Journal of the Society of Naval Architects of Korea (대한조선학회논문집)

The Society of Naval Architects of Korea (대한조선학회)
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Design Technique of Post Swirl Stator in Container Vessels by CFD

CFD를 이용한 컨테이너선의 Post Swirl Stator 설계기법

  • Published : 2007.04.20
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Abstract

Post swirl stator is an energy saving device to recover rotational energy of the propeller. To optimize the performance of post swirl stator in container vessels, computational fluid dynamics using body force method was introduced. A commercial code Fluent was used in conjunction with body force distributed on the surface of actuator disk which is located in the propeller plane to optimize pitch angle of the post swirl stator blade. This study showed that CFD is an important tool to simulate flow behind ship with propeller, rudder and post swirl stator.

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References

  1. 강용덕, 김문찬, 전호환, 2004, '편재된 비대칭형 전류고정날개 추진시스템에 관한 연구,' 대한조선학회 논문집, 제 41 권, 제 3 호, pp. 13-21
  2. 김기현, 김정중, 최순호, 2005, 'Body Force 법을 이용한 선체-추진기-타 주위의 점성 유동해석,' 대한조선학회 추계학술대회 논문집, pp. 640-646
  3. 김문찬, 이진태, 서정천, 김호충, 1993, '비대칭형 전류고정날개 추진시스템 연구,' 대한조선학회 논문집, 제 30 권, 제 1 호, pp. 30-44
  4. 김 진, 박일룡, 김광수, 반석호, 2004, 'KRISO 컨데이너 및 VLCC 선형에 대한 RANS 시뮬레이션,' 대한조선학회 논문집, 제 42 권, 제 6 호, pp. 593-600
  5. 부경태, 홍춘범, 이경준, 2004, '선체/추진기/타를 고려한 선미 유동장 해석,' 대한조선학회 추계학술대회 논문집, pp. 527-531
  6. 부경태, 홍춘범, 백광준, 2005, 'CFD 를 이용한 자항 상태 시뮬레이션,' 대한조선학회 추계학술대회 논문집, pp. 599-604
  7. 이진태, 김문찬, 반석호, 김기섭, 김호충, 1993, '30만톤 초대형 유조선을 위한 전류고정날개 추진시스템 개발,' 대한조선학회 논문집, 제 31 권, 제 1 호, pp. 1-13
  8. Choi, J.K., 2000, Vortical Inflow-propeller Interaction Using an Unsteady Three Dimensional Euler Solver, Ph. D. Thesis, The University of Texas at Austin
  9. Hoshino, T., Oshima, A., Fujita, K., Kuroiwa, T., Hayashi, F. and Yamazaki, E., 2004,' Development of High-Performance Stator Fin by Using Advanced Panel Method,' Technical Review Vol. 41, No. 6, Mitsubishi Heavy Industries, Ltd
  10. Stern, F., Kim, H.T., Zhang, D.H., Toda ,Y., Kerwin, J. and Jessup, S., 1994,' Computation of Viscous Flow Around Propeller-Body Configurations: Series 60. $C_B$=0.6 Ship Model,' Journal of Ship Research, Vol. 38, No. 2, pp. 137-157

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