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Marine Propeller Design
Gerr, D. (2018). Propeller Handbook, Second Edition: The Complete Reference for Choosing, Installing, and Understanding Boat Propellers . McGraw-Hill Education.
Carlton, J. (2018). Marine Propellers and Propulsion . Butterworth-Heinemann.
Theodorsen, T. (1932). On the theory of wing sections with particular reference to the lift distribution (No. NACA-TR-383) .
Kerwin, J. E., & Hadler, J. B. (2010). Principles of Naval Architecture Series: Propulsion . Society of Naval Architects and Marine Engineers.
Burrill, L. C., & Emerson, A. (1963). Propeller cavitation: Further tests on 16in. propeller models in the King’s College cavitation tunnel . International Shipbuilding Progress
Krasilnikov, V. (2019). CFD modelling of hydroacoustic performance of marine propellers: Predicting propeller cavitation . In Proceedings of the 22nd Numerical Towing Tank Symposium.
Abbott, I. H., & Von Doenhoff, A. E. (2012). Theory of wing sections: including a summary of airfoil data . Courier Corporation.
Brockett, T. (1966). Minimum pressure envelopes for modified NACA-66 sections with NACA a= 0.8 camber and Buships type I and type II sections . David Taylor Model Basin report.
Castro, L. F. S., von Zadow, H., & Vesting, F. (2019). Tip Geometry Effects on Performance and Erosion for Tip Rake Propellers . In 6th International Symposium on Marine Propulsors (SMP).
Barnitsas, M. M., Ray, D., & Kinley, P. (1981). KT, KQ and efficiency curves for the Wageningen B-series propellers . University of Michigan.
Bertoglio, C., Gaggero, S., Rizzo, C. M., Vaccaro, C., & Viviani, M. (2015). Influence of propeller characteristics on propeller structural design . IMAM.
Vardhan, D. H., Ramesh, A., & Reddy, B. C. M. (2019). A review on materials used for marine propellers . Materials Today: Proceedings.
Hess, J. L., & Smith, A. O. (1967). Calculation of potential flow about arbitrary bodies . Progress in Aerospace Sciences.
Stokkermans, T. C., Van Arnhem, N., Sinnige, T., & Veldhuis, L. L. (2019). Validation and comparison of RANS propeller modeling methods for tip-mounted applications . AIAA Journal.
Birk, L. (2019) Fundamentals of Ship Hydrodynamics: Fluid Mechanics, Ship Resistance and Propulsion . John Wiley & Sons.
Arapakopoulos, A., Abt, C., Hauschulz, S., & Harries, S. (2024). Optimization and surrogate modeling of tip-rake propellers . In 8th International Symposium on Marine Propulsors (SMP).
Khuri, A. I., & Mukhopadhyay, S. (2010). Response surface methodology. Wiley interdisciplinary reviews: Computational statistics .
Harries S., Käther B.-L. (1997) Rechnererzeugte Propellergeometrien ; Institut für Schiffs- und Meerestechnik der Technischen Universität Berlin.
Turbomachinery Design
Literature
Bohl, W., Elmendorf, W., Prof. Dr.-Ing, Maschinenbauingenieur, Heilbronn and Fachhochschule Heilbronn. (n.d.). Strömungsmaschinen I, Aufbau und Wirkungsweise , 8th ed. 2002, Vogel, Würzburg.
Bräunling, W.J.G. (2015), Flugzeugtriebwerke : Grundlagen, Aero-Thermodynamik, ideale und reale Kreisprozesse, Thermische Turbomaschinen, Komponenten, Emissionen und Systeme , 4th ed. 2015., Springer Berlin Heidelberg : Imprint: Springer Vieweg, Berlin, Heidelberg.
Carolus, T., Fans - Aerodynamic Design, Noise Reduction, Optimization , 1st ed., 2022. Springer Vieweg
Dick, E. (2022), Fundamentals of Turbomachines , Second edition., Vol. 130, Springer International Publishing AG, Cham, doi: 10.1007/978-3-030-93578-8.
Gambini, M. and Vellini, M. (2021), Turbomachinery: Fundamentals, Selection and Preliminary Design , 2021., Springer International Publishing AG, Cham, doi: 10.1007/978-3-030-51299-6.
Lakshminarayana, B. (1996), Fluid Dynamics and Heat Transfer of Turbomachinery , Wiley, New York ; Chichester ; Brisbane ; Toronto ; Singapore.
Peng, W.W. (2008), Fundamentals of Turbomachinery , Wiley, Hoboken, N.J.
Schobeiri, M.T. (2006), Turbomachinery Flow Physics and Dynamic Performance , 1st ed., Springer Nature, Berlin, Heidelberg