[1]王天雨,施红辉,董若凌,等.脉冲水射流产生过程的流体力学特性数值模拟[J].浙江理工大学学报,2020,43-44(自科一):63-70.
WANG Tianyu,SHI Honghui,DONG Ruoling,et al.Numerical simulation of hydrodynamic characteristics in the process of pulsed water jet[J].Journal of Zhejiang Sci-Tech University,2020,43-44(自科一):63-70.
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脉冲水射流产生过程的流体力学特性数值模拟(
)
WANG Tianyu,SHI Honghui,DONG Ruoling,et al.Numerical simulation of hydrodynamic characteristics in the process of pulsed water jet[J].Journal of Zhejiang Sci-Tech University,2020,43-44(自科一):63-70.
)浙江理工大学学报[ISSN:1673-3851/CN:33-1338/TS]
- 卷:
- 第43-44卷
- 期数:
- 2020年自科一期
- 页码:
- 63-70
- 栏目:
- 出版日期:
- 2020-01-08
文章信息/Info
- Title:
- Numerical simulation of hydrodynamic characteristics in the process of pulsed water jet
- 文章编号:
- 1673-3851 (2020) 01-0063-08
- 分类号:
- O359+.1
- 文献标志码:
- A
- 摘要:
- 为了研究脉冲水射流的流体力学特性,通过流体仿真软件Fluent150对两种实验工况下高压气体驱动水柱的流体力学过程进行了二维数值模拟,这两种实验工况分别是常温常压下直喷嘴圆管内025 MPa的高压氦气驱动和水枪中火药燃烧产生高压火药气体驱动。分别采用了SST kω、Standard kε湍流模型与VOF模型,研究了在高压气体的驱动下水射流的流体力学特征,并对数值模拟结果与实验结果进行了比较。模拟结果表明:在采用SST kω湍流模型的氦气驱动水柱的数值模拟中,气泡与射流前端速度呈单调递增变化,管内两观测点的压力先增大后减小,与实验结果有很好的一致性;在使用Standard kε湍流模型的火药水枪数值模拟中,模拟中水柱的速度变化与实验结果也有很好的一致性,射流在150 ms左右达到最大然后逐渐减小。两组结果表明,所采用的数值方法在模拟高压气体驱动大体积液柱射流方面有一定的准确性。
参考文献/References:
[1] Shi H H, Wang X L, Itoh M. et al. Acceleration of water column and generation of large flow rate water spray by shock tube[J]. JSME International Journal Series B, 2001, 44(4): 543-551.
[2] 施红辉. 激波管喷雾器:ZL022174850[P]. 2003-04-02.
[3] 施红辉, 岸本薰实. 瞬态加速液柱的流体力学问题研究[J]. 爆炸与冲击, 2003, 23(5):391-397.
[4] Wang X L, Shi H H, Itoh M, et al. Flow visualization of highspeed pulsed liquid jet[J]. Proceedings of SPIE The International Society for Optical Engineering, 2001, 4183:899-906.
[5] Semko A N, Rusanova O A, Kazak O V, et al. The use of pulsed highspeed liquid jet for putting out gas blowout[J]. The International Journal of Multiphysics, 2015, 9(1): 9-20.
[6] 邓军, 贾鹏飞, 刘长春, 等. 消防脉冲水枪喷嘴结构优化研究[J]. 中国安全生产科学技术, 2018, 14(12): 48-53.
[7] Guha A, Barron R M, Balachandar R. Numerical simulation of highspeed turbulent water jets in air[J]. Journal of Hydraulic Research, 2010, 48(1):119-124.
[8] Srinivasan V, Salazar A J, Saito K. Modeling the disintegration of modulated liquid jets using volumeoffluid (VOF) methodology[J]. Applied Mathematical Modelling, 2011, 35(8):3710-3730.
[9] 杨国来, 周文会, 刘肥. 基于FLUENT的高压水射流喷嘴的流场仿真[J]. 兰州理工大学学报, 2008, 34(2):49-52.
[10] Hirt C W, Nichols B D. Volume of fluid (VOF) method for the dynamics of free boundaries[J]. Journal of Computational Physics,1981, 39(1):201-225.
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备注/Memo
- 备注/Memo:
-
收稿日期:2019-04-13
网络出版日期: 2019-10-09
基金项目:国家自然科学基金项目(11772309); 浙江省基础公益研究项目(LGG19A02002);浙江省自然科学基金项目(LY17E060006)
作者简介:王天雨(1995-),男,安徽宿州人,硕士研究生,主要从事新型脉冲式消防器方面的研究
通信作者:施红辉,E-mail:hhshi@zstu.edu.cn
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