The Development and Performance Analysis on Static Experiment System of Ship Models

Yong Ma; Shi Zhou You; Guang Li Zhou; Liang Zhang

doi:10.4028/www.scientific.net/AMR.740.374

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 740The Development and Performance Analysis on Static...

The Development and Performance Analysis on Static Experiment System of Ship Models

Abstract:

To conduct ship model inclining experiments and floating state adjustment experiments, a static experiment system is developed, including research and development of hydrostatic flume, connecting frame, attitude instrument and data acquisition and analysis processing module. And the work principle of the system is discussed. Furthermore, ship model inclining experiment, floating state adjusting experiment, and roll, pitch, heave free decay experiment are conducted to analyse the performance of this system. Results of the experimental indicate that the system has a satisfactory testing precision. In the model inclining experiments, relative error of vertical coordinate of center of gravity of the ship model is 1.5%, relative error of the longitudinal coordinate is 0.18%; in the floating state adjusting experiment, standard error of transverse inclination is 0.06 degree, standard error of longitudinal inclination is 0.03 degree, standard error of heaving measurement is 0.15mm; the free decay experiment proofs that the experiment system can realize dynamic measurement of roll, pitch and heave. This experimental system with high precision has a good application prospect which can be used in ship model inclining experiment, floating state adjusting experiments, as well as model hydraulic performance test study.

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Periodical:

Advanced Materials Research (Volume 740)

Pages:

374-381

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.740.374

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Online since:

August 2013

Authors:

Yong Ma, Shi Zhou You, Guang Li Zhou, Liang Zhang

Keywords:

Experiment, Ship Model, Statics, System

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References

[1] ZHUANG Pei-jun. Portt city-region in global maritime logistics networks: the case of Ningbo. [D] Shanghai: East China Normal University, 2011:1-3.

Google Scholar

[2] WANG Jie, TANG Shun-mei, YU Hai. Design and making the moment of inertia for teaching purpose [J].Journal of Dalian Maritime University (Social Sciences Edition), 2009, 8(3):42-45.

Google Scholar

[3] WU Chong-bo. Researches on the modernization of navy in ASEAN countries and its implication on the situation of the periphery [J].Pacific Journal, 2010, 18(2):82-92.

Google Scholar

[4] WANG Zhi-hua. Discussion on university talent training under the new situation [J]. Journal of Heilongjiang College of Education, 2011, 30(8):16-17.

Google Scholar

[5] YU Xiang-san, CHEN Ze-liang , LOU Lian-gen ,et al. Ship performance of experimental technology [M]. Shanghai: Shanghai Jiao Tong University Press, 1991: 44-90,128-260.

Google Scholar

[6] CHEN Tie-yun, WANG De-yu, HUANG Zhen-qiu. Ultimate bearing capacity of ship structures [M].Shanghai: Shanghai Jiao Tong University Press, 2005: 10-115,136-167.

Google Scholar

[7] SHENG Zhen-bang, YANG Shang-rong, CHEN Xue-shen. Ship statics [M]. Shanghai: Shanghai Jiao Tong University Press, 1992: 105-110.

Google Scholar

[8] XIE Nan, QIAN Guo-liang, GUO Huan-qiu, et al. A measurement system of ship motions during model tests and full scale seakeeping trials [J].Journal of Ship Mechanics, 2001, 5(3):26-32.

DOI: 10.1016/b978-008043950-1/50070-3

Google Scholar

[9] LI Ren-fen .Ship motion measurement system analysis and design [D].Dalian: Dalian Maritime University, 2011:5-17.

Google Scholar

[10] TAO Wei, PU Zhao-bang, SUN Yun-bin.The developmentof angle measurement technique [J]. Laser Journal, 2002, 23(2):5-7.

Google Scholar

[11] BAI Ming-fang. Design of angle measuring system [D]. Tai yuan: North University of China, 2010:2-4.

Google Scholar

[12] ZHANG Ming-fu. Research and design on small angle measuring instrument [D].Harbin: Harbin University of Science and Technology, 2010, 1-4.

Google Scholar

[13] ZHOU Chuan-de , SONG Qiang, WEN Cheng. Sensor and Test Technology [M]. Chongqing: Chongqing University Press, 2009:136-139.

Google Scholar

[14] ZHOU Zhen-an, FAN Liang-long, WANG Xiu-ying, et al. Design and implementation of data acquisition system [M].Beijing: Seismological Press, 2005:3-98.

Google Scholar

[15] SHA Ding-guo. Error analysis and evaluation of uncertainty in measurement [M].Beijing: China Metrology Publishing House, 2003:10-13.

Google Scholar