Hydrodynamic performance of AUV free running pushed by a rotating propeller with physics-based simulations

Lihong Wu; Yiping Li; Kaizhou Liu; Xiannian Sun; Shiwen Wang; Xiaofeng Ai; Shuxue Yan; Shuo Li; Xisheng Feng

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Hydrodynamic performance of AUV free running pushed by a rotating propeller with physics-based simulations

机译：旋转螺旋桨与基于物理的模拟的旋转推进器推动的AUV自由运行的流体动力学性能

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Hydrodynamic performance plays an important role on energy consuming and safety for autonomous underwater vehicles (AUVs). The hydrodynamics of the whole process of AUV free running pushed by a rotating propeller was investigated with physics-based simulations by using multi-block hybrid dynamic grids method, URANS, coupled to 6DOF and UDFs. The AUV had cruised for approximately 14.1 s and 7.105 m from stationary to a constant velocity at 300RPM. The simulation results included an acceleration state and a steady state. In the acceleration state, the thrust decreased quickly and had four periodic cycles in one propeller revolution. The thrust amplitude varied as the velocity increased. The computed velocity history was compared to tests and agreed well. In the steady state, the propulsion factors were compared with that in the literature and agreed well. The flow field variations of pressure and velocity were investigated temporally and spatially for the two states.

机译：流体动力学性能对自主水下车辆（AUV）的能耗和安全性起着重要作用。通过使用多块混合动态网格法，耦合到6DOF和UDF，通过基于物理的模拟来研究由旋转螺旋桨推动的AUV自由运行的整个过程的流体动力学。 AUV在300rpm处悬垂到恒定速度约14.1秒和7.105米。仿真结果包括加速状态和稳态。在加速状态下，推力快速下降，在一个螺旋桨革命中有四个周期性周期。随着速度增加而变化的推力幅度变化。将计算的速度历史与测试进行比较，同意良好。在稳定状态下，将推进因子与文献中的比较并吻合良好。对于两种状态，在时间和空间上在时间和空间上进行压力和速度的流场变化。

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来源
《Ships and offshore structures》 |2021年第8期|852-864|共13页
作者
Lihong Wu; Yiping Li; Kaizhou Liu; Xiannian Sun; Shiwen Wang; Xiaofeng Ai; Shuxue Yan; Shuo Li; Xisheng Feng;
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作者单位

Ship building and Ocean Engineering College Dalian Maritime University Dalian People's Republic of China State Key Laboratory of Robotics Shenyang Institute of Automation Chinese Academy of Sciences Shenyang People's Republic of China School of Civil & Resource Engineering the University of Western Australia Crawley Australia;

State Key Laboratory of Robotics Shenyang Institute of Automation Chinese Academy of Sciences Shenyang People's Republic of China;

State Key Laboratory of Robotics Shenyang Institute of Automation Chinese Academy of Sciences Shenyang People's Republic of China;

Ship building and Ocean Engineering College Dalian Maritime University Dalian People's Republic of China;

Ship building and Ocean Engineering College Dalian Maritime University Dalian People's Republic of China;

Ship building and Ocean Engineering College Dalian Maritime University Dalian People's Republic of China;

State Key Laboratory of Robotics Shenyang Institute of Automation Chinese Academy of Sciences Shenyang People's Republic of China;

State Key Laboratory of Robotics Shenyang Institute of Automation Chinese Academy of Sciences Shenyang People's Republic of China;

State Key Laboratory of Robotics Shenyang Institute of Automation Chinese Academy of Sciences Shenyang People's Republic of China;

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正文语种 eng
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关键词
Self-propulsion; AUV; discretised propeller; dynamic moving mesh;

机译：自我推进;AUV;离散的螺旋桨;动态移动网格;

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专利

1. A physics-based simulation for AUV underwater docking using the MHDG method and a discretized propeller [J] . Wu Lihong, Li Yiping, Liu Kaizhou, Ocean Engineering . 2019,第Sepa1期

机译：使用MHDG方法和离散螺旋桨的AUV水下对接的基于物理的模拟
2. A physics-based simulation for AUV underwater docking using the MHDG method and a discretized propeller [J] . Wu Lihong, Li Yiping, Liu Kaizhou, Ocean Engineering . 2019,第SEPa1期

机译：使用MHDG方法和离散螺旋桨的AUV水下对接的基于物理的模拟
3. Effect of geometrical features on the contra-rotating propeller hydrodynamic performances [J] . F. Bouregba, M. Belkadi, M. Aounallah, Journal of Naval Architecture and Marine Engineering . 2020,第2期

机译：几何特征对旋转螺旋桨流体动力学性能的影响
4. Application of New Body-Force Concept to the Free Surface Effect on the Hydrodynamic Force and Flow around a Rotating Propeller [C] . Emel Tokgoz, Wu Ping-Chen, Saori Yokota, The proceedings of the twenty-fourth (2014) international Ocean and polar engineering conference . 2014

机译：新的受力概念在自由表面效应对旋转螺旋桨水动力和水流的影响中的应用
5. On the Propeller Effect When Predicting Hydrodynamic Forces for Manoeuvring Using RANS Simulations of Captive Model Tests =über den Propellereffekt bei der Bestimmung hydrodynamischer Kr?fte beim Man?vrieren (Berechnungen mittels RANS Simulation festgehal [D] . Yao, Jianxi. 2015

机译：关于预测流体动力学力的螺旋桨效应简单模拟俘虏种类武器测试（Claclue Singration Rainted
6. Assessing the performance of the MM/PBSA and MM/GBSA methods: I. The accuracy of binding free energy calculations based on molecular dynamics simulations [O] . Tingjun Hou, Junmei Wang, Youyong Li, -1

机译：评估MM / PBSA和MM / GBSA方法的性能：I。基于分子动力学模拟的无限能量计算的准确性
7. Mini-AUV Hydrodynamic Parameters Identification via CFD Simulations and Their Application on Control Performance Evaluation [O] . José J. Castillo-Zamora, Karla A. Camarillo-Gómez, Gerardo I. Pérez-Soto, 2021

机译：迷你AUV流体动力学参数通过CFD模拟识别及其对控制性能评估的应用
8. Hydrodynamics and Stability and Control of a Tandem Propeller Submarine: Equipment Design for a Tandem Propeller Submarine Free-Running Model [R] . Rice, R. S., Wilson, W. G. 1964

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Hydrodynamic performance of AUV free running pushed by a rotating propeller with physics-based simulations

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