A. A. Glushchenko scite author profile

The urgency of the issue is reasoned by the necessity to develop environmentally friendly technologies and engineering tools for cleaning emerged mineral oil from insoluble impurities in order to reuse them in the nodes and auto-tractor equipment systems. Hydrocyclone is one of the simplest and most effective means of cleaning waste oil. In order to determine the possibility of hydrocyclone usage in technological lines for purifying oils, it is necessary to establish the influence of its geometrical parameters on the purification quality of such high-viscosity liquid as emerged mineral oils. The purpose of the article is to study theoretically the cylindro-conical hydrocyclone geometrical parameters influence on the purification degree of emerged high-viscosity mineral oils from insoluble and wear debris. The leading approach to the study of this problem is the consideration of the behavior of a non-soluble particle in an oil stream under the influence of forces acting on it, which allows identifying the geometric and regime parameters of a cylindro-conical hydrocyclon. These parameters have the greatest influence on the oil purification degree. The article presents a theoretical justification for the geometrical parameters influence of a cylindrical-conical hydrocyclone on the emerged oil purification degree, a separation criterion, which allows not only determining the optimal size of a hydrocyclone, but also conducting a comparative assessment of hydrocyclones with different geometric parameters by oil purification efficiency from insolubles. Theoretical researches are aimed at determining the cylindro-conical hydrocyclone geometric parameters, depending on the pollution intensity of the emerged mineral oil and the desired degree of its purification from insolubles.

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Analytical Calculation of the Magnetic Induction in the Center of Planar Coils

Glushchenko¹,

Glushchenko²,

Glushchenko³

2020

НО ТН (SR TS)

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Развитие технологии производства устройств телекоммуникации определило необходимость создания новой элементной базы микроустройств и устройств наноэлектроники, позволяющих реализовать преимущества интегральной технологи. Тенденция к уменьшению геометрических размеров элементов интегральных микросхем породила задачу создания электронных элементов планарной конфигурации. В частности, уменьшению габаритов индуктивностей и емкостей, которые бы при малых размерах имели приемлемые значения электромагнитных параметров. Оценки параметров планарных элементов из-за сингулярностей в расчетных формулах широко известных моделей иногда приводят к ошибочным результатам. Это потребовало создания физико-математических моделей расчёта индукции магнитного поля в центре планарных конструкций, которые были бы ориентированы на планарную технологию. В работе на основе уравнений закона Био-Савара-Лапласа получены аналитические соотношения для расчета магнитной индукции в центре наиболее известных и применяемых на практике планарных спиралей различной конфигурации (архимедова, гиперболическая, Ферма, Галилея, логарифмическая, квадратичная, системы концентрических окружностей, многоугольников и др.). Установлено, что использование плоских спиралей позволяет получить высокие значения индукции магнитного поля, что позволяет использовать их, в частности, в качестве высокотехнологичных элементов индуктивностей в различных частотных диапазонах микро-и наноэлектроники. Ключевые слова: интегральные схемы, планарные спирали, индукция, магнитное поле

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Theoretical Prerequisites for Lowering Piston Temperature in Internal Combustion Engines

Khusainov

Glushchenko

2016

Procedia Engineering

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Specification of cold running-in quality to power change losses for friction

Karpenko¹,

Glushchenko²,

Karpenko³

2019

Vestnik of Ulyanovsk SAA

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A. A. Glushchenko

Information security issues in the distributed information measurement system

On the issue of the installation of the purification degree dependence of polluted spent mineral oil on the hydrocyclone constructive and geometrical parameters

Analytical Calculation of the Magnetic Induction in the Center of Planar Coils

Theoretical Prerequisites for Lowering Piston Temperature in Internal Combustion Engines

Specification of cold running-in quality to power change losses for friction

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