G. A. Rabadanov scite author profile

G. A. Rabadanov

5Publications

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Dagestan Scientific Center of the Russian Academy of Sciences, Russian Academy of Sciences, Central Botanical Garden

Publications

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Isochoric Heat Capacity of 1% Aqueous Solution of Magnesium Chloride

Дворянчиков¹,

Джаватов²,

Rabadanov³

et al. 2016

Ûg Ross.: èkol. razvit.

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Результаты исследования изохорной теплоёмкости в зависимости от температуры приводятся виде таблиц и рисунков, полученные результаты сравниваются с данными других авторов. При оценке сложной системы нельзя оценивать её эффективность только лишь на основе одного, даже очень важного критерия, при этом приходится учитывать требования технического, экономического, экологического и другого характера. Выво-ды. В геотермальной энергетике, при решении оптимизационных задач эффективности, необходимо учиты-вать факт температурной зависимости теплоёмкости и плотности. Учёт температурной зависимости таких параметров, как плотность и теплоёмкость при расчётах, существенно влияет на значения критерия эффек-тивности, которые необходимо учитывать, ибо в противном случае погрешность вычислений может составить до 20 %. Полученные данные изохорной теплоёмкости водных растворов хлористого магния сравнивались с данными по воде и водным растворам NaCl и NaOH, полученными ранее, которые могут быть представлены как модель геотермальной и морской воды. Ключевые слова: адиабатный калориметр, изохорная теплоемкость, фазовое равновесие, водные раство-ры солей, геотермальная энергетика, удельный объем, термоэлемент, температурный ход.

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PHASE EQUILIBRIUM IN SYSTEM (LiF)2 – Li2CO3 – Li2SO4

Verdieva¹,

Alkhasov²,

Вердиев³

et al. 2018

IVUZKKT

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The liquidus surface of the system (LiF)2-Li2SO4-Li2CO3 was studied by the calculated and differential thermal method of physicochemical analysis. An analysis of the systems of lower dimensionality of the facets of the investigated object showed that the most informative, for the experimental study, is the sections located in the crystallization field of lithium fluoride. A study of the DTA of a number of compositions located at the initially chosen polythermal section in the lithium fluoride crystallization field, the ratios of lithium sulfate and carbonate in the eutectic are determined. The composition of the triple eutectic was revealed by studying a non-invariant cut from the vertex of the triangle (LiF), through a point showing a constant ratio of sulfate and lithium carbonate in the eutectic, to the fusion of the thermal effects of the primary and tertiary crystallizations. The complexity of the study was that lithium carbonate is the most fusible component in the system, and according to the literature, after the melting of lithium carbonate, decomposition begins, which greatly complicates the interpretation of research results. In order to avoid the decomposition of lithium carbonate, each experimentally studied composition was heated to the melting temperature of lithium carbonate and kept in isothermal mode, at a temperature below its melting. Thus, the theoretical melting calculations and the region of location of the non-invariant composition have been extrapolated, allowing to limit the number of experimentally studied samples, and the subsequent experimental investigation of DTA of two polythermal sections revealed a eutectic composition crystallizing at 476 ° C and containing LiF-20 eq.%, Li2SO4 - 51 eq.%, Li2CO3 – 29 eq.%. The discrepancies between theoretical calculations and experimental studies are 8.3% in temperature and 5.05% in composition.

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Thermal Decomposition of Alcohols in the Vicinity of Critical Point

Dvoryanchikov

Zaripilova

Rabadanov

2008

Russ. J. Phys. Chem.

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Calculation of the Parameters of the Dimeric Association of Water Molecules and Determination of Their Temperature Dependence

Abdullaev

Rabadanov

2018

Russ. J. Phys. Chem. B

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Isochoric heat capacity and T-ρ dependence of cooling agents and their mixtures along the phase equilibrium line

Dvoryanchikov

Rabadanov

2010

Russ. J. Phys. Chem.

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G. A. Rabadanov

Isochoric Heat Capacity of 1% Aqueous Solution of Magnesium Chloride

PHASE EQUILIBRIUM IN SYSTEM (LiF)2 – Li2CO3 – Li2SO4

Thermal Decomposition of Alcohols in the Vicinity of Critical Point

Calculation of the Parameters of the Dimeric Association of Water Molecules and Determination of Their Temperature Dependence

Isochoric heat capacity and T-ρ dependence of cooling agents and their mixtures along the phase equilibrium line

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