Micro-bubble drag reduction on a high speed vessel model

Bertram V (2000). Practical ship hydrodynamics. Butterworth-Heinemann, Linacre House, Jordan Hill, Oxford OX2 8DP, UK, 74.

ITTC (2002). Testing and extrapolation methods in resistance towing tank tests. Recommended Procedures and Guidelines.

Kato H, Miyanaga M, Yamaguchi H (1994). Frictional drag reduction by injecting bubbly water into a turbulent boundary layer and the effect of plate orientation. In:Serizawa A, Fukano T, Bataille J (eds). Advanced in Multiphase Flow. Elsevier, Amsterdam, 86–96.

Kato H, Miura K, Yamaguchi H, Miyanaga M (1998). Experimental study on microbubble ejection method for frictional drag reduction. Journal of Marine Science and Technology, 3(3), 122–129.

Kodama Y, Kakugawa A, Takahashi T, Kawashima H (2000). Experimental study on micro bubbles and their applicability to ships for skin friction reduction. International Journal of Heat and Fluid Flow, 21, 582–588.

Latorre R, Bablenko V (1998). Role of bubble injection technique in drag reduction. Proc. ONR-NUWC International Symposium on Seawater Drag Reduction, Newport, 319–326.

Latorre R, Miller A, Philips R (2003). Microbubble resistance reduction on a model SES catamaran. Journal of Ocean Engineering, 30, 2297–2309.

Madavan NK, Deutsch S, Merkle CL (1985). Measurements of local skin friction in a micro-bubble-modified turbulent boundary layer. Journal of Fluid Mechanic, 156, 237–256.

McCormick ME, Bhattacharyya R (1973). Drag reduction of a submersible hull by electrolysis. Nav Eng Journal, 85, 11–16.

Takahashi T, Kakugawa A, Kodama Y, Makino M (2001). Experimental study on drag reduction by microbubbles using a 50m-long flat splate ship. 2nd Int. Symp. on Turbulence and Shear Flow Phenomena, Stockholm, Sweden, 175–180.

Watanabe O, Masuko A, Shirose Y (1998). Measurements of drag reduction by microbubbles using very long ship models. Journal of Soc. Naval Architects, 183, 53–63.