Simulating spray deposition on plant canopies within a wind tunnel


Autoria(s): Dorr, G. J.; Hanan, J. S.; Woods, N.; Kleinmeulman, P. A.; Adkins, S. W.; Noller, B. N.
Contribuinte(s)

L. Alexander

S. Cooper

J. Cross

R. Glass

B. Magri

T. Robinson

D. Stock

B. Tayor

P. Walklate

J. van de Zande

Data(s)

01/01/2006

Resumo

Three-dimensional computer modelling techniques are being used to develop a probabilistic model of turbulence-related spray transport around various plant architectures to investigate the influence of plant architectures and crop geometry on the sprayapplication process. Plant architecture models that utilise a set of growth rules expressed in the Lindenmayer systems (L-systems) formalism have been developed and programmed using L-studio software. Modules have been added to simulate the movement ofdroplets through the air and deposition on the plant canopy. Deposition of spray on an artificial plant structure was measured in the wind tunnel at the University of Queensland, Gatton campus and the results compared to the model simulation. Further trials are planned to measure the deposition of spray droplets on various crop and weed species and the results from these trials will be used to refine and validate the combined spray and plant architecture model.

Identificador

http://espace.library.uq.edu.au/view/UQ:104631

Idioma(s)

eng

Publicador

Association of Applied Biologists

Palavras-Chave #300204 Plant Protection (Pests, Diseases and Weeds) #620199 Field crops not elsewhere classified #730210 Environmental health #321299 Public Health and Health Services not elsewhere classified #080110 Simulation and Modelling #E1
Tipo

Conference Paper