The theoretical approaches for calculation of the vertical effective pressure of drop impact of artificial rain on soil and hard surface

Bryl, S V; Zverkov,

doi:10.35688/2413-8452-2016-01-004

Ekologiya I Stroitelstvo 2016

DOI: 10.35688/2413-8452-2016-01-004

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The theoretical approaches for calculation of the vertical effective pressure of drop impact of artificial rain on soil and hard surface

S V Bryl

Zverkov Zverkov²

Abstract: The article considers the problem of calculating the vertical effective pressure drops of artificial rain on soil and hard surfaces. It is noted that the problem of determining the effective vertical pressure p of rain drops on soil although it is difficult, however, has a solution using Newton’s laws. This issue V.V. Slastenin, G. and A.P. Isaev, V.M. Moskovkin and V.F. gahs, etc., and N scientists. Erowyn S. , M.B. Lebedev, V.I., Gorodnichev, etc. proposed different approaches for determining the pressure p … Show more

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2021

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Device Substantiation for Generating Artificial Rain Drops by Pneumohydraulic Liquid Spraying

2021

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The authors studied the pneumohydraulic device indicators for spraying liquids for irrigation, nutrition and protection of agricultural plants, taking into account the principles of water and energy conservation, based on preliminary gas saturation of sprayed water and the use of a cavitation effect in the design of the aerator unit during ejection and supply of air under pressure. (Research purpose) To determine the technological parameters of a pneumohydraulic device for spraying liquids to obtain controlled dispersive artificial rain and substantiate the choice of its optimal technical parameters depending on the operating modes. (Materials and methods) The authors used an algorithm for calculating parameters in EXCEL or WPS spreadsheet processor and mathematical expressions. (Results and discussion) The authors theoretically determined the minimum and maximum calculated parameters of the constructive solution geometry for spraying the liquid phase: water nozzle, air nozzle channel, mixing cell, middle annular gap, outlet nozzle. They changed indicators of operating water pressure – 0.20; 0.25; 0.30 and 0.35 megapascals; air – 0.25 and 0.30 megapascals, provided the water flow rate from 0.002 to 0.010 liter per second and air – from 0.0005 to 0.0090 kilogram per second. With an increase in the water flow rate within the specified limits and the ejection coefficient from 0.5 to 0.9, a linear increase in the average annular gap diameter from 2 to 15 millimetres was revealed, as well as a nonlinear dependence of the increase in the sprayer mixing cell diameter from 5 to 20 millimetres. The authors showed the possibility of reducing the mixing cell diameter if the water pressure was increased from 0.25 to 0.35 megapascal's and the air pressure was from 0.20 to 0.30 megapascals. They obtained the parameters values for the designed and experimental samples development, which turned out to be significantly less than when operating in the air ejection mode: the outlet nozzle and the middle annular gap – by 16 percent, the air nozzle – by 23, the diameter of the mixing cell – by 50 percent or more. (Conclusions) The authors obtained calculated data to optimize technological parameters and design solutions, which would speed up the manufacture of designed and model samples of the device and its experimental testing for the generation of dispersive artificial rain drops.

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Device Substantiation for Generating Artificial Rain Drops by Pneumohydraulic Liquid Spraying

2021

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The theoretical approaches for calculation of the vertical effective pressure of drop impact of artificial rain on soil and hard surface

Cited by 1 publication

References 0 publications

Device Substantiation for Generating Artificial Rain Drops by Pneumohydraulic Liquid Spraying

Device Substantiation for Generating Artificial Rain Drops by Pneumohydraulic Liquid Spraying

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