Modeling In-Canopy Dispersion of Pheromones Using a Puff Model
Modeling In-Canopy Dispersion of Pheromones Using a Puff Model
Modeling In-Canopy Dispersion of Pheromones Using a Puff Model
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<strong>Puff</strong> Release<br />
• 1 puff released every 1 s<br />
– Advected downwind using sonic<br />
data as input<br />
• u, v, and w wind components<br />
• Spread <strong>of</strong> puff is assumed<br />
Gaussian<br />
– Calculated from turbulence data<br />
– Isotropic in the horizontal<br />
Y Distance (m)<br />
X Distance (m)<br />
• 30 minute simulation time<br />
• Domain<br />
– 66 m X 66 m X 10 m<br />
– 0.5 m X 0.5 m X 0.5 m (grid<br />
size)