Numerical Study of B-Screw Ship Propeller Performance: Effect of Tubercle Leading Edge

Mohammad Danil Arifin, Frengki Mohamad Felayati

Abstract


Various attempts to modify the ship's propeller have been made to improve performance as a propulsion component. This paper analyzes the effect of modification of the B-Series propeller by adopting a whale fin shape (Humpback Whale). Also, it analyzes the flow in the propeller before (standard) and after modification. Modifications are made to the leading edge, which is called the tubercle leading edge (TLE). It adds and subtracts sections with a wavelength of 0.2R and amplitude of 2.5% of the chord section length in the propeller leading edge. The numerical study is used using CFD on different J values (0.2, 0.4, and 0.6). It was found that the modification of TLE has a less significant effect on performance. Instead, it decreased at a low J value (0.2). Meanwhile, the largest decrease was at a high J value (0.6), namely up to 10.4% for thrust, 4.3% for torque, and 6.4% for efficiency. Whereas at J=0.4, the torque increases only 0.4%, and the torque and thrust decrease, although less significant. The flow analysis indicates that the shape of the TLE provides a decrease in pressure. However, on the positive side, this modification provides a reduction in noise on the propeller surface.

Keywords


CFD; Leading-Edge; Propeller; Simulation; Tubercle

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References


J.-H. Chen and Y.-S. Shih, "Basic design of a series propeller with vibration consideration by genetic algorithm," J. Mar. Sci. Technol., vol. 12, no. 3, pp. 119–129, 2007.

M.D. Arifin, D. Faturachman, F. Octaviani, K. A. Sulaeman, “Analysis of the Effect of Changes in Pitch Ratio and Number of Blades on Cavitation on CPP,” International Journal of Marine Engineering Innovation and Research., vol. 5, no. 4, pp. 255-264, 2020.

M.D. Arifin, D. Faturachman, F. Octaviani, “Analisa Pengaruh Perubahan Pitch Ratio dan Jumlah Blade Terhadap Kavitasi Pada Controllable Pitch Propeller (CPP),” Jurnal Sains dan Teknologi Fakultas Teknik Universitas Darma Persada., vol. 9, no. 2, pp. 74–85, 2020.

M. M. Shora, H. Ghassemi, and H. Nowruzi, "Using computational fluid dynamic and artificial neural networks to predict the performance and cavitation volume of a propeller under different geometrical and physical characteristics," J. Mar. Eng. Technol., vol. 17, no. 2, pp. 59–84, 2018.

S. Kapuria and H. N. Das, "Improving hydrodynamic efficiency of composite marine propellers in off-design conditions using shape memory alloy composite actuators," Ocean Eng., vol. 168, pp. 185–203, 2018.

I. H. Ibrahim and T. H. New, "Tubercle modifications in marine propeller blades," in 10th Pacific Symposium on Flow Visualization and Image Processing, 2015, pp. 1–11.

F. R. Butt and T. Talha, "Numerical investigation of the effect of leading-edge tubercles on propeller performance," J. Aircr., vol. 56, no. 3, pp. 1014–1028, 2019.

A. Asghar, R. E. Perez, and W. D. Allan, "Further Parametric Investigation of Leading Edge Tubercles on the Propeller Performance," in AIAA Scitech 2019 Forum, 2019, p. 850.

J. Favier, A. Pinelli, and U. Piomelli, "Control of the separated flow around an airfoil using a wavy leading edge inspired by humpback whale flippers," Comptes Rendus - Mec., vol. 340, no. 1–2, pp. 107–114, Jan. 2012.

S. M. A. Aftab, N. A. Razak, A. S. Mohd Rafie, and K. A. Ahmad, "Mimicking the humpback whale: An aerodynamic perspective," Progress in Aerospace Sciences, vol. 84. Elsevier Ltd, pp. 48–69, 01-Jul-2016.

W. Shi, R. Rosli, M. Atlar, R. Norman, D. Wang, and W. Yang, "Hydrodynamic performance evaluation of a tidal turbine with leading-edge tubercles," Ocean Eng., vol. 117, pp. 246–253, May 2016.

W. Shi, M. Atlar, and R. Norman, "Detailed flow measurement of the field around tidal turbines with and without biomimetic leading-edge tubercles," Renew. Energy, vol. 111, pp. 688–707, Oct. 2017.

I. H. Ibrahim and T. H. New, "A numerical study on the effects of leading-edge modifications upon propeller flow characteristics," in Ninth International Symposium on Turbulence and Shear Flow Phenomena (TSFP-9)(accepted), 2015.




DOI: http://dx.doi.org/10.12962/j25481479.v6i1.8702

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E-ISSN: 2548-1479

 

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