Andere Kunden interessierten sich auch für
![TESTING AND EVALUATION OF TRACTOR OPERATED POWER SPRAYER]( "TESTING AND EVALUATION OF TRACTOR OPERATED POWER SPRAYER")
TESTING AND EVALUATION OF TRACTOR OPERATED POWER SPRAYER29,99 €![Tractor Operated Ditcher]( "Tractor Operated Ditcher")
Tractor Operated Ditcher23,99 €![Development and Performance Evaluation of Manual Operated Garlic Bulb Breaker]( "Development and Performance Evaluation of Manual Operated Garlic Bulb Breaker")
Development and Performance Evaluation of Manual Operated Garlic Bulb Breaker23,99 €![Ergonomic Evaluation of Pedal Operated Maize Sheller]( "Ergonomic Evaluation of Pedal Operated Maize Sheller")
Ergonomic Evaluation of Pedal Operated Maize Sheller23,99 €![Development, Testing and Evaluation of Manually Operated Single Row Cotton Planter]( "Development, Testing and Evaluation of Manually Operated Single Row Cotton Planter")
Development, Testing and Evaluation of Manually Operated Single Row Cotton Planter23,99 €![Use of different resin percentages for preparation of particle board]( "Use of different resin percentages for preparation of particle board")
Use of different resin percentages for preparation of particle board23,99 €![Agricultural Equipment Operations]( "Agricultural Equipment Operations")
Agricultural Equipment Operations30,99 €
Experiment was conducted to evaluate the particle drift and spray deposition from there spraying equipments i.e. air sleeve boom, boom sprayer and aero blast sprayer in the laboratory for meteorological variables like wind speed (1.5 m/s, 1.7 m/s and 1.8 m/s), temperature (22 °C, 28 °C and 34 °C), relative humidity (54 %, 58 % and 69 %). Spray deposition was measured in to the canopy of cotton plant at six different positions in the form of droplet size (VMD), uniformity coefficient and droplet density. The highest drift was observed in aero blast sprayer followed by boom with least drift in air sleeve boom sprayer. Maximum amount of drift was observed in 0.4 to 0.9 meter zone area at 5 and 10 meter distance. The amount of drift was significantly increased with increases in temperature and wind velocity. The amount of drift was significantly decreased with decrease in humidity. The amount of drift was significantly higher with decrease in droplet size (VMD) and increase in droplet density.