Irina P. Ozerova scite author profile

Irina P. Ozerova

5Publications

11Citation Statements Received

46Citation Statements Given

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Affiliations

Tomsk Polytechnic University, National Research Tomsk State University

Publications

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Predictive Modelling of the Warming up Times for Thermoelectric Converters

Atroshenko¹,

Ozerova

Стрижак

2014

AMR

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In the present article the question of simulation of nonstationary process of heat transport in a sensitive element of the thermoelectric transformer with an uninsulated seal is considered. The model allows defining and comparing the heating time of a thermocouple junction up to the given temperature for different types of thermocouples. In this article the values obtained by means of modelling the heat time of different thermocouples and also a temperature field in a sensitive element of the thermoelectric transformer are given.

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Allothermal Gasification of Peat and Lignite by a Focused Light Flow

et al. 2020

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Gasification of peat and lignite under a focused light flow was observed in a wide range of fuel moisture (up to 65 wt.%). The initial water content in the fuels under study had a different influence on the chemical composition of the synthesis gas (syngas). At the same time, the effect of light intensity was more predictable: in general, the production of gases grew with it. It was shown that the gasification of peat accelerated greatly when light intensity exceeded 100 W/cm2. Moreover, the conversion of peat and lignite required an order of magnitude lower intensity of the light flow than was necessary for the conversion of bituminous coal processing waste. The dynamics of the sample weight changes demonstrated that contrary to bituminous coals, the process was not purely allothermal for both peat and lignite. However, the fuel smoldering was not self-sustainable and stopped shortly after the pumping light was turned off.

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К Вопросу О Переходе Тепловых Электрических Станций С Традиционных Топлив На Органоводоугольные Топливные Композиции

Kurgankina¹,

Вершинина²,

Ozerova³

et al. 2018

IZVESTIYA

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Актуальность исследования обусловлена необходимостью эффективной утилизации многочисленных аккумулированных отходов углеобогащения и нефтепереработки в составе водоугольных и органоводоугольных топлив, существенного снижения потребления полезных ископаемых для получения тепловой и электрической энергии, минимизации влияния теплоэнергетики на здоровье населения и состояние природы. Цель исследования: оценка преобразования систем топливоподачи при переходе тепловых электрических станций с твердого, жидкого и газового топлива на органоводоугольные топлива; проведение технико-экономического анализа применения органоводоугольных топлив на ТЭС с учетом основных статей затрат. Объект: тепловая электрическая станция тепловой мощностью 800 Гкал/ч и электрической мощностью 300 МВт, расположенная в Сибирском регионе Российской Федерации. В качестве основных видов топлива используется каменный уголь марки «Д» и природный газ, в качестве растопочного топлива используется мазут. Методы: проведение технико-экономического анализа эффективности перехода тепловой электрической станции с традиционного топлива на органоводоугольные топлива путем расчета следующих затрат: топливные, эксплуатационные, хранение топлива, хранение и утилизация золошлаковых отходов, уплата штрафов и экологические мероприятия, переоборудование системы топливного хозяйства. Результаты. Переход с традиционного твердого топлива (угля) на органоводоугольные суспензии существенно упрощает системы топливных хозяйств ТЭС и котельных, так как для создания таких систем требуется значительно меньшее количество оборудования. При выработке общей установленной мощности всеми угольными электростанциями мира за счет сжигания органоводоугольных топлив экономия одних только топливных затрат может составить от сотен млн р до десятков млрд р в год.

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Experimental Research of Influence of a Relative Particles Positioning in a Gas Stream on Characteristics of their Aerodynamic Traces

2016

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Abstract. The cycle of experimental studies on determination of length of aerodynamic traces of the particles which are flowed round by an air stream is executed. When carrying out researches, panoramic optical methods for diagnostics of multiphase flows of PIV and PTV were used. Velocities of an air flow were varied in the range of 1-3 m/s. The sizes of particles changed from 1mm to 5 mm. The defining influence of the sizes of particles and velocities of an air stream on length of aerodynamic traces is established. Influence of a relative positioning of particles on features of formation of an aerodynamic trace is shown.

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Influence of Radiation and Convective Types of Heat Exchange on the Necessary Duration of Temperature Measurement by Thermocouples

2016

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Abstract.Results of research of influence of radiation heat exchange on duration of execution of measurement high темератур are given by thermocouples, influence of the free convection on results of temperature measurement is also considered by the thermocouples set in protective sleeves with a gap. Researches showed that radiation heat exchange leads to lowering of duration of heating of the thermocouple to 30% whereas the free convection in a protective sleeve practically doesn't exert impact on process of heating up of the sensor.

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Irina P. Ozerova

Predictive Modelling of the Warming up Times for Thermoelectric Converters

Allothermal Gasification of Peat and Lignite by a Focused Light Flow

К Вопросу О Переходе Тепловых Электрических Станций С Традиционных Топлив На Органоводоугольные Топливные Композиции

Experimental Research of Influence of a Relative Particles Positioning in a Gas Stream on Characteristics of their Aerodynamic Traces

Influence of Radiation and Convective Types of Heat Exchange on the Necessary Duration of Temperature Measurement by Thermocouples

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