Journal of Engineering Sciences / Журнал інженерних наук
Permanent URI for this collectionhttps://devessuir.sumdu.edu.ua/handle/123456789/34326
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Item Capturing aerosol particles in a device with a regular pulsating nozzle(Sumy State University, 2021) Козій, Іван Сергійович; Козий, Иван Сергеевич; Kozii, Ivan Serhiiovych; Пляцук, Леонід Дмитрович; Пляцук, Леонид Дмитриевич; Pliatsuk, Leonid Dmytrovych; Гурець, Лариса Леонідівна; Гурец, Лариса Леонидовна; Hurets, Larysa Leonidivna; Volnenko, A.A.The paper is dedicated to reducing the technogenic impact on the environment of using highly efficient apparatus for the complex exhaust gas treatment, operating in the advanced turbulence regime – an apparatus with a regular pulsating nozzle (RPN). Devices with on-load tap-changers are characterized by high efficiency of capturing solid particles of different dispersion (e.g., fog, dust, and smoke), the possibility of self-cleaning of contact elements from sticky dust, low material consumption, and high reliability in operation. Purpose of the study – to obtain analytical solutions for assessing the efficiency of capturing polydisperse aerosols in an apparatus with an on-load tap-changer due to diffusion and inertial mechanisms. The paper proposes a new solution for the minimum effective diameter of aerosol particles that can be captured in devices with an on-load tap-changer and can be used for a wide range of diameters of absorbing liquid droplets and their number in the volume of the apparatus. The calculations allow us to say that the minimum effective diameter of aerosol particles captured by liquid drops in an apparatus with an on-load tap-changer is less than 0.3 microns.Item Clarification of the Recent Scientific Approaches in Magnetic Water Treatment(Sumy State University, 2019) Пляцук, Леонід Дмитрович; Пляцук, Леонид Дмитриевич; Pliatsuk, Leonid Dmytrovych; Рой, Ігор Олександрович; Рой, Игорь Александрович; Roi, Ihor Oleksandrovych; Черниш, Єлізавета Юріївна; Черныш, Елизавета Юрьевна; Chernysh, Yelyzaveta Yuriivna; Козій, Іван Сергійович; Козий, Иван Сергеевич; Kozii, Ivan Serhiiovych; Гурець, Лариса Леонідівна; Гурец, Лариса Леонидовна; Hurets, Larysa Leonidivna; Musabekov, A.A.Досліджено механізм впливу магнітної обробки на фізико-хімічні властивості водних розчинів з урахуванням характеру змін кінетики хімічних реакцій. Використано теоретичний аналіз геометрії магнітного поля в апаратному обладнанні технологій очищення води. Проведено огляд сучасних даних про фізико-хімічні процеси, обумовлені впливом магнітної обробки на властивості та структуру водних розчинів. Здійснено розширення концептуальних засад теорії механізму магнітної обробки з урахуванням впливу неоднорідного магнітного поля на лібраційні коливання молекул води з подальшим їх руйнуванням і порушенням орто-пара-відношення у бік більш хімічно активних молекул води. Отримана формалізована модель пояснює природу ефектів, що спостерігаються після впливу магнітного поля на водні розчини та може бути використана для оптимізації режимних параметрів процесів підготовки та очищення води.Item Sulfur Utilization in the Systems of Biological Wastwater Denitrification(Sumy State University, 2018) Пляцук, Леонід Дмитрович; Пляцук, Леонид Дмитриевич; Pliatsuk, Leonid Dmytrovych; Черниш, Єлізавета Юріївна; Черныш, Елизавета Юрьевна; Chernysh, Yelyzaveta Yuriivna; Аблєєва, Ірина Юріївна; Аблеева, Ирина Юрьевна; Ablieieva, Iryna Yuriivna; Козій, Іван Сергійович; Козий, Иван Сергеевич; Kozii, Ivan Serhiiovych; Balintova, M.; Matiash, Y.O.This paper focuses on the study of the possibility of using mineral carriers from sulfur (bio-sulfur/elementary sulfur) in anaerobic wastewater treatment systems under autotrophic denitrification conditions. The theoretical aspects of the work are based on the biochemical formalization of the studied processes using the systemic-synergetic approach for the description of the patterns of autotrophic denitrification microorganisms based on the principles of autocatalysis of natural systems. Special software was used in the work to identify the necessary ecological and trophic groups of microorganisms and implement the schemes of trophic interactions in association of denitrification microorganisms. The taxonomic classification was assigned based on the KEGG database (Kyoto Encyclopedia of Genes and Genomes). Bio-filtration set-up system was formed for carrying out the process wastewater denitrification with using bio-sulfur and gaseous sulfur. The filtration method is used under anaerobic conditions along with immobilization on the carrier based on sulfur autotrophic denitrifying bacterial species such as Thiobacillus denitrificans and Thiomicrospira denitrificans. Thus, sulfur conversion leads to the reduction of nitrates to nitrites and, ultimately, the release of molecular nitrogen. The mechanisms of sulfur conversion in natural ecosystems make it possible to conclude its expediency of use it as a sorption sulfur-containing mineral carrier in wastewater purification systems with further conversion to an organic form (with microbial cell carbonate). The interactions pathways model in the association of heterotrophic and autotrophic denitrification bacteria in the process of wastewater and sewage sludge purification was formed under condition of elementary sulfur presence. Energetic and synthesis reactions for an autotrophic denitrification were described. The implementation of wastewater treatment systems with autotrophic denitrification process use will provide an opportunity to expand the application scope of by-products such as gaseous sulfur and bio-sulfur that currently minimal recycling in traditional industrial processing.Item Directions of the environmental protection processes optimization at heat power engineering enterprises(Sumy State University, 2017) Гурець, Лариса Леонідівна; Гурец, Лариса Леонидовна; Hurets, Larysa Leonidivna; Козій, Іван Сергійович; Козий, Иван Сергеевич; Kozii, Ivan Serhiiovych; Miakaieva, H.M.The article observes the impact factors of heat power engineering enterprises on the environment and ways of anthropogenic impact reduction during the application of ecological security control technological methods. The authors suggest attending to the optimization of specific environmental protection processes during the elaboration of ecological security control technical methods in order to reduce the anthropogenic impact on the environment. At the industrial enterprises it is reasonable to implement the principle of the optimization of the environmental protection processes with the help of the high-intensity purification equipment. The optimization of the environmental protection process involves the choice of the physical-chemical factors such as: thermodynamic, kinetic, mass- and heat-exchanging, hydrodynamic, influence parameters on the heterogeneous, complex systems. According to the results of the systems analysis of impact factors on the efficiency of environmental protection processes, it is suggested to optimize the cleaning equipment due to classified and structural parameters, which would allow design the systematic approaches to the selection of environmental protection equipment in future. The process intensity is considered as an environmental protection process optimization criterion.Item Modeling of waterborne pollution of roadside soils(Sumy State University, 2017) Пляцук, Леонід Дмитрович; Пляцук, Леонид Дмитриевич; Pliatsuk, Leonid Dmytrovych; Васькіна, Ірина Валеріївна; Васькина, Ирина Валерьевна; Vaskina, Iryna Valeriivna; Козій, Іван Сергійович; Козий, Иван Сергеевич; Kozii, Ivan Serhiiovych; Соляник, Валерій Олександрович; Соляник, Валерий Александрович; Solianyk, Valerii Oleksandrovych; Васькін, Роман Анатолійович; Васькин, Роман Анатольевич; Vaskin, Roman Anatoliiovych; Яхненко, Олена Миколаївна; Яхненко, Елена Николаевна; Yakhnenko, Olena MykolaivnaMotor transport and road maintenance are the determining factors of environmental pollution in the roadside zone. The main acceptor of pollution in this case is the soil. In connection with the complexity of the application of instrumental control methods, it is perspective to carry out the monitoring of roadside territories on the basis of mathematical modeling. The objective of the study is to develop a model of vehicle emissions impact on roadside soils with washout from the road bed. As a physical model we will consider roadside underlying surface covered with a layer of raindrops. According to the physical model, pollutants are absorbed by rain drops when falling on the underlying surface. Movement of pollutants down the whole depth of soil profile is carried out under the action of filtering the contaminated liquid in the granular material of soil. Analytical dependencies have been obtained allowing to predict the roadside ecosystem pollution from exhaust emissions. Soil contamination with liquid effluents resulting from the dissolution of sulfur dioxide in atmospheric precipitation has been calculated.