Add to ORKGAbstract Helicopters operating close to the ground in dusty environments tend to generate large clouds of dust in the surrounding air. These clouds can obscure the pilot's view of the ground and lead to a dangerous condition known as brownout. Given the intimate relationship between the induced flow field around the rotor and the process through which the particulate matter becomes airborne and is subsequently transported, it has been speculated that the design of its rotor may influence the shape and size of the dust clouds that, are produced by any particular type of helicopter. This paper presents a study of the influence of two key geometric properties of the rotor on the development of these dust clouds. A particle transport model is c...
Brownout dust cloud simulations were conducted for rotorcraft undergoing representative landing mane...
Rotorcraft brownout is caused by the entrainment of dust and sand particles in helicopter downwash, ...
In this work, computational fluid dynamics was used to support safety analyses of rotors operating i...
Helicopters operating close to the ground in dusty environments tend to generate large clouds of dus...
Brown's Vorticity Transport Model, coupled to an additional particle transport model, is used to sim...
The formation of the dust cloud that is associated with low-level helicopter operations in desert en...
Significant progress has been made to date in modelling, computationally, the formation and developm...
A computational model is presented that can be used to simulate the development of the dust cloud th...
A computational model is presented for simulating the development of the dust cloud that can be entr...
When helicopters operate close to the ground in desert conditions, the rotor wake can entrain large ...
n this work computational fluid dynamics is used to validate experimental results for a two-bladed s...
The paper describes a methodology for the design of helicopter rotors with improved brownout char-ac...
Quantitative and qualitative results of a series of experiments conducted on a rotor in ground effec...
Brownout dust cloud simulations were conducted for rotorcraft undergoing representative landing mane...
Rotorcraft brownout is caused by the entrainment of dust and sand particles in helicopter downwash, ...
In this work, computational fluid dynamics was used to support safety analyses of rotors operating i...
Helicopters operating close to the ground in dusty environments tend to generate large clouds of dus...
Brown's Vorticity Transport Model, coupled to an additional particle transport model, is used to sim...
The formation of the dust cloud that is associated with low-level helicopter operations in desert en...
Significant progress has been made to date in modelling, computationally, the formation and developm...
A computational model is presented that can be used to simulate the development of the dust cloud th...
A computational model is presented for simulating the development of the dust cloud that can be entr...
When helicopters operate close to the ground in desert conditions, the rotor wake can entrain large ...
n this work computational fluid dynamics is used to validate experimental results for a two-bladed s...
The paper describes a methodology for the design of helicopter rotors with improved brownout char-ac...
Quantitative and qualitative results of a series of experiments conducted on a rotor in ground effec...
Brownout dust cloud simulations were conducted for rotorcraft undergoing representative landing mane...
Rotorcraft brownout is caused by the entrainment of dust and sand particles in helicopter downwash, ...
In this work, computational fluid dynamics was used to support safety analyses of rotors operating i...