References
- Baree MS, Afroz L, Sakib S. 2017. An experiment with a ship model for prediction of added resistance in waves. Procedia Eng. 194:90–95.
- Bašić J, Degiuli N, Dejhalla R. 2017. Total resistance prediction of an intact and damaged tanker with flooded tanks in calm water. Ocean Eng. 130:83–91.
- Begovic E, Day AH, Incecik A. 2017. An experimental study of hull girder loads on an intact and damaged naval ship. Ocean Eng. 133:47–65.
- Begovic E, Day AH, Incecik A, Mancini S. 2015. Roll damping assessment of intact and damaged ship by CFD and EFD methods. In Proceeding of the 12th International Conference on the Stability of Ships and Ocean Vehicles, Glasgow, UK, 19–24 June 2015.
- Fenton JD. 1985. A fifth-order Stokes theory for steady waves. J Waterw Port Coastal Ocean Eng. 2(111):216–234.
- Gao Z, Wang Y, Su Y, Chen L. 2018. Numerical study of damaged ship’s compartment sinking with air compression effect. Ocean Eng. 147:68–76.
- Haro MPE, Seo J, Sadat-Hosseini H, Seok WC, Rhee SH, Stern F. 2017. Numerical simulations for the safe return to port of a damage passenger ship in head or heading seas. Ocean Eng. 143:305–318.
- IMO. 2007. Resolution MSC.245 (83): recommendation on a standard method for evaluating cross-flooding arrangements, adopted 12 October 2007.
- ITTC Procedures and Guidelines. 2011. Practical Guidelines for Ship CFD Applications. 7.5-03-02-03.
- Javanmardi M. 2015. The investigation of high quality surfing waves generated by a moving pressure source [PhD thesis], University of Tasmania. Website online: https://eprints.utas.edu.au/22895/.
- Kobayashi H, Kume K, Orihara H, Ikebuchi T, Aoki I, Yoshida R, Yoshida H, Ryu T, Arai Y, Katagiri K, Ikeda S. 2021. Parametric study of added resistance and ship motion in head waves through RANS: calculation guideline. Appl. Ocean Res. 110:102573.
- Lee J, Park DM, Kim Y. 2017. Experimental investigation on the added resistance of modified KVLCC2 hull forms with different bow shapes. J Eng Marit Environ. 231(2):395–410.
- Manderbacka T, Mikkola T, Ruponen P, Matusiak J. 2015. Transient responses of a ship to an abrupt flooding accounting for the momentum flux. J Fluids Struct. 57:108–126.
- Ming FR, Zhang AM, Cheng H, Sun PN. 2019. Numerical simulation of a damaged ship cabin flooding in transversal waves with Smoothed Particle Hydrodynamics method. Ocean Eng. 165:336–352.
- Olivieri A, Pistani F, Avanzini A, Penna R. 2013. Towing Tank Experiments of Resistance, Sinkage and Trim, Boundary Layer, Wake and Free-Surface Flow Around a Naval Combatant INSEAN 2340 Model, IIHR – Hydroscience & Engineering College of Engineering, The University of Iowa Technical, Report No. 421, September 2001. Website online: https://www2.iihr.uiowa.edu/wp-content/uploads/2013/06/TR421.pdf.
- Palazzi L, De Kat JO. 2004. Model experiments and simulations of a damaged ship with air flow taken into account. Mar Technol. 41(1):38–44.
- Papanikolaou A, Zaraphonitis G, Spanos D, Boulougouris E, Eliopoulou E. 2000. Investigation into the capsizing of damaged Ro-Ro passenger ships in waves. Proceeding of the 17th International Conference on Stability of Ships and Ocean Vehicles. STAB 2000. tasmania, pp. 351-362.
- Park DM, Lee J, Kim Y. 2015. Uncertainty analysis for added resistance experiment of KVLCC2 ship. Ocean Eng. 95:143–156.
- Park DM, Lee JH, Jung YW, Lee J, Kim Y, Gerhardt F. 2019. Experimental and numerical studies on added resistance of ship in oblique sea conditions. Ocean Eng. 186:106070.
- Peric M. 2018. Best practices for wave flow simulations. Nav Archit Int J R Inst Nav Archit (RINA). https://theairshed.com/pdf/COST%20732%20Best%20Practice%20Guideline%20May%202007.pdf
- Ruponen P, Kurvinen P, Saisto I, Harras J. 2013. Air compression in a flooded tank of a damaged ship. Ocean Eng. 57:64–71.
- Sadat-Hosseini H, Kim D, Carrica PM, Rhee SH, Stern F. 2016. URANS simulations for a flooded ship in calm water and regular beam waves. Ocean Eng. 120:318–330.
- Sadat-Hosseini H, Wu P, Carrica PM, Kim H, Toda H, Stern F. 2013. CFD verification and validation of added resistance and motions of KVLCC2 with fixed and free surge in short and long head waves. Ocean Eng. 59:240–273.
- Seo S, Park S, Koo BY. 2017. Effect of wave periods on added resistance and motions of a ship in head sea simulations. Ocean Eng. 137:309–327.
- Sigmund S, Moctar O. 2018. Numerical and experimental investigation of added resistance of different ship types in short and long waves. Ocean Eng. 147:51–67.
- STAR-CCM+ Users’ Guide Version 15.04. 2020. CD-Adapco, Computational dynamics-analysis & design. Melville, NY, USA: Application Company Ltd.
- Stocker MR. 2016. Surge free added resistance tests in oblique wave headings for the KRISO Container ship model [M.S. Thesis]. The University of Iowa.
- Valanto P, Hong Y. 2015. Experimental investigation on ship wave added resistance in regular head, oblique, beam and following waves. Proceedings of the 25th International Ocean and polar Engineering conference, Big island. hawaii, USA, 21-26 June 2015.
- Yu JW, Lee CM, Choi JE, Lee I. 2017. Effect of ship motions on added resistance in regular head waves of KVLCC2. Ocean Eng. 146:375–387.
- Zeng Q, Hekkenberg R, Thill C, Hopman H. 2020. Scale effects on the wave-making resistance of ships in shallow water. Ocean Eng. 212:107654.
- Zhang G, Wu J, Sun Z, Moctar OE, Zong Z. 2020a. Numerically simulated of flooding of a freely-floating two-dimensional damaged ship section using an improved MPS method. Appl Ocean Res. 101:102207.
- Zhang XL, Lin Z, Li P, Liu DK, Li Z, Pang ZW, Wang MQ. 2020b. A numerical investigation on the effect of symmetric and asymmetric flooding on the damage stability of a ship. J Mar Sci Technol. 25(4):1151–1165.
- Zhang XL, Lin Z, Mancini S, Li P, Li Z, Liu F. 2019a. A numerical investigation on the flooding process of multiple compartments Based on the Volume of Fluid method. J Mar Sci Eng. 7:211.
- Zhang XL, Lin Z, Mancini S, Li P, Li Z, Liu F. 2019b. Time-domain simulation of damage flooding considering air compression characteristics. Water (Basel). 11(4):796.
- Zhang XL, Lin Z, Mancini S, Li P, Liu DK, Liu F, Pang ZW. 2020c. Numerical investigation into the effect of damage openings on ship hydrodynamics by the overset mesh technique. J Mar Sci Eng. 8:11.