Journal of Advanced Marine Engineering and Technology

The Korean Society of Marine Engineering (한국마린엔지니어링학회)
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Configuration and Analysis of a Feed-forward Control System for Jacket Cooling Water Temperature of Marine Prime Diesel Engine

주기관 쟈케트냉각수 온도를 위한 피드포워드 제어시스템의 구성과 분석

  • Published : 2008.11.30
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Abstract

Keeping cooling water temperature higher within the allowable range helps marine engines to run in more efficient condition especially when the engine load is low. Temperature control of jacket cooling water in outlet side of main engine has been more widely adopted to ships these days for the purpose to reduce fuel consumption rate. But If the temperature sensor for the control loop is placed at the outlet of engine, it brings more difficulties in attaining stable and desirable properties due to dead times included in pipe length and engine itself comparing to the case where the measuring point is at the inlet side of main engine. In relation with this problem, Feed-forward control could be one of realistic solutions as it reveals good properties and requires less cost for system configuration. This study suggests a forward control system which leads to improved temperature control performances to disturbance signals which could arise from variation of engine load or weather condition. Two dead times in the modelling were described, considering pipe length between the actuator and the engine as well as the thermal process inside the engine. The results of analysis were shown by simulations to confirm responses under different conditions.

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References

  1. O.J.M. Smith, "A controller to overcome dead time", ISA J., Vol. 6, No.2, pp. 28-33, 1959
  2. Shafiei Z. and Shenton AT, "Frequency-domain design of PID controllers for stable and unstable systems with time delay", Automatica 33(12), pp.2223-2232, 1997 https://doi.org/10.1016/S0005-1098(97)00148-9
  3. Akira Kojima and Kenko Uchida Etsujiro Shimemura, "Robust stabilization problem for a system with delays in control", SICE. Vol. 29, No.3, pp.315-325, 1993
  4. Jong-Hae Kim., Eun-Tae Jeung. and Hong-Bae Park., "Robust Control for Parameter Uncertain Delay Systems in State and Control Input", Automatica, Vol. 32, No. 9, pp.1337-1339, 1996 https://doi.org/10.1016/0005-1098(96)00074-X
  5. Miller K M., Witt N A J. and Russell M P., "Mathematical and Scale Model Platforms for Maneuvering Trials", International Symposium on Maneuverability of Ships at Low Speed, Ilawa, Poland, Oct. 1995
  6. H H Choi. and M J Chung., "Comments on quadratic stabilization of continuous time systems with state- delay and norm-bounded time-varying uncertainties", IEEE Transactions on Automatic Control, Vol. 42, No. 12, pp. 1740-1742, 1997 https://doi.org/10.1109/9.650031

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