A development of longitudinal static stability analysis method of a Wing-In-Ground effect vehicle in cruise during the design process

Aminzadeh, 2017, Stability analysis for time-varying WIG vehicle dynamics in the presence of wavy boundary and gust, Ocean Eng., 145, 148, 10.1016/j.oceaneng.2017.08.031 Blokhin, 2012, The application of computer simulation for the determination of WIG craft aerodynamic characteristics in a cruising regime, Vestnik Lobachevsky Univ. Nizhni Novgorod, 3, 147 Chun, 2002, Longitudinal stability and dynamic motions of a small passenger WIG vehicle, Ocean Eng., 29, 1145, 10.1016/S0029-8018(01)00098-1 Doig, 2014, Transonic and supersonic ground effect aerodynamics, Prog. Aero. Sci., 69, 1, 10.1016/j.paerosci.2014.02.002 Fevralskikh, 2017, 175 Gramuzov, 2019, Automated optimization of wing and horizontal fins layout of a groundplane based on numerical simulation of aerodynamics, Mar. Intellect. Technol., 3, 38 He, 2019, Non-modal stability analysis of low-Re separated flow around a NACA 4415 airfoil in ground effect, Aero. Sci. Technol., 92, 269, 10.1016/j.ast.2019.06.007 Irodov, 1970, Criteria of longitudinal stability of ekranoplan, Ucheniye Zapiski TSAGI, 1, 63 Jamei, 2018, Ground boundary layers effect on aerodynamic coefficients of a compound wing with respect to design parameters, Ocean Eng., 164, 228, 10.1016/j.oceaneng.2018.06.061 Kalyasov, 2017, Application of wing mechanization in the form of flap and pre-fender on takeoff modes of ground-planes with static air cushion, Mar. Intellect. Technol., 2, 9 Kim, 2008, Aeronumeric optimal design of a wing-in-ground-effect vehicle, J. Mar. Sci. Technol., 14, 39, 10.1007/s00773-008-0020-7 Kornev, 2003, Complex numerical modeling of dynamics and crashes of wing-in-ground vehicles, 1 Kornev, 2014, Investigations of the safety of flight of WIG vehicle, Ship Technol. Res., 61, 80, 10.1179/str.2014.61.2.002 Kornev, 2019, On unsteady effects in WIG vehicle aerodynamics, Int. J. Aero. Eng., 1 Kosari, 2016, Investigation of longitudinal dynamics of a small WIG vehicle in flight over sea Waves, Ocean Eng., 127, 23, 10.1016/j.oceaneng.2016.09.031 Lee, 2013, Aerodynamic analysis and multi-objective optimization of wings in ground effect, Ocean Eng., 68, 1, 10.1016/j.oceaneng.2013.04.018 Lee, 2018, Computational analysis of static height stability and aerodynamics of vehicles with a fuselage, wing and tail in ground effect, Ocean Eng., 168, 12, 10.1016/j.oceaneng.2018.08.051 Lobachev, 2017, Comparative analysis of two approaches to the development of an aerohydrodynamic layout of a fast amphibious ship, Morskoy Vestnik, 3, 22 Maskalik, 2005, 576 Matveev, 2013, Unsteady motions of a Ram wing flying above waves and low-height obstacles Menter, 1993, Zonal two equation k - ω turbulence models for aerodynamic flows Moon, 2005, Aerodynamic investigation of three-dimensional wings in ground effect for aero-levitation electric vehicle, Aero. Sci. Technol., 9, 485, 10.1016/j.ast.2005.01.005 Morozov, 2013, Theory and practice of marine activities, Innovat. Trans. Subsyst., 42 Ostoslavsky, 1957, 560 Park, 2008, Effect of endplate shape on performance and stability of wings-in ground (WIG) vehicle, Proc. World Acad. Sci. Eng. Technol., 30 Park, 2010, Optimal design of two-dimensional wings in ground effect using multi-objective genetic algorithm, Ocean Eng., 37, 902, 10.1016/j.oceaneng.2010.03.001 Rozhdestvensky, 2006, Wing-in-ground effect vehicles, Prog. Aero. Sci., 42, 211, 10.1016/j.paerosci.2006.10.001 Shabarov, 2020, Influence of ground effect on longitudinal aerodynamic damping of wing-in-ground effect vehicles, Ship Technol. Res., 1 Sokolyansky, 2012, Amphibians with air cushioned landing gear - the key to the Arctic, Arctic: Ecol. Econ., 1, 38 Staufenbiel, 1988, Stability of airplanes in ground effect, J. Airvehicle, 25, 289 Tavakoli Dakhrabadi, 2016, Influence of main and outer wings on aerodynamic characteristics of compound wing-in-ground effect, Aero. Sci. Technol., 55, 177, 10.1016/j.ast.2016.06.002 Wanga, 2013, Computational aerodynamics and flight stability of Wing-In-Ground (WIG) vehicle Yang, 2010, Effects of design parameters on longitudinal static stability for WIG vehicle, Int. J. Aerodynam., 1, 97, 10.1504/IJAD.2010.031705 Yang, 2010, Aerodynamic study of WIG craft near curved ground, J. Hydrodynam. B, 22, 371 Yun, 2010 Zhu, 2020, Impact of the ground effect on the energy extraction properties of a flapping wing, Ocean Eng., 209, 107376, 10.1016/j.oceaneng.2020.107376