Add to ORKGSignificant progress has been made to date in modelling, computationally, the formation and development of the dust cloud that forms in the air surrounding the rotorcraft under brownout conditions. Modern computational methods are able to replicate not only the development of the dust cloud in appropriate operational scenarios, but also the sensitivity of the shape and density of the dust cloud to the detailed design of the rotorcraft. Results so far suggest that attempts to ameliorate brownout by aerodynamic means, for instance by modifying the rotor properties, will be frustrated to some extent by the inherent instability of the °flow field that is produced by the helicopter. Nonetheless, very recent advances in understanding the fundamen...
Dust entrained by low flying helicopters leads to the degraded visual environment, brownout. Particl...
Rotorcraft brownout is caused by the entrainment of dust and sand particles in helicopter downwash, ...
Helicopters can experience brownout when flying close to a dusty surface. The uplifting of dust in t...
Significant progress has been made to date in modelling, computationally, the formation and developm...
Abstract Helicopters operating close to the ground in dusty environments tend to generate large clou...
A computational model is presented for simulating the development of the dust cloud that can be entr...
The formation of the dust cloud that is associated with low-level helicopter operations in desert en...
A computational model is presented that can be used to simulate the development of the dust cloud th...
Brown’s Vorticity Transport Model, coupled to an additional particle transport model, is used to sim...
A critical operational problem for Army rotorcraft is “brownout ” caused by excessive dust and debri...
When helicopters operate close to the ground in desert conditions, the rotor wake can entrain large ...
The paper describes a methodology for the design of helicopter rotors with improved brownout char-ac...
n this work computational fluid dynamics is used to validate experimental results for a two-bladed s...
Dust entrained by low flying helicopters leads to the degraded visual environment, brownout. Particl...
Rotorcraft brownout is caused by the entrainment of dust and sand particles in helicopter downwash, ...
Helicopters can experience brownout when flying close to a dusty surface. The uplifting of dust in t...
Significant progress has been made to date in modelling, computationally, the formation and developm...
Abstract Helicopters operating close to the ground in dusty environments tend to generate large clou...
A computational model is presented for simulating the development of the dust cloud that can be entr...
The formation of the dust cloud that is associated with low-level helicopter operations in desert en...
A computational model is presented that can be used to simulate the development of the dust cloud th...
Brown’s Vorticity Transport Model, coupled to an additional particle transport model, is used to sim...
A critical operational problem for Army rotorcraft is “brownout ” caused by excessive dust and debri...
When helicopters operate close to the ground in desert conditions, the rotor wake can entrain large ...
The paper describes a methodology for the design of helicopter rotors with improved brownout char-ac...
n this work computational fluid dynamics is used to validate experimental results for a two-bladed s...
Dust entrained by low flying helicopters leads to the degraded visual environment, brownout. Particl...
Rotorcraft brownout is caused by the entrainment of dust and sand particles in helicopter downwash, ...
Helicopters can experience brownout when flying close to a dusty surface. The uplifting of dust in t...