Numerical Analysis on Water Hammer Characteristics of Rocket Propellant Filling Pipeline

Xiang Youhuan, Zhang Ping, Zhang Hui, Bai Fengtian

2015

Abstract

In order to investigate the water hammer problem of the filling pipeline during the rocket propellant filling process of the spaceflight launch site, the simulation calculation model and the real experimental system is established. It researches the water hammer characteristics of the filling pipeline, and analyses the law of pressure change when water hammer occurs. The improved schemes are proposed in this paper, and the simulation calculation and real experiment are carried through for the proposed schemes. It also carries through data analysis for the simulation and experimental results. The results show that the proposed scheme can effectively reduce the water hammer effect of the pipeline during the filling process, improve the rocket propellant filling accuracy and enhance the security and reliability of the system.

References

1. Xiang Youhuan, Shi Jinfeng, Li Liqun. Accuracy Analysis on Measuring Model of Rocket Propellant Filling Based on Weight Measurement[C]. 2014 IEEE International Conference on Signal Processing Communications and Computing (ICSPCC 2014). August 5-8,2014:760-765.
2. Yang Zhi-qiang, Zhang Hong-jian, Huang Yong-mei. Research on data value simulation of fluid field characteristic of vortex flowmeter [J]. Process Automation Instrumentation. 2004, 25(5):10-13.
3. Yan Zheng, Peng Xiao-hui, Cheng Yu-qiang, Wu Jian-jun. Research of water hammer and its suppression methods for spacecraft propulsion system. Journal of Aerospace Power. Sep.2012, Vol.27 No.9:2028-2034.
4. Lin Jingsong, Wang Pingyang, Gao hong. Numerical Simulation of Water Hammer in Shutting Liquid Rocket Engine [J]. Aerospace Shanghai. No.3 2008:53-57.
5. Nie Wansheng, Dai Haide, Xia Peng. Transient Characteristics during shutdown operation of liquid feed line for attitude control propulsion system [J]. Journal of Propulsion Technology. 2003, 24(1):6-8.
6. Liu Zhaozhi, Ding Pengfei, Tian Qingya. Numerical Analysis on Water-hammer of Liquid Hydrogen Loading System [J]. Missiles and Space Vehicles. No.4 2010, Sum No.408:10-12.
7. Lin Jing-song. Numerical Simulation of Water Hammer in Shutting Liquid Rocket Engine [D]. Shanghai Jiaotong University. 2007.
8. Liu Deyou, Suo Lisheng. Rigid Model of Transient Analysis for Multiple-characteristic Long Pipeline with Trapped Air Mass [J]. Journal of Hydrodynamics. Ser. A, Vol.20, No.1 Jan, 2005:44-49.
9. Wu yuebin, Gao Jinliang. An Approach to Performance Assessment for Water Distribution Systems. Conference on Water Resouces Planning and Management, Roanoke, VA, 2002.
10. Xu Feng, Liu Ying-yuan, Chen Hai-feng. Numerical simulation analysis of water-hammer pressure of rocket engine. Journal of Rocket Propulsion. Feb.2012, Vol.38, No.1:72-75.

Paper Citation

in Harvard Style

Youhuan X., Ping Z., Hui Z. and Fengtian B. (2015). Numerical Analysis on Water Hammer Characteristics of Rocket Propellant Filling Pipeline . In Proceedings of the 5th International Conference on Simulation and Modeling Methodologies, Technologies and Applications - Volume 1: SIMULTECH, ISBN 978-989-758-120-5, pages 337-343. DOI: 10.5220/0005505703370343

in Bibtex Style

@conference{simultech15,
author={Xiang Youhuan and Zhang Ping and Zhang Hui and Bai Fengtian},
title={Numerical Analysis on Water Hammer Characteristics of Rocket Propellant Filling Pipeline},
booktitle={Proceedings of the 5th International Conference on Simulation and Modeling Methodologies, Technologies and Applications - Volume 1: SIMULTECH,},
year={2015},
pages={337-343},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0005505703370343},
isbn={978-989-758-120-5},
}

in EndNote Style

TY - CONF
JO - Proceedings of the 5th International Conference on Simulation and Modeling Methodologies, Technologies and Applications - Volume 1: SIMULTECH,
TI - Numerical Analysis on Water Hammer Characteristics of Rocket Propellant Filling Pipeline
SN - 978-989-758-120-5
AU - Youhuan X.
AU - Ping Z.
AU - Hui Z.
AU - Fengtian B.
PY - 2015
SP - 337
EP - 343
DO - 10.5220/0005505703370343