А. А. Филимонова scite author profile

А. А. Филимонова

5Publications

44Citation Statements Received

4Citation Statements Given

How they've been cited

How they cite others

Affiliations

Kazan State Power Engineering University, National Academy of Sciences of Ukraine, O.Ya. Usikov Institute for Radiophysics and Electronics

Publications

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The nature of chalcopyrite inclusions in sphalerite; exsolution, coprecipitation, or "disease"?

Бортников¹,

Genkin²,

Dobrovol’skaya³

et al. 1991

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Chalcopyrite inclusions in sphalerite, once considered to be only exsolution products, have been suggested to be replacements ofFe-rich sphalerite. This study reveals that (1) chalcopyrite inclusions were found in sphalerite with different iron contents: both Fe-poor varieties from 0.5 to 2 wt percent and Fe-rich, from 8 to 14 wt percent; (2) chalcopyrite inclusions were produced by replacement as the result of interaction of sphalerite with solutions, which transported both copper and iron; and (3) coprecipitation of sphalerite and chalcopyrite is an alternative mechanism of formation of the chalcopyrite inclusions in the ore deposits studied.

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Shadlunite, a new sulfide of copper, iron, lead, manganese, and cadmium from copper nickel ores

Yevstigneyeva

Genkin

Troneva

et al. 1973

International Geology Review

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Theoretical and Experimental Studies of Combined Heat and Power Systems with SOFCs

et al. 2023

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The article presents an overview of experimental layout design solutions and the general operation scheme of combined heat and power systems with a high-temperature solid oxide fuel cell (SOFC). This system is an environmentally friendly and energy-saving way to produce electricity and heat. The use of high-temperature SOFCs makes it possible to obtain an electrical efficiency of 45–55%. Combining the electrochemical and mechanical system can increase the total efficiency by up to 60–65% in a hybrid power plant. This article discusses the structure and relationship between the components of a hybrid power plant and various modification options for efficient power generation. The technological schemes for existing and tested hybrid power plants with an SOFC and gas turbine are presented and described in detail. When designing a hybrid power plant, the key factors are the choice of design, heat source, and fuel-reforming method; the design of a solid oxide fuel cell and the number of modules in a stack; selecting devices for generating electricity with the development of cogeneration or trigeneration cycles (for possible use in thermal power plants and for the energy supply of social facilities); the direction of material flows within the system; pressure and tightness; and the interconnection of the hybrid power system elements. Researchers have accumulated and described in scientific papers extensive experience in designing, theoretical research, and numerical modeling of hybrid power plants with high-temperature SOFCs. It is shown that experimental hybrid power plants based on SOFCs of the megawatt class are in operation. Hybrid systems with an SOFC are designed only for the kilowatt power class. Trigeneration systems with a steam turbine exist only in the form of theoretical calculations. Trigeneration systems show the highest electrical efficiency, but the highest construction and service costs. Systems based on high-temperature SOFCs can be used for autonomous systems, and in combination with gas and steam turbines only at thermal power plants. Experimental laboratory studies are limited by the high cost of installations and the difficulties of testing the possibility of using combined heat and power systems on an industrial scale. Therefore, a more detailed study of the relationship between the units of a combined heat and power system is recommended in order to achieve the high efficiency indicators obtained from theoretical studies.

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Enhancing the ecological and operational characteristics of water treatment units at TPPs based on baromembrane technologies

et al. 2017

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Putoranite and nickel—bearing putoranite, new minerals of the chalcopyrite group

Филимонова¹,

Yevstigneyeva²,

Laputino³

1981

International Geology Review

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