Abstract
Pulsed waterjet can break rocks effectively by taking advantage of the water hammer effect, and is thus widely used in mining, petroleum, and natural gas fields. With the aim to further clarify the flow field characteristics of pulsed jets induced by a Helmholtz oscillator, large eddy simulation was conducted under different operating pressures. The velocity distribution, mean flow field, and the coherent structure were examined using the oscillators of different cavity lengths and diameters. The results clearly showed that the major frequency of jet pulsation gradually increased with the increase of operating pressure. A stable periodic velocity core was formed at the outlet of the Helmholtz oscillator, while the external flow field was subjected to periodic impact. As a result, the ambient fluid was strongly entrained into the jet beam. With the increase of the cavity length, the length of the core segment decreased while the energy loss caused by the cavity increased, which was also accompanied by a rapid attenuation of the axial velocity at the jet outlet. The coherent structure of the jet in the oscillator with small cavity diameter was more disordered near the nozzle outlet, and the vortex scale was larger. The effect of cavity diameter can be reflected in the feedback modulation of the jet in the cavity. Compared with the conical nozzle, the length of the core section of the jet was shorter, but the jet had better bunching, a smaller diffusion angle, and better mixing performance. These results provide a further understanding of the characteristics of pulsed water jet for better utilizations in the fields of energy exploitation.
Highlights
Self-excited oscillation pulsed jet (SEOPJ) is widely used in engineering applications as an efficient tool to enhance the impact capability
The effects of initial momentum thickness and Reynolds number on the free jet flow in circular holes by Helmholtz oscillator consists of an upstream nozzle, a downstream nozzle, an upstream impinge large simulation impinge (LES), and found flow characteristics of free jet areare closely related to wall,eddy a downstream wall, andthat an the oscillation cavity
In any section of submerged water jet, the transverse velocity is much smaller than the axial velocity, which can be ignored approximately [36]
Summary
Self-excited oscillation pulsed jet (SEOPJ) is widely used in engineering applications as an efficient tool to enhance the impact capability. Li et al [1] designed a new drilling tool to improve the drilling rate in deep wells based on the theory of jets pulsation. Ge et al [2] proposed a novel method that used a self-propelled water-jet nozzle to dredge blocked boreholes in coal seams in order to improve the coal bed methane output and coal mine safety. The nozzle inlet pressure was optimized and a field experiment on the blockage removal of blocked coal bed methane drainage boreholes using the proposed method was conducted. Energies 2019, 12, 2161 a self-propelled water-jet drilling nozzle to drill three-type boreholes to improve gas extraction and drilling experiments were conducted to optimize the nozzle configuration. Since numerical simulation has quickly become an important means of research, the flow
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