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3. Quantification of Size-Binned Particulate Matter in Electronic Cigarette Aerosols Using Multi-Spectral Optical Sensing and Machine Learning.

Author

Jiang, Hao and Kolaczyk, Keith

Subjects
*ELECTRONIC cigarettes, *PARTICULATE matter, *PRESSURE sensors, *ELECTRONIC measurements, *MACHINE learning
Abstract

To monitor health risks associated with vaping, we introduce a multi-spectral optical sensor powered by machine learning for real-time characterization of electronic cigarette aerosols. The sensor can accurately measure the mass of particulate matter (PM) in specific particle size channels, providing essential information for estimating lung deposition of vaping aerosols. For the sensor's input, wavelength-specific optical attenuation signals are acquired for three separate wavelengths in the ultraviolet, red, and near-infrared range, and the inhalation pressure is collected from a pressure sensor. The sensor's outputs are PM mass in three size bins, specified as 100–300 nm, 300–600 nm, and 600–1000 nm. Reference measurements of electronic cigarette aerosols, obtained using a custom vaping machine and a scanning mobility particle sizer, provided the ground truth for size-binned PM mass. A lightweight two-layer feedforward neural network was trained using datasets acquired from a wide range of puffing conditions. The performance of the neural network was tested using unseen data collected using new combinations of puffing conditions. The model-predicted values matched closely with the ground truth, and the accuracy reached 81–87% for PM mass in three size bins. Given the sensor's straightforward optical configuration and the direct collection of signals from undiluted vaping aerosols, the achieved accuracy is notably significant and sufficiently reliable for point-of-interest sensing of vaping aerosols. To the best of our knowledge, this work represents the first instance where machine learning has been applied to directly characterize high-concentration undiluted electronic cigarette aerosols. Our sensor holds great promise in tracking electronic cigarette users' puff topography with quantification of size-binned PM mass, to support long-term personalized health and wellness. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Effect of the Localized Insecticides Spray Technique to Control Halyomorpha halys in Actinidia chinensis Orchards.

Author

Landi, Matteo, Preti, Michele, Masetti, Antonio, and Spinelli, Francesco

Subjects
*BROWN marmorated stink bug, *FARM produce, *INSECTICIDE application, *PEST control, *INSECT mortality, *KIWIFRUIT
Abstract

Simple Summary: Halyomorpha halys, the brown marmorated stink bug, is an invasive insect pest that in the last two decades became a major problem for several agricultural commodities, including kiwifruit. Its management relies on integrating different control methods, including board-spectrum insecticides. Nevertheless, chemical control measures may not achieve satisfactory results and there is still margin for improvement, considering for instance the optimization of the spray technique. This problem is even more relevant in kiwifruit due to its peculiar training system, which reduce fruit exposure to insecticide sprays. In this study, two spray techniques were tested to maximize the insecticides efficacy in controlling H. halys in both yellow- and green-flesh kiwifruit cultivars ('Jintao' and 'Hayward'). The effects of a conventional ray atomizer and a trumpet-modified atomizer, which localizes insecticide applications in the fruit area, were assessed on H. halys mortality (with artificial infestations) and fruit damage (due to H. halys naturally occurring in the orchards). The localized spray technique resulted in an overall significantly higher H. halys mortality in 'Hayward', but not in 'Jintao' cultivar. This is likely due to differences in the canopy size and structure of these cultivars. However, the fruit injury level was not different between the spray techniques. Further investigations in this direction are needed also to assess the efficiency of localized spray technique in reducing the insecticide rates, in accordance with European strategies that foreseen restrictions in the authorized active substances usage. Kiwifruit (Actinidia chinensis) cultivation is expanding worldwide, with China, New Zealand, and Italy being the major producing countries. Halyomorpha halys, the brown marmorated stink bug, is raising serious concerns to kiwifruit cultivation both in China and Italy. This study aimed at improving the chemical control efficacy against this pest by comparing two insecticide spray techniques (a conventional ray atomizer and a trumpet-modified atomizer adapted for localized spray application) in kiwifruit. In fact, kiwifruit is often grown with a 'pergola' training system, which may reduce the effectiveness of insecticide penetration into the canopy. Experiments were performed in naturally infested orchards of both Actinidia chinensis var. chinensis 'Jintao' and A. chinensis var. deliciosa 'Hayward'. Furthermore, mesh cages containing H. halys adults were deployed within orchards to assess the insects' mortality at 1, 3, 7, and 10 days after an insecticide application with two spray techniques during two consecutive seasons. In the cultivar 'Jintao', the two systems performed similarly, while in the cultivar 'Hayward', an overall significantly higher insect mortality was recorded with the trumpet atomizer (94–100%) compared to the conventional atomizer (59–78%). Crop damage was also evaluated on both cultivars, simulating the grower insecticide applications with the two spray techniques. At harvest, no difference emerged between the spray techniques, which provided a significantly better protection compared to the untreated control (12–17% compared to 33–47% of injured fruits). Further investigations in this direction are needed also considering the restriction of insecticidal active substances ongoing in the European Union and the need to maximize the efficacy of the available tools. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Experimental Investigation of Pulse Detonation Combustion Characteristics via Atomizer Geometry.

Author

Oh, Yoojin, Choi, Myeung Hwan, and Park, Sungwoo

Subjects
LIQUID fuels, ATOMIZERS, ATOMIZATION, COMBUSTION, VELOCITY
Abstract

Recent studies have increasingly focused on integrating detonation processes into engine technologies, advancing beyond the fundamental research phase of detonation research. The present study investigates the detonability and combustion characteristics of liquid fuels, specifically ethanol, with an emphasis on the effects of atomization properties facilitated by different atomizer designs to implement pulse detonation combustion engines. Oxygen was used as the oxidizer. We employed internal injectors (I45, I90, IB4) and atomizer venturis (VA, VB, VR) to examine how variations in liquid fuel atomization and atomizer configurations influence detonation. The occurrence of detonation was assessed using predicted Sauter mean diameters (SMDs) and exit velocities for different atomizer setups. Additionally, we evaluated the effects of nitrogen dilution at concentrations of 0%, 25%, and 50% on velocity variations and changes in detonation characteristics. The findings suggest that while higher exit velocities decrease SMD, facilitating detonation, excessively high velocities hinder detonation initiation. Conversely, lower exit velocities emphasize the role of SMD in initiating detonation. However, the introduction of nitrogen, which reduces the SMD, was found to decrease reactivity and impede detonation. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Internal Flow Model of a Helical Centrifugal Atomizer for Cold Preservation Systems in the Fishing Industry

Author

Raymundo, Carlos, Ronceros, Julio, Herrera, Carlos, Chavez, Heyul, Zapata, Gianpierre, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Yang, Xin-She, editor, Sherratt, Simon, editor, Dey, Nilanjan, editor, and Joshi, Amit, editor

Published
2024
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7. THE POTENTIALS OF ULTRASONIC ATOMIZER AUGMENTED THE SEA SALT PRODUCTIONS

Author

I Dewa Gede Agus Tri Putra, Putu Wijaya Sunu, Nyoman Sugiartha, I Nyoman Gede Baliarta, and I Wayan Temaja

Subjects
ultrasonic, atomizer, sea salt, evaporation, Technology, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Ultrasonic atomizers can potentially augment the production of sea salt through a process known as ultrasonic nebulization. While the traditional method of sea salt production primarily relies on natural evaporation, ultrasonic atomization can accelerate the evaporation process. The process typically involves the following steps: collection of seawater, evaporation, brine crystallization and then harvesting process of the sea salt. After processing, the sea salt is typically dried and packaged for distribution and sale. In this project, influencing of ultrasonic atomizer in the process a saline water into the brine, before crystallization can be proceeded. The ultrasonic atomization process significantly increases the surface area of the seawater by converting it into fine droplets. Droplets evaporate more efficient due to large surface area of the droplets. According to testing of the research apparatus which had been conducted, an ultrasonic atomization can increase the salinity by brine evaporation or of droplet productivity of sea salt. This result had been shown that this process can be used to increasing the salinity of sea water. For further steps, this technique can potentially augment the production of sea salt.

Published
2024
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9. Effect of locating the atomizer at the inlet in fountain confined conical spouted beds for drying kaolin suspensions.

Author

Sukunza, Xabier, Bolaños, Maider, Tellabide, Mikel, Estiati, Idoia, Aguado, Roberto, and Olazar, Martin

Subjects
*ATOMIZERS, *FOUNTAINS, *KAOLIN, *AIR ducts, *PRESSURE drop (Fluid dynamics), *INLETS
Abstract

The drying of suspensions in a spouted bed is usually performed by atomizing the solution onto the surface of the bed. However, drying of concentrated suspensions, such as those of kaolin, leads to particle agglomeration. Placing the atomizer at the air inlet pipe might be an alternative, since suspension droplets are fed into the spout, where high particle velocities are attained. Moreover, the presence of the fountain confiner above the bed surface allows increasing the air-solid contact. However, the atomizer may lead to bed instabilities due to changes in the air trajectory. Therefore, the spouted bed performance for drying kaolin suspensions with this new atomizer location has been addressed. Spouted bed hydrodynamics with and without atomizer were evaluated and drying experiments were conducted in this new setup. Although the atomizer increases the total pressure drop of the system, it hardly changes spouted bed hydrodynamics. Furthermore, the new setup allows operating at the maximum dryer's capacity. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Experimental Investigation of Pulse Detonation Combustion Characteristics via Atomizer Geometry

Author

Yoojin Oh, Myeung Hwan Choi, and Sungwoo Park

Subjects
atomizer, detonability, detonation, Sauter mean diameter, liquid fuel, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

Recent studies have increasingly focused on integrating detonation processes into engine technologies, advancing beyond the fundamental research phase of detonation research. The present study investigates the detonability and combustion characteristics of liquid fuels, specifically ethanol, with an emphasis on the effects of atomization properties facilitated by different atomizer designs to implement pulse detonation combustion engines. Oxygen was used as the oxidizer. We employed internal injectors (I45, I90, IB4) and atomizer venturis (VA, VB, VR) to examine how variations in liquid fuel atomization and atomizer configurations influence detonation. The occurrence of detonation was assessed using predicted Sauter mean diameters (SMDs) and exit velocities for different atomizer setups. Additionally, we evaluated the effects of nitrogen dilution at concentrations of 0%, 25%, and 50% on velocity variations and changes in detonation characteristics. The findings suggest that while higher exit velocities decrease SMD, facilitating detonation, excessively high velocities hinder detonation initiation. Conversely, lower exit velocities emphasize the role of SMD in initiating detonation. However, the introduction of nitrogen, which reduces the SMD, was found to decrease reactivity and impede detonation.

Published
2024
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11. An effective solar assisted semi-cylindrical saline water desalination system with direct atomizer and energy storage materials for domestic use: an experimental investigation.

Author

Kumar, Ramalingam Vignesh, Vijayakumar, Rajendran, and Venkatesh, Rajarathinam Jaya

Subjects
SALINE water conversion, SALINE waters, SOLAR stills, ENERGY storage, ATOMIZERS, WATER depth
Abstract

Solar still is the easiest method to purifying the saline water for domestic usage, but this method needs much improvement for better performance since it has lower productivity. In this paper, an experimental investigation is completed to analyse the semi cylindrical solar productivity still. The semi-cylindrical still is incorporated with direct atomizer and scrap used as an energy storage medium. Experiments are carried out during March 2020 in Kovilpatti, the southern part of India, with a depth of 2 and 4 cm saline water. Comparative performance analysis is made for conventional semi-cylindrical still, semi-cylindrical still with an atomizer, and semi-cylindrical still with atomizer and storage materials. The experimental study shows that the productivity of still increases while decreasing the water depth. Compared with 2-cm and 4-cm depth, solar still with 2-cm depth gives promising distillate productivity. The solar productivity still having 4-cm depth of water without atomizer gives only 2670 ml; on the other side, 2-cm water depth without atomizer gives 3100-ml productivity. The maximum productivity of solar still is found on a semi-cylindrical solar still combined with atomizer and energy storage medium having 2-cm water depth. Results revealed a higher freshwater production rate of 3610 ml found while incorporating atomizer and energy storage with the solar still. The system efficiency improved up to 35.20% compared to conventional semi-cylindrical still with 4 cm of saline water depth. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Computational study of free surface film flow and subsequent disintegration of a sheet and ligaments into droplets from a rotary disk atomizer.

Author

Singh, Kuldeep, Ambrose, Stephen, Jefferson-Loveday, Richard, Nicoli, Andrew, and Mouvanal, Sandeep

Subjects
*FILM flow, *FREE surfaces, *RAYLEIGH-Taylor instability, *LIQUID films, *COMPUTATIONAL fluid dynamics, *ATOMIZERS
Abstract

In the present study, a computational methodology based on computational fluid dynamics (CFD) is developed to investigate free surface film flow and its subsequent disintegration on a rotary disk atomizer. The present study provides an insight into efficiently modeling both liquid film formation and its subsequent disintegration. The presented computational methodology can easily be reproduced and can act as a benchmark for the modeling of liquid film formation as well as the disintegration phenomenon. The influence of disk speed, liquid flow and feed arrangement on the rotating disk are investigated. The film thickness profile on the disk resembles the formation of spiral waves at 500 RPM and an irregular breakup of the spiral waves for a disk speed of 1000 RPM. At higher speeds, a smooth and thin liquid film is observed on the disk. Offset feeding of the liquid on the disk alters the wave formation and breakup of the spiral waves. It is found that ligaments are formed at the lip of the disk owing to Rayleigh--Taylor instability, whereas liquid sheet breakup is due to combined rim and wave disintegration for the parameters investigated in this study. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Photometric Monitoring of Electronic Cigarette Puff Topography.

Author

Kolaczyk, Keith and Jiang, Hao

Subjects
*ELECTRONIC cigarettes, *ELECTRONIC surveillance, *PRESSURE sensors, *ELECTRONIC equipment, *TOPOGRAPHY, *MICROBIOLOGICAL aerosols
Abstract

To study and monitor the adverse health consequences of using electronic cigarettes, a user's puff topography, which are quantification parameters of the user's vaping habits, plays a central role. In this work, we introduce a topography sensor to measure the mass of total particulate matter generated in every puff and to estimate the nicotine yield. The sensor is compact and low-cost, and is integrated into the electronic cigarette device to promptly and conveniently monitor the user's daily puff topography. The topography sensor is comprised of a photometric sensor and a pressure sensor. The photometric sensor measures the mass concentration of the aerosol, based on scattering of near-infrared light from airborne particles, while the pressure sensor measures the flow rate. The topography sensor was tested under various conditions including a wide range of atomizer power, puff duration, and inhalation pressure. The sensor's accuracy was validated by comparing the sensor's readings with reference measurements, and the results matched closely with the trends reported by existing studies on electronic cigarettes. An example application for tracking a user's puff topography was also demonstrated. Our topography sensor holds great promise in mitigating the health risks of vaping, and in promoting quality control of electronic cigarette products. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Design Features in Multiple Generations of Electronic Cigarette Atomizers.

Author

Williams, Monique and Talbot, Prue

Subjects
Aerosols, Equipment Design, Nebulizers and Vaporizers, Forecasting, Electronic Nicotine Delivery Systems, atomizer, cig-a-like, clearomizer, design features, e-cigarette, electronic cigarette, mods, Toxicology
Abstract

The design of electronic cigarette (EC) atomizing units has evolved since their introduction over 10 years ago. The purpose of this study was to evaluate atomizer design in ECs sold between 2011-2017. Atomizers from 34 brands representing three generations of ECs were dissected and photographed using a stereoscopic microscope. Five distinct atomizer design categories were identified in first generation products (cig-a-like/cartomizer) and three categories were found in the third generation. Atomizers in most cig-a-like ECs contained a filament, thick wire, wire joints, air-tube, wick, sheath, and fibers, while some later models lacked some of these components. Over time design changes included an increase in atomizer size; removal of solder joints between wires; removal of Polyfil fibers; and removal of the microprocessor from Vuse. In second and third generation ECs, the reservoirs and batteries were larger, and the atomizing units generally lacked a thick wire, fibers, and sheath. These data contribute to an understanding of atomizer design and show that there is no single design for ECs, which are continually evolving. The design of the atomizer is particularly important as it affects the performance of ECs and what transfers into the aerosol.

Published
2019

15. Optimizing the Auxiliary Air Channels of a Vortex Atomizer by 3D Printing Using the Taguchi Method.

Author

Chen, Jung-Shun and Li, Shang-Rong

Subjects
TAGUCHI methods, THREE-dimensional printing, SIGNAL-to-noise ratio, ATOMIZERS, WATERWORKS, WORKING fluids
Abstract

In this study, the optimum spraying performance of a pressurized vortex atomizer using water as the working fluid was investigated experimentally by modifying the geometry of auxiliary air holes via the Taguchi method. The experimental results were also examined by CFD simulations. The four control factors of the auxiliary air holes are their numbers, areas, inclination angles, and lengths. With five levels for each control factor, an L25 orthogonal table was selected. Each case of the L25 orthogonal table was test repeatedly three times to obtain key average results. The auxiliary air holes were designed by a KISSlicer CAD tool and fabricated by 3D printing. The 3D printing was carried out by fused deposition of PLA with a resolution of about 30 μm. In the experiments, the spraying jet patterns were recorded, and the water droplet weights were measured. By using the signal to noise ratios and the smaller-the-better quality characteristic, the effect of the control factors of the auxiliary air holes in descending order is the numbers, areas, inclination angles, and hole lengths, respectively. The optimum air hole configuration is the one with six holes, an inclination angle of 20°, an area of 18 mm2, and a length of 8 mm. The optimum condition was confirmed by a signal to noise ratio of 20.5 dB with 95% confidence interval. The resulting smaller jet opening angle is about 42°, close to the simulated angle of 45°. That is, by the novelty of combining 3D printing with the Taguchi method, this study obtains the optimum design with fast prototyping and relatively few experiments. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Ultrasound spray nozzle atomizer as a chemical reaction medium: Evaluation using Villermaux-Dushman test reaction.

Author

Basiri, Mojdeh and Rahimi, Masoud

Abstract

The present work illustrates the possibility of atomizing the reactant mixture using an ultrasound spray nozzle atomizer to increase reactant contact surface area. The more surface area of the mist-like spray generated due to the atomization provides a means for mixing of reactants, thereby enhancing the reaction rate. Therefore, this work implements an ultrasound spray nozzle atomizer as a reactor. The micromixing efficiency of this novel reactor was evaluated using the Villermaux-Dushman test reaction protocol. An inlet micromixer was placed upstream of the ultrasonic atomizer reactor to provide an early mixing of the reactants. Two simple Y-shaped micromixers with diameters of 0.8 mm and 1.5 mm were examined as the inlet micromixers. The effects of flow rate ratio, flow rate, reactant concentration and inlet micromixer diameter on micromixing efficiency were investigated. Furthermore, the micromixing time was calculated based on the incorporation model through a detailed mathematical formulation. For the studied ranges of operating conditions, the micromixing time was in the range of 0.1–1 s. The small value of estimated micromixing times confirmed that the proposed technique is a valuable concept for intensifying micromixing in chemical reactors. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Investigation on High-Viscosity Chemical Waste Liquid Atomizer Based on VOF-DPM.

Author

Ou, Haoyu, Su, Lei, Shi, Yang, and Ruan, Shijie

Subjects
*LIQUID waste, *ATOMIZERS, *ATOMIZATION, *AEROSPACE industries, *ENGINEERING simulations
Abstract

The viscosity of adiponitrile waste liquid is as high as 1000 cp. It is challenging to spray and atomize the waste liquid normally. Based on the coaxial three-channel pneumatic atomizer, a two-stage supersonic steam atomizer is proposed in this paper, and the atomization process is simulated by Fluent software. Compared with the traditional atomization simulation method, the Volume-of-Fluid to Discrete-Phase-Model (VOF-DPM) bi-directional coupling model and Adaptive Mesh Refinement (AMR) technology can save mesh and improve the computational efficiency. The atomization processes of primary breakup and secondary breakup are entirely captured and analyzed. The results show that the Sauter Mean Diameter (SMD) is about 116–180 μm, the SMD decreases with the increase of steam inlet absolute pressure, and the atomization quality can meet the combustion requirements. This study can be used for the performance optimization of the high-viscosity liquid atomizers in the chemical and aerospace industry and shorten the time engineers spend in the simulation calculation to verify the rationality of the structure. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Performance enhancement of modified solar distillers using synthetic nanocomposites, reflectors, cover cooling, and ultrasonic foggers: Experimental approach.

Author

Kandeal, A.W., El-Shafai, Nagi M., Hammad, Farid A., Elsharkawy, Marwan, El-Mehasseb, Ibrahim, Amro, M.I., El-Samadony, M.O.A., and Sharshir, Swellam W.

Subjects
*SOLAR stills, *NANOCOMPOSITE materials, *COOLING, *DISTILLERS, *ULTRASONICS, *ECHO, *POLYMERIC nanocomposites
Abstract

• Augmented performance of solar still was evaluated via integrating evaporation and condensation enhancers. • Synthetic nanocomposites were developed, characterized, and used with different concentrations. • Thermo-economic performance was investigated compared to conventional solar still. • Productivity, energy efficiency, and average exergy efficiency augmentations reached 113.72, 96, and 167.62 %, respectively. This work aimed to develop the thermo-economic performance of solar still (SS) via various additives. On the one hand, to improve the thermophysical properties of the basin saline water, two nanocomposites were utilized in the modified SSs (MSSs). In MSS1, chitosan @ graphene oxide (Cs@GO) was used, whereas chitosan @ nickel oxide (Cs@NiO), was provided in MSS2. The concentration influence on the yield was investigated considering three ratios (0.1, 0.2, and 0.3 wt%). The selected concentration (0.3 wt%) was used for the upcoming cases being better than others. At this weight ratio, the yield was augmented by 72.7, and 57.5 % for MSS1, and MSS2, respectively, compared to CSS. In the first case (Case I), a glass lid cooling unit was attached to the MSSs to boost the condensation rate. In the second case (Case II), top and bottom external reflectors were fixed on the MSSs. Then, Case III contained both cover cooling and reflectors. In addition to these enhancers, ultrasonic atomizers were placed on the basin of MSSs in Case IV. In each experiment, both MSS1 and MSS2 were simultaneously compared to conventional SS (CSS). All cases showed good thermo-economic performances. The best performance was obtained, especially in terms of yield, from MSS1 in Case IV, at which the production, energy, and exergy efficiencies were improved by 113.72, 96, and 167.62 %, respectively. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Abnormal piezoelectric properties of acceptor doped 0.75BF-0.25BT lead-free ceramics for application in atomizer.

Author

Luo, Feng, Li, Zhimin, Chen, Jiyuan, Liu, Yuanshui, Xing, Linzhuang, Yan, Yangxi, and Hao, Yue

Subjects
*LEAD-free ceramics, *PIEZOELECTRIC ceramics, *ATOMIZERS, *ELECTRIC properties, *DOPING agents (Chemistry), *CERAMICS
Abstract

Ecologically sustainable hard type piezoelectric ceramics are highly demanded for high power transducer applications in replacing lead-based piezoelectric ceramics. In this study, MnO was proposed as acceptor dopant to modify the electric properties of 0.75BiFeO 3 -0.25BaTiO 3 piezoelectric ceramics. Results showed that MnO doping reduced the lattice distortion of rhombohedral phase and facilitated the formation of pseudo cubic phase of 0.75BiFeO 3 -0.25BaTiO 3 system. Moreover, it caused the diversity of domain morphology and reduced the domain size as well. XPS analysis indicated that Mn2+ ions suppressed the transition from Fe3+ ions to Fe2+ ions and gave rise to the increase of oxygen vacancies. Accordingly, the introduction of MnO synergistically increases the d 33 , K p , and Q m and lowers the tan δ of 0.75BiFeO 3 -0.25BaTiO 3 ceramics. The abnormal enhancement in hard type properties is ascribed mainly to the increase of extrinsic contribution rather than the pinning effect arising from oxygen vacancies. Finally, based on an optimal 0.75Bi(Fe 0.985 Mn 0.015)O 3 -0.25BaTiO 3 system, an atomizer prototype was fabricated. The remarkable atomization effect suggests a competitive potential of 0.75BF-0.25BT ceramic for transducer application. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Nebulization as a more efficient method than atomizer for experimental reproduction of avian colibacillosis in young chickens.

Author

Saliha, Uneeb, Tivendale, Kelly A., H. Noormohammadi, Amir, Shil, Pollob, Daly, June, Omotainse, Oluwadamilola S., Arshad, Hafiz U., and Marenda, Marc S.

Subjects
*ESCHERICHIA coli diseases, *ATOMIZERS, *ESCHERICHIA coli, *HEPA filters, *TRANSGENIC organisms
Abstract

Infection and immunity studies involving genetically modified organisms (GMOs), such as gene knockout bacterial mutants, require stringent physical containment to prevent the accidental spread of these organisms into the environment. Experimental respiratory tract infection models often require the animals, for example birds, to be transported several times between a negative pressure housing isolator and a bespoke aerosol exposure chamber under positive pressure. While the exposure chamber is sealed and fitted with HEPA filters, the repeated movements of infected animals and opening of the chamber can still pose a serious risk of breaching containment of the organism in the experimental facility. In the current study, the ability of two aerosol infection protocols that expose birds to avian pathogenic E. coli (APEC) aerosols directly within the housing isolator was evaluated. Young chicks were exposed to APEC E956 within the negative pressure housing isolators using either a nebulizer or an atomizer. Birds exposed twice (days 1 and 4) to aerosols of APEC E956 produced by the nebulizer developed a rapidly progressing disease mimicking field cases of avian colibacillosis. However, birds exposed to aerosols of APEC E956 produced by an atomizer did not develop colibacillosis even after three exposures to APEC E956 on days 1, 4 and 7. Consequently, the current study reports the nebulizer was more efficacious in producing avian colibacillosis under stricter bacterial containment settings. RESEARCH HIGHLIGHTS Two aerosol exposure methods were evaluated to develop avian colibacillosis. Nebulizer method found to be more efficient in reproducing avian colibacillosis. Refined infection method can be used to study genetically modified organisms (GMOs). [ABSTRACT FROM AUTHOR]

Published
2022
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21. An Experimental Study of Wall Thermal Stabilization Efficiency by Spray Cooling.

Author

Shteling, V. S., Dedov, A. V., Zakharenkov, A. V., Komov, A. T., and Shcherbakov, P. P.

Abstract

A set of activities aimed at upgrading an experimental bench simulating heavily loaded components of thermonuclear facilities is accomplished. The design of a test section for implementing one-sided heating with high energy density is developed. A VCh-60AV high-frequency generator with operating frequencies of 30–60 kHz is the test section heating system's key component. The article describes the experimental bench schematic design, hydraulic circuit components, and the high-frequency heating system and measurement system components. The schematic design of a hydraulic atomizer with a conical insert, which generates a sprayed flow in carrying out experimental studies is presented. The results of field velocity measurements in the atomizer spray jet and of experimental study of sprayed flow distribution over the droplet radius are given, and the average diameter of droplets in the spray jet section was determined, which was found to be 34 μm. The techniques for carrying out experiments on thermal stabilization in a steady mode by spray cooling and for processing the primary experimental data are described. The effectiveness of high-temperature surface thermal stabilization by a spray of distilled water at a coolant gauge pressure of (0.2–0.6) × 106 Pa, coolant mass flowrate (3.3–6.15) × 10–3 kg/s, and spray density within the range from 1.67 to 3.11 kg/(m2 s) is studied. The obtained experimental data array is processed, and the graphic dependences of heat flux and heat-transfer coefficient on the temperature difference between the cooled wall and coolant spray are presented. The heat flux in the experimental study reached 3.2 MW/m2, and the heat-transfer coefficient in that case was equal to 77 kW/(m2 K). The obtained experimental data show satisfactory repeatability in a wide range of temperature difference from 0 to 400°C, and high heat flux and heat-transfer values have been reached. [ABSTRACT FROM AUTHOR]

Published
2022
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23. Optimizing the Auxiliary Air Channels of a Vortex Atomizer by 3D Printing Using the Taguchi Method

Author

Jung-Shun Chen and Shang-Rong Li

Subjects
atomizer, auxiliary air holes, 3D printing, Taguchi method, CFD, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

In this study, the optimum spraying performance of a pressurized vortex atomizer using water as the working fluid was investigated experimentally by modifying the geometry of auxiliary air holes via the Taguchi method. The experimental results were also examined by CFD simulations. The four control factors of the auxiliary air holes are their numbers, areas, inclination angles, and lengths. With five levels for each control factor, an L25 orthogonal table was selected. Each case of the L25 orthogonal table was test repeatedly three times to obtain key average results. The auxiliary air holes were designed by a KISSlicer CAD tool and fabricated by 3D printing. The 3D printing was carried out by fused deposition of PLA with a resolution of about 30 μm. In the experiments, the spraying jet patterns were recorded, and the water droplet weights were measured. By using the signal to noise ratios and the smaller-the-better quality characteristic, the effect of the control factors of the auxiliary air holes in descending order is the numbers, areas, inclination angles, and hole lengths, respectively. The optimum air hole configuration is the one with six holes, an inclination angle of 20°, an area of 18 mm2, and a length of 8 mm. The optimum condition was confirmed by a signal to noise ratio of 20.5 dB with 95% confidence interval. The resulting smaller jet opening angle is about 42°, close to the simulated angle of 45°. That is, by the novelty of combining 3D printing with the Taguchi method, this study obtains the optimum design with fast prototyping and relatively few experiments.

Published
2023
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24. Experimental and numerical study of a twin-fluid two-phase internal-mixing atomizer.

Author

Mohammadi, Alireza, Ommi, Fathollah, and Saboohi, Zoheir

Subjects
*ATOMIZERS, *SPRAY nozzles, *TWO-phase flow, *COMBUSTION chambers, *GAS distribution, *PARTICLE tracks (Nuclear physics)
Abstract

This paper presents a numerical, and experimental study on atomization characteristics and droplet distribution of a twin-fluid two-phase internal mixing atomizer. Using the discrete phase model and Eulerian–Lagrangian numerical study, internal and external flow fields are simulated to describe two-phase flow in mixing chamber. The exterior region near the exit nozzle in the combustion chamber is simulated by particle trajectory method. Internal-mixing atomizer is manufactured and tests are carried out to verify the numerical results by applying shadowgraph method visualizing flow near the exit nozzle of the atomizer and downstream in combustion chamber. In order to study atomization characteristics including droplet dimension and velocity distribution in different gas to liquid ratio, an advanced twin-fluid test stand for two-phase flow atomizers is designed and built. By changing operating parameters of gas phase pressure and liquid flow rate a reasonable agreement for spray cone angle, maximum penetration depth and droplet diameter and velocity distributions is found between numerical and experimental result. As result, turbulence modeling assists to estimate atomization characteristics of complicated twin-fluid two-phase atomizers precisely to avoid time-taking and costly experimental tests although an advanced test stand is developed and built to cover all types of atomizer. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Analytical methods for the identification of micro/nano metals in e-cigarette emission samples: a review.

Author

AL-Qaysi, Wafaa Waleed and Abdulla, Fatma H.

Abstract

In this review, numerous analytical methods to quantify the heavy and trace elements emitted from electronic cigarettes, cigarettes liquid and atomizer. The selection of a method was dependent upon the purpose, e.g., quantification or identification of elements only. The introductory part of this review focuses on describing the importance of setting up an electronic cigarettes- associated safety profile. The review dealt with studies that assessed elements in sizes ranging from nano to micro. The formation of different degradation chemical substances as well as impurity trends can be indicated through chemical investigation of metals in electronic cigarettes. Some studies have been covered that show the uses and benefits of. It is noticeable from all the collected sources that the minerals emitted from the smoke of e- cigs do not constitute any significant damage, as the percentage is very small, with the exception of minerals that may be emitted from the components of the device after heating it if the components of the e- cig are of poor specifications, except in the case of long-term accumulation. For this reason, an electronic cigarette can help smokers to quit smoking tobacco and replace it with electronic cigarettes smoke with distinctive flavors. [ABSTRACT FROM AUTHOR]

Published
2021
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26. DROPLET SIZE MEASUREMENT OF BIODIESEL AND ITS BLENDS USING DISPERSION TECHNIQUE AND IMAGE PROCESSING

Author

Dr. Abed Al-Khadim Mohammed Hasan, Dr. Mahmoud Attallah Mashkour, and Amer Abdulah Mohammed

Subjects
Biodiesel, Sauter Mean Diameter (SMD), Shutter Speed, Atomizer, Image Processing, Engineering (General). Civil engineering (General), TA1-2040
Abstract

In present investigation a twin-fluid external mixing atomizer was designed and developed for fuel atomization which is used in liquid fuel burner. The droplet sizes (SMD) in the spray which was produced through the atomizer was measured experimentally. The experiments have been performed for different liquid fuel types, as well as for air to liquid mass flow rates (ALR), to study the effects of these parameters on droplet size (SMD).The liquid fuels used during the tests are biodiesel and its blends (biodiesel-diesel Bx and biodiesel-kerosene Bkx) with three values of ALR (0.6, 0.8 and 1.0).The droplets sizes were investigated for the region near-nozzle by using imaging setup and using dispersion technique. The images viewing regions 366.6 mm2, to determine the droplet size (SMD). Matlab cod software has been used for a number of image processing techniques to identify and improve the detection of small droplets.The results showed that the increasing of biodiesel ratio in blending with diesel and kerosene increases the (SMD), and the increasing of ALR reduces the (SMD) for all experiments fuels. Also the results showed that the agreement is good of this method of SMD measurement and calculations with published studies.

Published
2019
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27. Effect and Evaluation of an Ultrasonic Atomizer With Large Vibration Amplitude.

Author

Ting, Yung, Sugondo, Amelia, Yu, Chih-Hsuan, Yang, Yun-Jui, and Lee, Yen-Lung

Subjects
*ATOMIZERS, *ULTRASONIC effects, *FREQUENCIES of oscillating systems, *PIEZOELECTRIC actuators, *SPRAY nozzles
Abstract

An ultrasonic atomizer can produce large vibration amplitude is designed. Different from the structure of the usually seen ultrasonic spray nozzle, the atomizer is fundamentally constructed with a hollow tube encircled with several pieces of sectional type piezoelectric actuators, which can radially oscillate the tube to generate desired vibration profile. Atomization is formed on the surface around the liquid outlet of the tube where maximum vibration amplitude occurs. In search of resonance frequency and vibration amplitude, modal and harmonic analyses of the ultrasonic atomizer are carried out by ANSYS. In comparison the simulated results with the experimental results, both are in good agreement. A measurement system is set up for detecting the atomization droplets and calculating the droplet size and distribution. An attempt is to design an ultrasonic atomizer can produce high distribution and small diameter droplets for some application-level requirements, droplet diameter around 20–60 μm is assumed to be the specification for performance verification of the proposed atomizer. In experiment, it is found nearly 90% of atomized droplets fit for the requirement. Besides the most important factor of operating frequency, a relation of amplitude is found to include in the well-known Lang and Rayleigh's equation. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Vibrating Mesh Atomizer for Spin-Spray Deposition.

Author

Sharma, Pallavi and Jackson, Nathan

Subjects
*ATOMIZERS, *SPIN coating, *CONFORMAL coatings, *GLASS fibers, *SURFACE roughness, *SPRAYING
Abstract

This work presents the development and characterization of a Silicon based MEMS vibrating mesh atomizer for use in Spin-spray deposition of low viscosity liquids. The device design, fabrication process, and application of MEMS atomizer for spin-spray method is discussed. The new spin-spray atomizer is demonstrated using spin on glass and Su-8 photoresist. Spin on glass was used to create a SiO2 layer on silicon substrates with the above-mentioned method. The experimental study compares the new spin-spray method with conventional spin coating based on uniformity, 3D-topography coating, etch rate, film stress, and surface roughness. Low viscosity SU-8 was used to further validate the concept of using the vibrating mesh device to pattern planar and 3D topographical structures. The results demonstrate increased uniformity and less wasted chemicals using spin-spray compared to spin coating deposition. The new vibrating mesh device is smaller, has enhanced droplet size control, easy to integrate into a standard spin coater, and uses less power than traditional ultrasonic spin-spray deposition methods. In addition, the new spin-spray method demonstrated increased conformal coating of 3D microstructures of > 40 μm thick structures compared to standard spin coating. [2021-0040] [ABSTRACT FROM AUTHOR]

Published
2021
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29. 液体射流内部气泡对黏性流体气流式雾化的影响.

Author

吴兆伟, 赵 辉, 吴欣洁, 刘海峰, 周 骛, and 蔡小舒

Abstract

Copyright of Journal of East China University of Science & Technology is the property of Journal of East China University of Science & Technology Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2021
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31. 汽车车身清漆漆点问题的原因与对策.

Author

王海丰1,, 王兵1,, 许能才1,, 陈道飞1,, 李文鹏1,, 李玉磊1,, and 万德俊

Subjects
ROBOTICS, ATOMIZERS, ACUPUNCTURE, PROBLEM solving, AUTOMOBILE bodies, ROBOTS
Abstract

Copyright of Electroplating & Finishing is the property of Electroplating & Finishing Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2022
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33. Early Stage Design of a Prefilmer at Siemens Energy : Numerical and Experimental Methodology

Author

Hamzo, Jean-Pierre and Hamzo, Jean-Pierre

Abstract

Design of atomizers for gas-turbine purposes are an important ordeal. The per-formance of the atomizer directly impacts the efficiency of the gas-turbine, andconsequently, the energy extracted from the turbine. Furthermore, the design ofthe atomizer can have an impact on reducing toxic emissions. On a global scale,gas-turbines can be considered crucial for the transition to renewable energy. Forengineers, designing of atomizers are however challenging. Turbulent flow, multi-phase interaction and chemical reactions are some of the complex physics involvedwhich has to be taken into consideration when designing the atomizer. Engineerstraditionally uses experimental testing for investigation of designs, and it is still verymuch a useful methodology. However, numerical simulations and CFD have recentlygained popularity due to being a more cost-effective methodology. In this work, theprocedure for designing a prefilm atomizer involving CFD (single phase model andmulti phase model) and experimental testing is documented. The details of the twonumerical models (a single phase model and a multi phase model) has been doc-umented as well as the experimental setup. The single phase model is used for aparametric study and experimental testing is used for evaluation of designs. Themulti phase model is aimed to replicate the experimental results. The validity ofthe numerical models and the experimental setup are discussed, and possible mod-ifications of the methodology for future studies are suggested. Finally, suggestionsfor how the prefilmer should be designed is suggested.

Published
2023

34. A study of centrifugal atomization of melts

Author

Li, Huiping

Subjects
670, Rotating disk method, Atomizer
Abstract

The literature on atomization of melts has been reviewed. Models have been developed and applied to analyze the phenomena associated with centrifugal atomization of melts using rotating disk method. Some suggestions and guidelines for the development and operation of a centrifugal atomizer have been given. Previous experiments of melt atomization and present observations of water disintegration at the edge of a rotating disk have confirmed that the disintegration of melts or water occurs in one of three basic modes: direct droplet formation (DDF), ligament formation (LF) and film formation (FF). Wave theories have been used to analyze the disintegration of melts in the different regimes. The equations for the fastest growing wave number have been derived. Models for the calculation of powder particle sizes have been suggested and the calculated results have compared with available experimental data in the literature. Calculations have shown that disk diameter and disk rotating speed are two very important atomizing parameters. The type of melt and melt superheat also affect the powder particles size. In general, fine powder particles can be obtained by increasing disk rotating speed and using large diameter disk, provided that the melt does not solidify on the disk. In the DDF regime waves forming at the periphery of a disk are responsible for the break up of melts. The fastest growing wave number depends on the disk speed, disk diameter and properties of melt. In the FF regime sheet wave theory of Dombrowski and Johns was used to study the collapse of the melt sheet. The fastest growing wave number is a complex function of the speed and thickness of film and the properties of melt and atomizer atmosphere. The effects of disk diameter, disk rotating speed and melt flow rate on atomization are achieved through influencing the speed and thickness of film. The studies on the flow of melts on rotating disks have shown that the film forming on the disk was very thin, about tens of microns and the tangential velocity of melts was much higher than the radial velocity. The analysis of heat transfer of melts on a rotating disk has shown that partial solidification of melts on the disk is possible. To obtain a good atomization condition it is necessary to control the partial freezing of melts on the disk. A large melt superheat and a high melt flow rate are required to prevent melts from freezing on the disk. The use of a small diameter disk can also avoid freezing of the melt on the disk. Combining the calculations of heat transfer on the disk with the prediction of wave theory for particle sizes, it is shown that a disk of small diameter rotating at high speed is desirable for the production of fine powders. The cooling ability obtained by centrifugal atomization using the rotating disk method depends on the design of atomizer, the operating conditions and the type of material to be atomized. A large diameter disk on which solidification of melt is avoided and a high disk rotating speed result to the formation of fine powder particles which experience a high cooling rate. The nucleation undercooling of melt depends on particle size, disk speed, material to be atomized and the nucleation condition. A small particle size and a high disk speed lead to a large undercooling. The times for the completion of solidification of powder particle of typical sizes produced by centrifugal atomization have been calculated and their effects on the atomizer vessel diameter have been discussed.

Published
1999

35. Comparison between two insecticide application methods in controlling lesser mealworm beetles in commercial broiler housessser mealworm beetles in commercial broiler houses

Author

Andrea Panzardi, Rogério de Faria Nunes, Thais Schwarz Gaggini, Gustavo Bomfim Alves de Oliveira, Ednaldo Carvalho Guimarães, Robson Carlos Antunes, Amilton Silva, and Marcus Luciano Guimarães Rezende

Subjects
Alphitobius diaperinus, atomizer, insect control, poultry., Agriculture, Agriculture (General), S1-972, Veterinary medicine, SF600-1100
Abstract

The lesser mealworm control is mostly made by insecticides, as the association of chlorpyrifos, cypermethrin and citronellal. The traditional insecticide application method (TRADM) depends on many liters of water and, with the objective of reducing water consumption, the aim was to compare TRADM with atomizer-equipment method (ATOMM). Four and three houses from farm A and B were used, respectively. Houses 1, 3 and 7 were treated with TRADM (1 liter of insecticide diluted in 500 liters of water) and houses 2, 4, 5 and 6 with ATOMM (1 liter of insecticide diluted in 9 liters of water). Twenty-four hours before and 30 (for farm A) and 45 days (for farm B) after the insecticide application, the number of insects was counted in each house (using 18 mapped traps/house). Farms were not considered different (p>0.05) and comparison was made between the houses. Houses were different (p

Published
2019
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36. Additive Manufacturing of Devices Used for Collection and Application of Cereal Rust Urediniospores

Author

Zacharias A. Pretorius, Gerrie J. Booysen, Willem H. P. Boshoff, Jozua H. Joubert, Gerrie J. Maree, and Johan Els

Subjects
3D printing, atomizer, cereal rust fungi, cyclone collector, spore collector, spore applicator, Plant culture, SB1-1110
Abstract

Optimized inoculation procedures are an important consideration in achieving repeatable plant infection when working with biotrophic rust fungi. Several plant pathology laboratories specializing in rust research employ a system where the collection and application of fungal spores are accomplished using an exchangeable gelatin capsule. Urediniospores are collected from erumpent pustules on plant surfaces into a capsule fitted to a cyclone collector controlled by a vacuum pump. By adding light mineral oil to the same capsule, the spore suspension is then sprayed onto plants by means of a dedicated atomizer (inoculator) connected to an air pressure source. Although devices are not commercially available, modern day technologies provide an opportunity to efficiently design and manufacture collectors and inoculators. Using a process called Additive Manufacturing (AM), also known as “3D printing,” the bodies of a collector and inoculator were digitally designed and then laser-sintered in nylon. Depending on availability, copper or aluminum tubes were fitted to the bodies of both devices afterward to either facilitate directed collection of spores from rust pustules on plant surfaces or act as a siphon tube to deliver the spore suspension contained in the capsule. No statistical differences were found between AM and metal inoculators for spray delivery time or spore deposition per unit area. In replicated collection and inoculation tests of wheat seedlings with urediniospore bulks or single pustule collections of Puccinia triticina and P. graminis f. sp. tritici, the causal organisms of leaf rust and stem rust, consistent and satisfactory infection levels were achieved. Immersing used devices in acetone for 60 s followed by a 2 h heat treatment at 75°C produced no contaminant infection in follow-up tests.

Published
2019
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37. DROPLET SIZE MEASUREMENT OF BIODIESEL AND ITS BLENDS USING DISPERSION TECHNIQUE AND IMAGE PROCESSING

Author

Abed Al-Khadim Mohammed Hasan, Mahmoud Attallah Mashkour, and Amer Abdulah Mohammed

Subjects
Biodiesel, sauter mean diameter, SMD, shutter speed, atomizer, image processing, Engineering (General). Civil engineering (General), TA1-2040
Abstract

In present investigation a twin-fluid external mixing atomizer was designed and developed for fuel atomization which is used in liquid fuel burner. The droplet sizes (SMD) in the spray which was produced through the atomizer was measured experimentally. The experiments have been performed for different liquid fuel types, as well as for air to liquid mass flow rates (ALR), to study the effects of these parameters on droplet size (SMD).The liquid fuels used during the tests are biodiesel and its blends (biodiesel-diesel Bx and biodiesel-kerosene Bkx) with three values of ALR (0.6, 0.8 and 1.0).The droplets sizes were investigated for the region near-nozzle by using imaging setup and using dispersion technique. The images viewing regions 366.6 mm2, to determine the droplet size (SMD). Matlab cod software has been used for a number of image processing techniques to identify and improve the detection of small droplets.The results showed that the increasing of biodiesel ratio in blending with diesel and kerosene increases the (SMD), and the increasing of ALR reduces the (SMD) for all experiments fuels. Also the results showed that the agreement is good of this method of SMD measurement and calculations with published studies.

Published
2019

38. Comparison between two insecticide application methods in controlling lesser mealworm beetles in commercial broiler houses.

Author

Panzardi, Andrea, de Faria Nunes, Rogério, Schwarz Gaggini, Thais, Alves de Oliveira, Gustavo Bomfim, Carvalho Guimarães, Ednaldo, Carlos Antunes, Robson, Silva, Amilton, and Guimarães Rezende, Marcus Luciano

Subjects
INSECTICIDES, HOUSING, CYPERMETHRIN, BEETLES, WATER consumption, WATER management, FARMHOUSES
Abstract

Copyright of Revista de Ciencias Agroveterinarias is the property of Revista de Ciencias Agroveterinarias and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
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39. Additive Manufacturing of Devices Used for Collection and Application of Cereal Rust Urediniospores.

Author

Pretorius, Zacharias A., Booysen, Gerrie J., Boshoff, Willem H. P., Joubert, Jozua H., Maree, Gerrie J., and Els, Johan

Subjects
THREE-dimensional printing, CORROSION & anti-corrosives, METAL spraying, ALUMINUM tubes, COPPER tubes, POWDERY mildew diseases
Abstract

Optimized inoculation procedures are an important consideration in achieving repeatable plant infection when working with biotrophic rust fungi. Several plant pathology laboratories specializing in rust research employ a system where the collection and application of fungal spores are accomplished using an exchangeable gelatin capsule. Urediniospores are collected from erumpent pustules on plant surfaces into a capsule fitted to a cyclone collector controlled by a vacuum pump. By adding light mineral oil to the same capsule, the spore suspension is then sprayed onto plants by means of a dedicated atomizer (inoculator) connected to an air pressure source. Although devices are not commercially available, modern day technologies provide an opportunity to efficiently design and manufacture collectors and inoculators. Using a process called Additive Manufacturing (AM), also known as "3D printing," the bodies of a collector and inoculator were digitally designed and then laser-sintered in nylon. Depending on availability, copper or aluminum tubes were fitted to the bodies of both devices afterward to either facilitate directed collection of spores from rust pustules on plant surfaces or act as a siphon tube to deliver the spore suspension contained in the capsule. No statistical differences were found between AM and metal inoculators for spray delivery time or spore deposition per unit area. In replicated collection and inoculation tests of wheat seedlings with urediniospore bulks or single pustule collections of Puccinia triticina and P. graminis f. sp. tritici , the causal organisms of leaf rust and stem rust, consistent and satisfactory infection levels were achieved. Immersing used devices in acetone for 60 s followed by a 2 h heat treatment at 75°C produced no contaminant infection in follow-up tests. [ABSTRACT FROM AUTHOR]

Published
2019
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40. DROPLET SIZE MEASUREMENT OF BIODIESEL AND ITS BLENDS USING DISPERSION TECHNIQUE AND IMAGE PROCESSING.

Author

Al-Khadim Mohammed Hasan, Abed, Mashkour, Mahmoud Attallah, and Mohammed, Amer Abdulah

Subjects
BIODIESEL fuels, IMAGE processing, LIQUID fuels, AIR masses, DISPERSION (Chemistry), MIXING, DROPLETS, HYDROCRACKING
Abstract

Copyright of Journal of Engineering & Sustainable Development is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
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43. To evaluate the efficiency of dexmedetomidine in atomized intranasal form for sedation in minor oral surgical procedures.

Author

Syed, Sadaf, Hakim, Tajamul, Riyaz, Mohd, and Bedi, Ravinder

Subjects
OPERATIVE surgery, MAXILLOFACIAL surgery, ORAL surgery, DISSOLVED oxygen in water, PREANESTHETIC medication, BLOOD pressure
Abstract

Aim: This study aims to evaluate the efficiency of dexmedetomidine in atomized intranasal form for sedation in minor oral surgical procedures. Materials and Methods: A total 25 patients fitting the inclusion and exclusion criteria were selected from the outpatient Department of Oral and Maxillofacial Surgery, Saraswati Dental College and Hospital, Lucknow. The drug was administered intranasally half an hour before the surgical procedure. The volume of drug used was recorded. The readings of all the parameters of sedation began 30 min after the drug had been administered. Intranasal sedation status was assessed by Ramsay sedation score and observer's assessment of alertness/sedation scales, every 15 min throughout the procedure. Results: The primary outcome variable in this study is depth of sedation produced by intranasally administered dexmedetomidine. Secondary variables included respiratory rate, blood pressure (BP), heart rate (HR), and oxygen saturation (SpO2). The statistical software used was SPSS 20.0 for Windows (SPSS, Chicago, IL, USA). Data were expressed as mean and standard deviation or number (percentages). Sedation and behavior scores were analyzed by proportions. Hemodynamic variables including HR, SpO2, and BP and respiratory rate were analyzed by repeated measures ANOVA. When a significant result was obtained, the Tukey test was applied for post hoc pairwise comparisons. P < 0.05 was considered as statistically significant. All the parameters were recorded at a set interval of time. Conclusion: In conclusion, intranasal administration of 1.5 mg/kg atomized dexmedetomidine was clinically effective, convenient, and safe for the sedation of patients undergoing minor oral surgical procedures. [ABSTRACT FROM AUTHOR]

Published
2019
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44. An improved atomizer with high output of nanoparticles.

Author

Tang, Min, Chen, Sheng-Chieh, and Pui, David Y.H.

Subjects
*ATOMIZERS, *FILTERS & filtration, *NANOFIBERS, *EVAPORATION (Chemistry), *PARTICLE size determination
Abstract

Filtration efficiency test of nanofibrous media requires particle generator to produce particles with small count median diameter (CMD) and high production rate. In EN 1822-5 standard, material recommended for particle generation is diethylhexylsebacyte (DEHS) due to its low volatility and stability. To obtain stable particle size and safe operation environment, it is preferred to use pure DEHS rather than solution with DEHS dissolved in solvent. In this work, two methods were used to reduce size of particles from pneumatic atomizer: mesh attachment and quick dilution. The results showed that the mesh can effectively reduce the CMD without compromising particle output, and quick dilution can significantly reduce the CMD with a higher particle output. By attaching mesh, the nozzle outlet with multiple holes can take advantage of smaller nozzle size while keeping enough airflow rate to draw the liquid. The quick dilution can greatly reduce the particle concentration right after spraying, and hence slow down the rate of particle coagulation. With mesh attached and dilution flow rate of 105 L/min, CMD of particles from improved atomizer was 104 nm, which was 56 nm smaller than that of original atomizer, and particle output was 6.30 × 10 12 #/min, which was 3 times higher than that of original atomizer. [ABSTRACT FROM AUTHOR]

Published
2018
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45. Onečišćenje okoliša pesticidima kod primjene prskalica i orošivača i mogućnosti njegova smanjenja.

Author

Poje, T.

Abstract

Copyright of Glasnik Zastite Bilja is the property of Zadruzna Stampa D.D. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2018
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46. Performance enhancement of a trapped-vortex combustor for gas turbine engines using a novel hybrid-atomizer.

Author

Li, Mingyu, He, Xiaomin, Zhao, Yuling, Jin, Yi, Yao, Kanghong, and Ge, Zhenghao

Subjects
*COMBUSTION chambers, *VORTEX generators, *GAS turbine combustion, *ATOMIZERS, *AUTOMOTIVE gas turbines
Abstract

A novel hybrid-atomizer, combining the spray characteristics of pressure-swirl, airblast and fan atomizers, was designed and adopted for cavity fueling in a trapped vortex combustor (TVC). Furthermore, comparison experiments were conducted under atmospheric pressure to investigate the combustion characteristics of the combustor fueled using the novel hybrid atomizer and a simplex pressure-swirl atomizer. The discrepancies were directly explored in terms of ignition, lean blowout (LBO) limit, and combustion efficiency. The results indicate that the novel hybrid atomizer achieves significant advantages in terms of the combustion characteristics when compared to the simplex pressure-swirl atomizer. The outer-cavity ignition FAR achieved by the novel hybrid atomizer is 50% lower than pressure-swirl atomizer at Mach 0.25 and 0.29, with an inlet temperature of 373 K. In addition, the LBO limits acquired by the novel hybrid atomizer are lower than those of the pressure-swirl atomizer within the full range of operating conditions. Furthermore, a higher combustion efficiency is achieved by the novel hybrid atomizer compared to the pressure-swirl atomizer under most operating regimes. [ABSTRACT FROM AUTHOR]

Published
2018
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47. Amphotericin B concentrations in healthy mallard ducks (Anas platyrhynchos) following a single intratracheal dose of liposomal amphotericin B using an atomizer.

Author

Phillips, Ashley, Fiorello, Christine V, Baden, Rachel M, Liu, Jack H, Burmas, Nathaniel C, Ruvalcaba, Carlos A, Monroy, Roger, Mohr, F Charles, Gehring, Ronette, and Delplanque, Jean-Pierre

Abstract

Aspergillosis is a fungal infection that primarily affects the respiratory tract. Amphotericin B has broad antifungal activity and is commonly used to treat aspergillosis, a fungal pneumonia that is a common sequela in oiled waterfowl as well as other birds in wildlife rehabilitation. Pharmacokinetic parameters of nebulized amphotericin B in an avian model have been reported, but those of direct intratracheal delivery have yet to be established. The objective of this study was to evaluate if a single 3 mg/kg dose of liposomal amphotericin B delivered intratracheally using a commercial atomizer would achieve plasma and lung tissue concentrations exceeding targeted minimum inhibitory concentrations (MIC) for Aspergillus species in adult mallard ducks (Anas platyrhynchos). Following intratracheal delivery, amphotericin B was present in lung parenchyma at concentrations above the targeted MIC of 1 μg/g for up to 9 days post-administration; however, distribution of the drug was uneven, with the majority of the drug concentrated in one lung lobe. Concentrations in the contralateral lung lobe and the kidneys were above the targetedMIC 1 day after administration but declined exponentially with a half-life of approximately 2 days. Plasma concentrations were never above the targeted MIC. Histological examination of the trachea, bronchi, lungs, heart, liver, and kidneys did not reveal any toxic changes. Using a commercial atomizer, intratracheal delivery of amphotericin B at 3 mg/kg resulted in lung parenchyma concentrations above 1 μg/ml with no discernable systemic effects. Further studies to establish a system of drug delivery to both sides of the pulmonary parenchyma need to be performed, and the efficacy of this treatment for disease prevention remains to be determined. [ABSTRACT FROM AUTHOR]

Published
2018
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48. BURNING VELOCITY MEASUREMENT OF BIODIESEL FUEL AND ITS BLENDS USING PARTICLE IMAGING PATH TECHNIQUE AND IMAGE PROCESSING.

Author

abed Al-Khadim Mohammed Hasan, Mahmoud Attallah Mashkour, and Amer Abdulah Mohammed

Subjects
BIODIESEL fuels, BURNING velocity, IMAGE processing, VELOCITY measurements, FATTY acid methyl esters, LIQUID fuels
Abstract

Copyright of Journal of Engineering & Sustainable Development is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2018
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50. Analysis of technical correctness of pesticide application machines in the Republic of Croatia based on deficiencies observed during mandatory periodic checks

Author

Ostojić, Lovro and Sito, Stjepan

Subjects
tehnička ispravnost, prskalica, raspršivač, pesticidi, orošivač, Croatia, Hrvatska, sprayers, BIOTEHNIČKE ZNANOSTI. Poljoprivreda (agronomija), atomizer, pesticidi, pesticides, BIOTECHNICAL SCIENCES. Agronomy, tehnička ispravnost, prskalica, technical correctness
Abstract

Od 2014. godine hrvatski su poljoprivrednici dužni obavljati ispitivanje tehničke ispravnosti strojeva za primjenu pesticida svake tri godine u ovlaštenoj ispitnoj stanici. Naglasak je na ispravnom održavanju strojeva što se postiže edukacijama i redovitim pregledima. Prema dosadašnjim istraživanjima u Hrvatskoj je veći broj strojeva za primjenu pesticida u lošem stanju. U ovom je radu dat prikaz stanja strojeva za primjenu pesticida na području Hrvatske, a rezultati su dobiveni analizom podataka Fitosanitarnog informacijskog sustava o količini strojeva (prskalica, orošivač), prosječnoj starosti, proizvođaču, vrsti stroja i ishodima pregleda. Since 2014, Croatian farmers have been obliged to carry out a test of the technical correctness of pesticide application machines every three years at an authorized testing station. The emphasis is on the correct maintenance of the machines, which is achieved through education and regular inspections. According to previous research, a large number of machines for pesticide application in Croatia are in poor condition. This paper provides an overview of the state of machines for pesticide application in Croatia, and the results were obtained by analyzing data from the 'Phytosanitary Information System' on the number of machines (sprayers, atomizers), average age, manufacturer, type of machine and inspection results.

Published
2022

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