Cavitation in Submerged Water Jet at High Jet Pressure

Kang, Can; Liu, Haixia; Li, Xiuge; Cheng, Xiaonong

doi:10.1115/ajkfluids2015-5599

Cited by 3 publications

(2 citation statements)

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“…Under the same conditions, a circular nozzle has a higher jet velocity and turbulence energy compared to nozzles with other outlet shapes. The impact area on the target plate is the widest, inducing a stronger central impact pressure and erosion ability [34,35]. Minjie Chen and Xiaobing Pan's [36] research showed that for circular nozzles, the erosion performance of the submerged water jet increases with the target distance within the effective target range, showing an increasing then decreasing trend.…”

Section: Nozzle Diametermentioning

confidence: 99%

Design Optimization and Mechanism Analysis of Water Jet-Type Inter-Plant Weeding Device for Water Fields

et al. 2023

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Existing rice inter-plant weed control devices have difficulty achieving inter-plant weed control in one pass. Due to the complex environment of paddy fields, these devices have a low weed removal rate and high seedling damage rate, making it difficult to ensure high-quality operation. This study innovatively designed a water jet-based rice inter-plant weed control device. Based on the mechanism of water jet erosion of soil, it can erode and excavate the soil layer on which weeds depend, achieving inter-plant weed control in paddy fields. The optimal range of structural parameters of the water jet angle and nozzle opening diameter was analyzed. The results showed that the optimal structural parameters of the device were a jet angle of 31° and a nozzle opening diameter of 4 mm, which can achieve the best operational performance. Based on virtual simulation experiments, single-factor and multi-factor orthogonal rotation combination experiments were carried out with weed removal rate as the test index and different operating speeds and nozzle outlet pressures as the test factors to optimize the water jet-based inter-plant weed control device. The experimental results showed that when the working parameters of the water jet-based inter-plant weed control device were a forward speed of 0.30 m∙s−1 and a nozzle outlet pressure of 1.50 MPa, the weed removal rate was the highest at 92.78%. Field validation experiments showed that the weed removal rate was 90.16% and the seedling damage rate was 1.80% under this operation condition, and the quality of the operation met the requirements of inter-plant weed control technology. This study provides a technical reference for promoting the development of inter-plant weed control technology in paddy fields.

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Section: Nozzle Diametermentioning

confidence: 99%

Design Optimization and Mechanism Analysis of Water Jet-Type Inter-Plant Weeding Device for Water Fields

et al. 2023

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“…With the advance of the jet flow, its kinetic energy further attenuates. 11 The mass flow rate increases, and the increase of air content causes serious radial diffusion of the jet beam. Only the stability of the water jet can ensure the uniform distribution of laser energy, so as to obtain better processing effect.…”

Section: Introductionmentioning

confidence: 99%

Numerical simulation of the stability of water fiber-optic in water jet-guided laser machining

Qiao

Zhao

Cao

2022

Proceedings of the Institution of Mechanical Engineers, Part C:

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Water jet-guided laser machining is a new compound machining technology, which has been widely used in many fields due to its better processing effect. In this technology, the coupling of laser beam and micro-water jet directly determines the machining effect, and the prerequisite for successful coupling is the steady flow of the water jet, so ensuring the stability of the micro-water jet is the key to the stable machining of water jet-guided laser. Therefore, it is of great significance to studying the stability of the water fiber-optic in water jet-guided laser processing. In this paper, aiming at the problem that the stability of the water fiber-optic is difficult to control, a finite element model of the water fiber-optic is established. The convection model is vortex gas-phase flow “enveloped” water fiber-optic which is used to explain the interaction mechanism, and the flow field distribution of gas-phase flow and water fiber-optic convection was obtained. The results show that water fiber-optic is refined under the constraint of gas-phase flow, and the maximum processing distance can increase by three times. At the same time, the gas-phase flow can accelerate the removal of processing debris, and the processing accuracy and efficiency are improved.

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