MODELING, SIMULATION AND ANALYSIS OF A NONLINEAR HALF MODEL SHIP MAIN ENGINE SYSTEM USING BOND GRAPH MODELING APPROACH


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Demirel H., Ünlügençoğlu K. , Su M. E. , Elçiçek H. , Alarçin F.

International Journal of Advances in Science Engineering and Technology, cilt.4, ss.76-80, 2016 (Diğer Kurumların Hakemli Dergileri)

  • Cilt numarası: 4 Konu: 2
  • Basım Tarihi: 2016
  • Dergi Adı: International Journal of Advances in Science Engineering and Technology
  • Sayfa Sayıları: ss.76-80

Özet

Ship vibration tends to become a great concern with the increase of ship size and speed in the ship industry. Ship

main engine vibration causes particularly ship operating performance, fuel consumption and loses of capital costs. This paper

deals with bond graph modeling to obtain of a ship main engine system, and to decrease of vibration oscillations on ship main

engine system. The mathematic model of system was composed by Bond Graph modeling method. The effect of dynamics

forces which are consisted of main engine stresses and the hydrodynamic forces which come from water effect were also taken

into consideration. So as to investigate behavior of the vibration, nonlinear equations of system dynamics in state-space form

were obtained among analytical and graphical techniques. During the analysis the factor has assumed as the coupled torsional

and axial vibration. The developed approach has enhanced by controllers, and responses of the models with controllers were

compared and discussed. We conclude that Bond Graph modeling with PID controller may be a preferred alternative approach

instead of conventional methods to prevent of the ship main engine vibrations.