2016
DOI: 10.3103/s1068799816010074
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Computational modeling of interference between helicopter main and tail rotors based on nonlinear blade vortex model

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Cited by 4 publications
(3 citation statements)
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“…For example, in the papers [1,2] it is declared that at the "MAI" "Designing helicopters" department was developed a method of calculating the aerodynamic characteristics of the rotor, based on a nonlinear vortex blade model, considering the diffusion of the vortex wake. The authors declare that the model and the software package are used to solve a wide range of applied problems of helicopter rotor aerodynamics and research work is conducted in the interests of the industry organizations.…”
Section: Review Of Recent Research and Publicationsmentioning
confidence: 99%
“…For example, in the papers [1,2] it is declared that at the "MAI" "Designing helicopters" department was developed a method of calculating the aerodynamic characteristics of the rotor, based on a nonlinear vortex blade model, considering the diffusion of the vortex wake. The authors declare that the model and the software package are used to solve a wide range of applied problems of helicopter rotor aerodynamics and research work is conducted in the interests of the industry organizations.…”
Section: Review Of Recent Research and Publicationsmentioning
confidence: 99%
“…This is possible when flying with a slip, or when hovering under the wind conditions. In particular, the work by Fletcher & Brown (2010) [5], the work by Ignatkin et al (2014) [6] and the work by Arda and Yüksel (2019) [7] have been focused on the computational study of the main and tail rotor interference. These works consider flying modes with the slip for the free stream conditions out of ground effect.…”
Section: Introductionmentioning
confidence: 99%
“…Experimental studies of the aerodynamic characteristics of helicopter rotors in hover and forward flight near the ground surface in wind tunnels are associated with large material and time costs, as well as significant technical difficulties. Earlier experimental work in this area has been mainly focused on the analysis of the influence of the ground surface on the aerodynamic characteristics of the rotor, such as the work by Knight and Hefner (1941) [6] and Cheeseman and Bennett (1957) [9]. Koo and Oka (1971) [10] also present the results of the flow structure study around a rotor operating near the ground.…”
Section: Introductionmentioning
confidence: 99%