CFD-Based Self-Propulsion Analysis of a 1/75 Scale Aframax Model in Medium-Deep Water Using the Body Force Propeller Method

Raza, A.; Zeng, Q.; Riaz, Z.; Khan, O.; Abbas, M.; Van Hoydonck, W.

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CFD-Based Self-Propulsion Analysis of a 1/75 Scale Aframax Model in Medium-Deep Water Using the Body Force Propeller Method

Raza, A.; Zeng, Q.; Riaz, Z.; Khan, O.; Abbas, M.; Van Hoydonck, W. (2025). CFD-Based Self-Propulsion Analysis of a 1/75 Scale Aframax Model in Medium-Deep Water Using the Body Force Propeller Method, in: Conference proceedings International Mechanical Engineering Conference (IMEC) 2025. pp. [1-13]

In: (2025). Conference proceedings International Mechanical Engineering Conference (IMEC) 2025. The Institution of Engineers Pakistan/NED University of Engineering and Technology: [s.l.]. , meer

Beschikbaar in	Auteurs
Waterbouwkundig Laboratorium: Open Repository 413526 [ OWA ]
Documenttype: Congresbijdrage

Trefwoorden

Harbours and waterways > Manoeuvring behaviour > Influence under keel clearance
Harbours and waterways > Resistance and propulsion > Scale effects
Numerical calculations

Author keywords

Computational Fluid Dynamics (CFD), self-propulsion, body force propeller method, medium-deep water, Aframax tanker, ship hydrodynamics, shallow and confined water

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PhD - Scale effects on ship resistance and propulsion, meer

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Raza, A. Zeng, Q. Riaz, Z.	Khan, O. Abbas, M. Van Hoydonck, W., meer

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