Александр Юрченко scite author profile

Александр Юрченко

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Империя И Космос. Опыт Интерпретации Средневекового Описания Империи Чингисхана

Юрченко¹

2002

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SUMMARY: In his article Alexander Iurchenko analyzes the documents of a papal diplomatic delegation to the Mongol empire of the middle of the thirteenth century, namely Ystoria Mongalorum by John of Plano Carpini and Tatar Relation by C. de Bridia. A textological scrutiny of the documents so rich in fantastic episodes and mysterious symbolism and a comparison of fictitious episodes from those materials with Persian and Arabic cosmographies led the author to conclude that the episodes in question constitute a separate text, which was produced by an unidentified Mongolian author from the educated elite of the empire and recorded by Brother Benedict, who served as an interpreter to the papal mission. This text sheds new light on the level of cultural life and intellectual sophistication of politics in the Mongolian empire, which was regarded before as empire of barbarians. The text itself is a subtle rhetorical game, which draws on official symbols of the Mongolian political tradition and the rich literature of the medieval East in order to subvert the official mythology of the Mongolian empire. The historical episode and literary history of the Mongolian text under analysis raises question as to the traditional views on the creativity of medieval authorship and the cultural cleavage between the Western and Asiatic medieval civilizations.

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Mathematical modeling of gas-dynamic processes in a pulsed aerodynamic facility and the numerical calculation of flow parameters in the test chamber

Гончар¹,

Овсянников²,

Сорокин³

et al. 2019

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Описывается математическое моделирование газодинамических процессов, протекающих в основных функциональных частях импульсной аэродинамической установки. Осуществляется расчет локальных и интегральных параметров обтекания модели конуса, расположенной в рабочей части установки. Приводится качественное и количественное сравнение результатов математического и физического моделирования. Purpose.The aim of this paper is the mathematical modelling of gasdynamic processes and the incoming airflow around the model fixed in the test chamber of the main functional elements of a pulsed aerodynamic facility. Methodology.Physical and mathematical modelling methods are jointly used for comprehensive description of the processes under study. The experimentally obtained results of drainage and balance measurements combined with visualization of the flow around the model using the shadow method are used to validate the numerical solution of the problem. System of unsteady Reynolds averaged NavierStokes (RANS) equations and SST turbulence model are used for mathematical description of the movement of working gas flow from prechamber through the nozzle to the test chamber where the body was fixed. Finite elements method implemented in Ansys Fluent computational complex is used for the numerical solution. Findings.Mathematical modelling of the flow around the cone model by the incoming flow with Mach numbers M 2...5 was carried out. The distribution fields of gasdynamic parameters (,P,T,M) over the entire internal volume of the pulsed aerodynamic facility (prechamber, axisymmetric nozzles set, test chamber) are obtained. The values of static pressure at the model surface and Mach number at nozzle exit are calculated for each velocity. Relative error between numerical calculation and experimental data is obtained to be of the order of 10 and 3, respectively. For flow structure near the model we obtain a qualitative agreement that the density distribution field is identical to the shadowgraph flow visualization pattern. Value.A numerical method for calculation of local and integral parameters of supersonic and hypersonic flow around models in test chamber of aerodynamic facility was implemented. Information about the gasdynamic flow parameters at the nozzle exit allowing the study of the flow around the model for the cases with more complex geometry using mathematical modelling based on the results of experiments.

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Calculation of Geometrical Parameters of Cylindrical Bearing Device in the Peripheral Portion of the Disintegrator

Семикопенко¹,

Latyshev²,

Latyshev

et al. 2018

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Семикопенко И.А., канд. техн. наук, доц., Латышев С.С., канд. техн. наук, доц., Воронов В.П., канд. физ.-мат. наук, проф., Беляев Д.А., аспирант, Юрченко А.С., аспирант Белгородский государственный технологический университет им. В.Г. Шухова РАСЧЕТ ГЕОМЕТРИЧЕСКИХ ПАРАМЕТРОВ ЦИЛИНДРИЧЕСКОГО КАЛИБРУЮЩЕГО УСТРОЙСТВА В ПЕРИФЕРИЙНОЙ ЧАСТИ ДЕЗИНТЕГРАТОРА semikopenko.ia@bstu.ru В последние годы дезинтеграторы находят широкое применение при измельчении, активации и смешении для производства ряда строительных материалов. Одним из недостатков работы дезинтеграторов является незначительное количество соударений частиц в периферийной зоне камеры помола. В данной статье разработано математическое выражение для определения изменения концентрации частиц материала в периферийной зоне камеры помола в связи с установкой цилиндрического калибрующего устройства, а также уравнение, определяющее радиус установки данного устройства. Представлена схема камеры помола дезинтегратора с цилиндрическим калибрующим устройством. Рассмотрено условие прохождения частицы материала через отверстие перфорированной секции калибрующего устройства. Установлено, что частица материала покинет зону между внешним рядом ударных элементов и перфорированной секцией цилиндрического калибрующего устройства в случае, если за время tn движения в радиальном направлении в отверстии диаметром  частица пройдет расстояние, равное половине её диаметра. Ключевые слова: дезинтегратор, бронеплита, устройство, секция, частица. Вестник БГТУ им. В.Г. Шухова 2018, №6 88 зев П.П. Теоретические исследования скорости движения частиц материала вдоль поверхности ударного элемента мельницы дезинтеграторного типа // Известия ВУЗов. Строительство. 2008. № 11-12. С. 93-96. Информация об авторах Семикопенко Игорь Александрович, кандидат технических наук, доцент кафедры механического оборудования.

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