Design and Simulation Research of Leveling Tanks System

Yang Liu; Hong Bo Wang; Dong Di Liu; Zi Lin Zhang

doi:10.4028/www.scientific.net/AMR.926-930.852

Paper Titles

The Impact of Different Screw Edge Width on Extrusion Quality of the Single-Screw Extruder
p.833

The Research of Power Matching Optimization Design for Mini Cars
p.838

The Selection of Manufacturing Grid Resources Node Based on the Model
p.842

The Large Turbine Impeller Cavitation Technology of Integrated Prevention and Control Lancang River Basin
p.846

Design and Simulation Research of Leveling Tanks System
p.852

Strip Width Model in Hot Strip Rolling
p.856

Calculation of Steady State Parameter in Permanent Magnet Linear Synchronous Motors by Analysis Method and FEM
p.860

Injection Mould Design of Mobile Phone Back Shell
p.864

Liquid-Solid Coupling Vibration Analysis of the Offshore Pipeline
p.869

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 926-930Design and Simulation Research of Leveling Tanks...

Design and Simulation Research of Leveling Tanks System

Abstract:

This paper introduced a leveling tanks system of the ship based on Visual C++. The simulation system is consisted of a leveling tank, a leveling system controller and a ship motion simulator three parts. This paper focuses on the system leveling effect, when the roll is generated by steering as well as loading and wave interference under conditions of direct of the ship. In the research of the ship rolling, which is generated by steering, tanks model combining of traditional four degrees of freedom, getting a new four degrees of freedom "Ship-Tank" movement mathematical model. We calculate the motion state of the ship, and output multiple parameter information of ship motion based on the mathematical model, and then level the roll motion generated by ship steering using control strategies. Simulation results show that, in the conditions of both direct and steering, the system is able to achieve the desired effect of leveling, and thereby it provides reliable basics for designing and researching of leveling tanks.

You might also be interested in these eBooks

Progress in Applied Sciences, Engineering and Technology

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 926-930)

Pages:

852-855

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.926-930.852

Citation:

Cite this paper

Online since:

May 2014

Authors:

Yang Liu, Hong Bo Wang*, Dong Di Liu, Zi Lin Zhang

Keywords:

Leveling Tanks, Mathematical Models, Simulation Research, Steering Roll Leveling

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Reza Moaleji and Alistair R. Greig. Ocean Engineering, Vol. 34 (2007), pp.103-121.

Google Scholar

[2] MA Wei-liang and JIAO Nong. Overview and Future of Ship Anti-rolling Tank Control Technology . Ship Engineering, Vol. 33 (2011) No. 6.

Google Scholar

[3] Khaled S. Youssef and Saad A. Ragab. Ocean Engineering, Vol. 29 (2002), pp.177-192.

Google Scholar

[4] Osama A. Marzouk and Ali H. Nayfeh. Ocean Engineering, Vol. 36 (2009), pp.661-671.

Google Scholar

[5] MA Wei-liang and JIAO Nong. Ship Engineering, Vol. 34 (2012) No. 1, pp.36-39.

Google Scholar

[6] Thongchai Phairoh and Jen-Kuang Huang. Ocean Engineering, Vol. 32 (2005), pp.1037-1053.

Google Scholar

[7] JIA Xin-le and YANG Yan-sheng: Ship motion mathematical model(Dalian Maritime University Press, China 1999).

Google Scholar

[8] Zhang Hong and ZHAN Xing-qun. Simulation Study of the Air Control Rule of a Passively Controlled Anti-rolling Tank. Techniques of Automation and Applications, Vol. 26 (2007) No. 2.

Google Scholar