Evaluation of Different Internal Designs of Hydraulic Nozzles under an Accelerated Wear Test

Milanowski, Marek; Subr, Alaa; Parafiniuk, Stanisław

doi:10.3390/app12020889

Cited by 4 publications

(4 citation statements)

References 18 publications

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“…Therefore, it is important to select the appropriate nozzle size and ensure its resistance to excessive wear. It has been observed that wear on spray nozzle orifices can increase the flow rate beyond the design specifications [23]. Hence, this research incorporates the use of different sizes of spray nozzles in testing the electrified sprayer and comparing its performance to that of the sprayer operating with the rear power take-off shaft, assessing their impact on spray characteristics.…”

Section: Research Backgroundmentioning

confidence: 99%

The Effect of Power Sources in the Agricultural Tractor and the Developed Sprayer System on the Performance of the Electrical and Mechanical Sprayer System and some Performance Indicators of the Engine

Al-Taie,

Kadhim

2023

IOP Conf. Ser.: Earth Environ. Sci.

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An experiment was conducted to study the effect of the sprayer type according to the source of power and the size of the spray nozzle concerning the quality of the spray produced and fuel consumption.Two types of sprayers were used: a conventional boom sprayer (S1) and a modified (electrified) boom sprayer (S2), along with three sizes of the XR TeeJet 110 spray nozzle (N). The following technical performance indicators were examined: Density of coverage (drops/cm2) using ImageJ software, a 600dpi business card scanner, specifically the ScanShell 800N by CSSN, Inc, and water-sensitive paper (WSP), rate of spray nozzles discharge (ml/min), and fuel consumption (liters/hectare) using a calibrated cylinder, and the percentage of weed control by sampling treated and untreated weeds. The experiment was designed as a complete randomized block design in the order of the system (Nested design). Sprayer type had significant effect on spray coverage and nozzle discharge rate. The conventional boom sprayer resulted in a coverage of 169.5 drops/cm2, while the modified (electrified) boom sprayer achieved only 149.4 drops/cm2. The discharge rate was 707.5 ml/min when using the conventional boom sprayer, compared to 671.2 ml/min with lower pesticide consumption when using the modified (electrified) boom sprayer.The smaller-sized XR TeeJet 110.015 VP nozzle (N1) outperformed the other nozzle sizes in terms of coverage (178.7 drops/cm2), weed control percentage (84.56%), and lower pesticide consumption (lower nozzle discharge) of 490.4 ml/min.

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Section: Research Backgroundmentioning

confidence: 99%

The Effect of Power Sources in the Agricultural Tractor and the Developed Sprayer System on the Performance of the Electrical and Mechanical Sprayer System and some Performance Indicators of the Engine

Al-Taie,

Kadhim

2023

IOP Conf. Ser.: Earth Environ. Sci.

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“…In a previous study, [20] confirmed that the effect of the horizontal nozzle holder is less than the effect of pressure on the size of droplets, as with increasing pressure, the size of the sprayed droplets decreases, regardless of the type of nozzle used, the result was the formation of a number of drops at the highest pressure and also led to better coverage for the same pressure, in order to increase the pressure from (15psi = 1bar) to (45psi=3bar) both the percentage of coverage and the rate of the sprayer (l/ha) with increasing the number of drops to almost double In Iraq, spraying does not follow international standards, especially in terms of calibration and type of nozzle [21]. The use of worn agricultural nozzles effects the spraying process on plants, in terms of homogeneity of spraying and an increase in the amount of sprayed, which leads to an increase in the economic costs of spraying [22]. Saving spray while maintaining its quality leads to a reduction in the material costs of service operations [23].…”

Section: Introductionmentioning

confidence: 99%

Effect of Vertical Boom Position of the Greenhouse Sprayer on the Penetration of Spray to the Eggplants Canopy

Oun,

Subr

2023

IOP Conf. Ser.: Earth Environ. Sci.

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The research objective focuses on spraying the leaves of the plant from the top and bottom through a spraying machine designed and made of aluminum with a movable arm equipped with a nozzle holder divided into three parts and each piece contains a nozzle of the type (Flat Fan 120-C3) as the machine was tried in a greenhouse with a study of the effect of changing the positions of the upper and lower piece of the tube carrying the nozzles to four levels (A1, A2, A3, A4) and the effect of pressure change on two levels (2,4) bar and studying the effect of the previous factors on some of the characteristics of the study, Spray quality on adaxial of leaf, Spray quality on the abaxial surface of a leaf, spraying on all test sheets placed on the eggplant plant. The experimental design is RCBD according to the SPLIT-PLOT system and for three repeaters using the least significant difference (LSD) with a probability level of 0.05. The results showed that the A2 situation was significantly superior to all the studied qualities, and the pressure (4 bar) was significantly superior to all the studied qualities. As for the interaction position of boom (A4) with the pressure of (4bars), its result in all qualities was less than the rest of the coefficients, and it is not significant at the level of (0.05).

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“…Thus, the correct selection of spray nozzles or droplet-generating devices is fundamental to obtaining satisfactory and efficient results in hydraulic applications (Parafiniuk et al, 2018). The misuse of pesticides due to the application of worn-out nozzles translates into a higher operational cost, increased risks of environmental pollution, and, in some cases, causing direct damage to the plant (Milanowski et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

“…The rate of wear depends on factors such as spray pressure, abrasiveness of the sprayed liquid, and the material of the nozzle (Milanowski et al, 2022). Agricultural spray nozzles are manufactured using various materials, including brass, stainless steel, hardened stainless steel, nylon, plastic, and ceramic.…”

Section: Introductionmentioning

confidence: 99%

Spray Nozzle Wear Effects on Droplet Population

et al. 2022

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The wear rate of spray nozzles affects several factors. This study aimed to investigate the influence of spray nozzle wear rate on droplet characteristics, such as droplet size, droplet homogeneity, droplets prone to drift, and flow rate variation. Eight hydraulic nozzles models were subject to an accelerated wear test, and their effects were measured at six experimental wear times (0, 10, 20, 30, 40, and 50 hours). The following variables were evaluated: volume median diameter, percentage of spray volume containing droplets smaller than 100 μm (prone to spray drift), flow rate (L min -1 ), and relative span, which indicates droplet size homogeneity. The droplet population was measured using a laser particle size analyzer. The use of the spray nozzle tip influences the quality of the spray application due to the wear rate. This study revealed a linear increase in the flow rate and volume median diameter as functions of the wear rate increment. The droplet size increased over the wear time, which consequently modified the volume percentage of droplets smaller than 100 μm and significantly increased the relative span.

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Evaluation of Different Internal Designs of Hydraulic Nozzles under an Accelerated Wear Test

Cited by 4 publications

References 18 publications

The Effect of Power Sources in the Agricultural Tractor and the Developed Sprayer System on the Performance of the Electrical and Mechanical Sprayer System and some Performance Indicators of the Engine

The Effect of Power Sources in the Agricultural Tractor and the Developed Sprayer System on the Performance of the Electrical and Mechanical Sprayer System and some Performance Indicators of the Engine

Effect of Vertical Boom Position of the Greenhouse Sprayer on the Penetration of Spray to the Eggplants Canopy

Spray Nozzle Wear Effects on Droplet Population

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