V-shaped Slits and Numerical Study on the Spray Flow Field

Qiao

Qian

Zhu

et al. 2021

Intelligent Equipment, Robots, and Vehicles

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Research on Distribution Properties of Coating Film Thickness from Air Spraying Gun-Based on Numerical Simulation

Cited by 18 publications

References 15 publications

Optimal design of a pneumatic atomizer using response surface method to obtain more uniform coatings

Optimal design of a pneumatic atomizer using response surface method to obtain more uniform coatings

Design of a Double-Nozzle Air Spray Gun and Numerical Research in the Interference Spray Flow Field

Design of a New Pneumatic Atomizer with V-shaped Slits and Numerical Study on the Spray Flow Field

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