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Turning Circle and Zig-Zag Test Simulation for a Fishing Vessel Form

Year 2017, Issue: 208, 62 - 70, 11.07.2017

Ferdi Çakıcı Emre Kahramanoğlu

Abstract

In this
study, turning circle and zig-zag test simulations for a fishing vessel form
were carried out by using existing mathematical model and maneuvering
derivatives in the literature. The simulations were performed for calm water
conditions, that is, all external inputs such as wave, current, wind, ice
loads, propeller etc. were neglected. The solution of the lateral plane motions
in time domain were completed by using 4th order Runge-Kutta Method
in Matlab-Simulink package program.

 





It is
possible to more effectively construct the maneuvering simulation in wavy
environment on Matlab-Simulink interface if the external loads in irregular
seas are known as a function of time. Simulink block diagrams prepared in the
present study will allow a quick transition to such disturbance excitation
damping studies in the future.

Keywords

Maneuvering Turning Circle Test Zig-Zag Test Matlab-Simulink

References

  • Abkowitz, M.A. (1964). Lectures on ship hydrodynamics. Steering and Manoeuvrability. Hydro and Aerodynamics, Lyngby, Denmark, Report Hy-5.
  • American Bureau of Shipping (ABS). (2006). Vessel Maneuverability.
  • Bakker, A. (2006). Applied Computational Fluid Dynamics, Ders Notları, http://www.bakker.org/dartmouth06/engs150/05-solv.pdf
  • D. Obreja, R. Nabergoj, L. Crudu ve S.P. Popoiu. (2010). Identification of hydrodynamic coefficients for manoeuvring simulation model of a fishing vessel. Ocean Engineering, 37, sayfa: 678–687.
  • Nabergoj, R., Crudu,L. ve Obreja,D. (2005). Prediction of manoeuvring characteristics of fishing vessels based on hydrodynamic derivatives. Proceedings of the 10th International Symposium on Technics and Technology in Fishing Vessels, Ancona, Italy.
  • Sarıöz, K., Kükner, A. ve Alkan, A.D. (2008). Gemi Mühendisliği El Kitabı. Bölüm 7, Manevra.
  • Sen, D. (2011). Seakeeping and Manoeuvring, Department of Ocean Engineering & Naval Architecture. Ders Notları.

Year 2017, Issue: 208, 62 - 70, 11.07.2017

Ferdi Çakıcı Emre Kahramanoğlu

Abstract

References

  • Abkowitz, M.A. (1964). Lectures on ship hydrodynamics. Steering and Manoeuvrability. Hydro and Aerodynamics, Lyngby, Denmark, Report Hy-5.
  • American Bureau of Shipping (ABS). (2006). Vessel Maneuverability.
  • Bakker, A. (2006). Applied Computational Fluid Dynamics, Ders Notları, http://www.bakker.org/dartmouth06/engs150/05-solv.pdf
  • D. Obreja, R. Nabergoj, L. Crudu ve S.P. Popoiu. (2010). Identification of hydrodynamic coefficients for manoeuvring simulation model of a fishing vessel. Ocean Engineering, 37, sayfa: 678–687.
  • Nabergoj, R., Crudu,L. ve Obreja,D. (2005). Prediction of manoeuvring characteristics of fishing vessels based on hydrodynamic derivatives. Proceedings of the 10th International Symposium on Technics and Technology in Fishing Vessels, Ancona, Italy.
  • Sarıöz, K., Kükner, A. ve Alkan, A.D. (2008). Gemi Mühendisliği El Kitabı. Bölüm 7, Manevra.
  • Sen, D. (2011). Seakeeping and Manoeuvring, Department of Ocean Engineering & Naval Architecture. Ders Notları.
There are 7 citations in total.

Details

Journal Section Articles
Authors

Ferdi Çakıcı This is me

Emre Kahramanoğlu This is me

Publication Date July 11, 2017
Published in Issue Year 2017 Issue: 208

Cite

APA Çakıcı, F., & Kahramanoğlu, E. (2017). Turning Circle and Zig-Zag Test Simulation for a Fishing Vessel Form. Gemi Ve Deniz Teknolojisi(208), 62-70.
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