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A computer model to predict the droplet size traveling distance in nowind and windy conditions for different nozzle shapes [electronic resource].

By:

El-Berry, A. M

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Language: English Summary language: Arabic Description: p.185-207Other title:

برنامج بالحاسب الالكتروني للتنبؤ بمسافة سقوط قطرات المياه في ظروف انعدام الرياح وعند سرعات رياح مختلفة لأشكال مختلفة من فوهات الري بالرش [Added title page title]

Uniform titles:

Misr Journal of Agricultural Engineering, 2009 v.26 (1) [electronic resource].

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In: Misr Journal of Agricultural Engineering 2009.v.26(1)Summary: A finite difference numerical model was developed to determine the mean droplet size diameter at any distance from a sprinkler as a function of nozzle shape, size and pressure. Droplet size data from square, rectangle, triangle and circle nozzle orifice shapes verified the model. Data for model prediction were generated throughout lab experiments. Nozzle pressure and shape had a major influence on droplet size. Higher pressure promoted smaller droplets over the entire application profile. Noncircular nozzles had a large droplet size at the same distance from sprinkler but circular nozzle had the largest droplet size near the perimeter.

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A finite difference numerical model was developed to determine the mean droplet size diameter at any distance from a sprinkler as a function of nozzle shape, size and pressure. Droplet size data from square, rectangle, triangle and circle nozzle orifice shapes verified the model. Data for model prediction were generated throughout lab experiments. Nozzle pressure and shape had a major influence on droplet size. Higher pressure promoted smaller droplets over the entire application profile. Noncircular nozzles had a large droplet size at the same distance from sprinkler but circular nozzle had the largest droplet size near the perimeter.

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