Interactions between poppet vibration and cavitation in relief valve

Yi, Da-yun; Lu, Lerong; Zou, Jun; Fu, Xin

doi:10.1177/0954406214544304

Cited by 39 publications

(20 citation statements)

References 38 publications

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“…In order to reduce cavitation, a novel throttle valve was proposed. As shown in Figure 1, the novel throttle valve consists of a front end cover (1), a valve body (2), a cone valve (3), a flow pilot ring (4), and a back end cover (5). The fundamental functions of throttle valves were realized through changing the opening between the cone valve rod and valve seat.…”

Section: Throttle Valve Configurationmentioning

confidence: 99%

“…These high pressure pulsations lead to terrible hydraulic vibrations, erosions, and noises. [3][4][5][6][7] Gruber et al 8 have presented an experimental approach for the detection of cavitation in hydraulic machines by use of ultrasonic signal analysis. Technically, in order to successfully control the flow rate of water hydraulic systems, orifices are necessary in water hydraulic valves.…”

Section: Introductionmentioning

confidence: 99%

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New approach of suppressing cavitation in water hydraulic components

Zhang

Cao

Luo

et al. 2016

Proceedings of the Institution of Mechanical Engineers, Part C:

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Cavitation frequently appears in high pressure water hydraulic components and leads to serious hydraulic erosions and horrible hydrodynamic noises. In this paper, a novel approach of suppressing cavitation was proposed, inducing the outlet pressure back to the orifice to improve the pressure distribution of throttle valves. In order to realize this approach, an optimized throttle valve chamber structure was designed. After that, the anticavitation performance of the valve was investigated. A theoretical cavitation cloud model was built based on bubble dynamics. In order to solve the mathematic cavitation model, the velocity field and pressure distribution of the novel throttle valve were simulated through Computational Fluid Dynamics(CFD). Combining the simulation results, the mathematic cavitation cloud model was solved through numerical calculations. Moreover, new indexes estimating cavitation intensity were proposed scientifically to investigate cavitation phenomenon. Then, the comparison of the novel throttle valve (with an innovative valve chamber) and traditional throttle valve in anticavitation performance was conducted under different conditions. Finally, the experiment about anticavitation performance was completed on the test rig. The calculation and experiment results indicated that the approach, inducing the outlet pressure back to the orifice, was effective in suppressing cavitation.

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Section: Throttle Valve Configurationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

New approach of suppressing cavitation in water hydraulic components

Zhang

Cao

Luo

et al. 2016

Proceedings of the Institution of Mechanical Engineers, Part C:

View full text Add to dashboard Cite

show abstract

“…Therefore, the investigation of the static and dynamic characteristics for poppet valve has been of great interest from both academic and industrial perspectives. [6][7][8][9] Thus far, with regard to the poppet relief valve static and dynamic characteristics studies, many scholars have considered the poppet valve flow model, static characteristics, instability, cavitation, axial vibration, chaos, dynamic characteristics and control, and the research methods include analytical method, test method, and finite element method. 7,[10][11][12][13][14][15][16] As the results presented in the former related researches, it obviously indicated that the dynamic characteristics of the poppet valve, which attracted a lot of attentions in both academic and industrial area, were rather important.…”

Section: Introductionmentioning

confidence: 99%

Flow model and dynamic characteristics of a direct spring loaded poppet relief valve

Lei

Tao

Liu

et al. 2017

Proceedings of the Institution of Mechanical Engineers, Part C:

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This paper is concerned with the flow model and dynamic characteristics of the poppet relief valve. The flow model of the poppet valve orifice is established with a novel function of flow discharge coefficient, and the dynamic model including the aforementioned flow model of the poppet valve is established with consideration of the fluid forces caused by the valve body motion and the flowrate variation. Both the simulated and measured results of the dynamic response of the poppet relief valve shows that the experimental and simulation results are in fine accordance with each other in the perspective of the general shape of response, which confirm that the dynamic model of the poppet relief valve proposed in this paper is both accurate and efficient.

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“…Stephens et al 16 proposed a new structure of fixed cone valves with baffled hood using CFD method. Yi et al 17 experimentally studied cavitation and vibration inside a relief valve and discussed their interactions. Li et al 18 performed both experiment and CFD to investigate cavitation of an electrohydraulic servo-valve and found that cavitation located at the nozzle tip and the flapper leading edge.…”

Section: Introductionmentioning

confidence: 99%

Computational fluid dynamics analysis on orifice structure inside valve core of pilot-control angle globe valve

Jin

Gao

Zhang

et al. 2017

Proceedings of the Institution of Mechanical Engineers, Part C:

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A novel pilot-control angle globe valve is proposed, and it has an obvious advantage of energy conservation during its opening and closing process. In pilot-control angle globe valve, the opening and closing forces are related to the orifice located inside the valve core. In this paper, the effects of orifice diameter are thoroughly studied under different working conditions such as valve core displacements and inlet velocities. To begin with, the numerical model is validated by comparing similar angle valves, and then the flow and loss coefficients under different orifice diameters are discussed. It is found that the effects of orifice diameter on force acting on valve core depend on valve core displacement and inlet velocity. Thus different valve core displacements and inlet velocities combined with different orifice diameters are further studied. It is also found that when the orifice diameter is larger than 12 mm, pilot-control angle globe valve cannot be used under small inlet velocity or large valve core displacement. In addition, formulas to calculate forces on valve core are proposed for further orifice design. This work can be referred in process industries especially in a piping system with orifice plates or globe valves.

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Interactions between poppet vibration and cavitation in relief valve

Cited by 39 publications

References 38 publications

New approach of suppressing cavitation in water hydraulic components

New approach of suppressing cavitation in water hydraulic components

Flow model and dynamic characteristics of a direct spring loaded poppet relief valve

Computational fluid dynamics analysis on orifice structure inside valve core of pilot-control angle globe valve

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