A mathematical model of aerial deposition of pesticides from aircraft.

“…By definition, for every ∈ Ω , , each site ℓ ∈ Λ is occupied by at least particles, and | ( )| + ≤ = ( ). It follows that , , is the range of ( ) for ∈ Ω , , ; the two sums involving ] in (18) correspond to the two sums involving ( ) in (1).…”

“…The importance of predicting droplet size can be seen from the wide range of applications utilizing sprays [17,18]. Because of the importance of this problem, novel approaches for measuring size distribution of droplet size in sprays have been developed [19][20][21][22][23].…”

Large Deviation Analysis of a Droplet Model Having a Poisson Equilibrium Distribution

“…By definition, for every ∈ Ω , , each site ℓ ∈ Λ is occupied by at least particles, and | ( )| + ≤ = ( ). It follows that , , is the range of ( ) for ∈ Ω , , ; the two sums involving ] in (18) correspond to the two sums involving ( ) in (1).…”

“…The importance of predicting droplet size can be seen from the wide range of applications utilizing sprays [17,18]. Because of the importance of this problem, novel approaches for measuring size distribution of droplet size in sprays have been developed [19][20][21][22][23].…”

Large Deviation Analysis of a Droplet Model Having a Poisson Equilibrium Distribution

“…This is a type of source for which relatively few field or theoretical dispersion studies have been conducted. Miller (1980) has constructed a mathematical model for calculating the dispersion and resulting deposition distribution of pesticides released from crop-dusting aircraft. This model was applied to the release of pesticides in droplet form at a very low altitude (approximately 10 ft).…”

Development and application of procedures to evaluate air quality and visibility impacts of low-altitude flying operations

“…The assessment of air quality impacts from low flying aircraft requires the simulation of an essentially instantaneous elevated line source, which is a type for which relatively few field or theoretical dispersion studies ht:.vebeen conducted. Miller (1980) has constructed a mathematical model for calculating the dispersion and resulting deposition distribution of pesticides released from crop-dusting aircraft. This model was applied to the release of pesticides in droplet form at a very low altitude [approximately 3 m (10 ft)].…”

Development and Application of Procedures to Evaluate Air Quality and Visibility Impacts of Low-Altitude Flying Operations