Numerical simulation on underwater vertical launching process under effect of initial gas
The exiting-tube process is the basis and premise of the underwater vertical launching process. which is a multiphase, rapid, nonlinear, complex issue. Based on RANS method, combined the VOF multiphase flow model, high-resolution interface capture (HRIC) and overlapping grid (zero gap) technology, a...
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| Published in | Xibei Gongye Daxue Xuebao Vol. 41; no. 6; pp. 1080 - 1088 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | Chinese English |
| Published |
EDP Sciences
01.12.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1000-2758 2609-7125 |
| DOI | 10.1051/jnwpu/20234161080 |
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| Abstract | The exiting-tube process is the basis and premise of the underwater vertical launching process. which is a multiphase, rapid, nonlinear, complex issue. Based on RANS method, combined the VOF multiphase flow model, high-resolution interface capture (HRIC) and overlapping grid (zero gap) technology, a complete mathematical model to describe the underwater exiting-tube process of the vehicle is established. The effects of the initial gas and launch parameters on the flow field and the load characteristics of the vehicle are systematically obtained. The research results indicated that: With the increase of the initial pressure of the initial gas, the force period of the vehicle increases, and the evolution process of the initial gas slows down. The initial gas pulsation period can be shortened by increasing the launch depth, while increasing the pressure at the shoulder of the vehicle and suppressing the natural cavitation of the vehicle. The increase of the lateral flow velocity will significantly increase the lateral force and deflection moment of the vehicle. The initial gas's pulsation process has a greater influence on the deflection moment and lateral force of the vehicle.
潜射航行体出筒过程是水下发射的基础与前提, 具有受力剧烈、时间短和非线性等特点。基于CFD方法, 利用VOF多相流模型追踪气液界面, 结合高分辨率交界面捕捉(HRIC)与重叠网格(零间隙)技术, 建立了完整描述航行体水下垂直出筒的数学模型, 系统研究了筒口气团与发射参数对流场与航行体载荷特性的影响规律。结果表明: 随着筒口气团初始压强的增加, 航行体受力变化周期增长, 筒口气团演化过程减慢; 发射深度的增加有助于缩短出筒过程中筒口气团脉动周期, 肩部压强增加, 有利于抑制航行体自然空化; 横向来流会显著增加航行体横向受力与偏转力矩; 横向流作用下, 筒口气团脉动过程对航行体偏转力矩与横向受力影响较大。 |
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| AbstractList | The exiting-tube process is the basis and premise of the underwater vertical launching process. which is a multiphase, rapid, nonlinear, complex issue. Based on RANS method, combined the VOF multiphase flow model, high-resolution interface capture (HRIC) and overlapping grid (zero gap) technology, a complete mathematical model to describe the underwater exiting-tube process of the vehicle is established. The effects of the initial gas and launch parameters on the flow field and the load characteristics of the vehicle are systematically obtained. The research results indicated that: With the increase of the initial pressure of the initial gas, the force period of the vehicle increases, and the evolution process of the initial gas slows down. The initial gas pulsation period can be shortened by increasing the launch depth, while increasing the pressure at the shoulder of the vehicle and suppressing the natural cavitation of the vehicle. The increase of the lateral flow velocity will significantly increase the lateral force and deflection moment of the vehicle. The initial gas's pulsation process has a greater influence on the deflection moment and lateral force of the vehicle. The exiting-tube process is the basis and premise of the underwater vertical launching process. which is a multiphase, rapid, nonlinear, complex issue. Based on RANS method, combined the VOF multiphase flow model, high-resolution interface capture (HRIC) and overlapping grid (zero gap) technology, a complete mathematical model to describe the underwater exiting-tube process of the vehicle is established. The effects of the initial gas and launch parameters on the flow field and the load characteristics of the vehicle are systematically obtained. The research results indicated that: With the increase of the initial pressure of the initial gas, the force period of the vehicle increases, and the evolution process of the initial gas slows down. The initial gas pulsation period can be shortened by increasing the launch depth, while increasing the pressure at the shoulder of the vehicle and suppressing the natural cavitation of the vehicle. The increase of the lateral flow velocity will significantly increase the lateral force and deflection moment of the vehicle. The initial gas's pulsation process has a greater influence on the deflection moment and lateral force of the vehicle. 潜射航行体出筒过程是水下发射的基础与前提, 具有受力剧烈、时间短和非线性等特点。基于CFD方法, 利用VOF多相流模型追踪气液界面, 结合高分辨率交界面捕捉(HRIC)与重叠网格(零间隙)技术, 建立了完整描述航行体水下垂直出筒的数学模型, 系统研究了筒口气团与发射参数对流场与航行体载荷特性的影响规律。结果表明: 随着筒口气团初始压强的增加, 航行体受力变化周期增长, 筒口气团演化过程减慢; 发射深度的增加有助于缩短出筒过程中筒口气团脉动周期, 肩部压强增加, 有利于抑制航行体自然空化; 横向来流会显著增加航行体横向受力与偏转力矩; 横向流作用下, 筒口气团脉动过程对航行体偏转力矩与横向受力影响较大。 |
| Author | CHEN, Xiaopeng HU, Haibao QIN, Liping LI, Guanghua LI, Zhuoyue DU, Peng HUANG, Xiao SUN, Mengke |
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