Title: CFD Modelling of the Effect of Pear Tree Canopy on Air-Assisted Orchard Spraying
Authors: Melese Endalew, Ayenew
Hertog, Maarten
Delele, Mulugeta Admasu
Baetens, Katrijn
Vercammen, Jef
Gomand, Ann
Ramon, Herman
Nicolai, Bart
Verboven, Pieter #
Issue Date: 31-Dec-2008
Publisher: ISHS Acta Horticulturae
Host Document: IV International Symposium on Applications of Modelling as an Innovative Technology in the Agri-Food-Chain vol:802 pages:73-80
Conference: MODEL-IT 2008 date:9-11 June 2008
Abstract: A computational fluid dynamics (CFD) model was used to study the effect of pear tree canopy on orchard spraying by integrating the 3-D architecture of trees planted in different years (1994, 2002 and 2004) into the model. Canopy architectural data (3-D internode coordinates and diameter) of pear trees (Pyrus communis) were
collected in an experimental orchard (PCfruit, Sint-Truiden, Belgium) in spring 2007. The data were converted into 3-D virtual geometries with porous sub-domains created
around each part of the canopy elements to represent the coverage of the leaves. A closure model used in the porous sub-domain considers momentum and kinetic energy
losses that are functions of leaf area density (A) and drag coefficient (Cd). The model was applied to a cross flow orchard sprayer (BAB-Bamps, Sint-Truiden, Belgium).
The flow of air (continuous phase) was solved using the Navier-Stokes equations and the k-ε turbulence model and the water droplets (discrete phase) in air were tracked
using a Lagrangian particle tracking multiphase flow model. The model was implemented in ANSYS-CFX-11.00 (ANSYS, Inc., Canonsburg, Pennsylvania, USA) in steady state conditions. Simulations were made for A of 1, 3 and 5 (m-1) with Cd of 0.2 for all the trees and each of them were compared with simulations on bare trees. The jet velocity at the wake was well above 10 m/s for bare trees of all years within the
sprayer height and this value decreased with increasing A. A similar behaviour was seen also in the normalized droplet concentration. At the wake more droplets were
drifted to the ground on leafed trees than bare trees because considerable amount of droplets decay faster as they lose their velocity in the porous region. Particles drifting to the atmosphere were more on bare trees than leafed trees. The vertical profiles of the air jet velocity and droplet concentration results at the wake were consistent and meaningful from both physical and theoretical perspectives.
ISSN: 0567-7572
Publication status: published
KU Leuven publication type: IC
Appears in Collections:Division of Mechatronics, Biostatistics and Sensors (MeBioS)
# (joint) last author

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