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Absat

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Thermodynamic systems analysis Cr–As–H2O based on E–pH diagrams

Kopylov¹,

Omarov²,

Absat³

et al. 2017

Bull. of the Kar. Univ. "Chem". Ser.

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Thermodynamic systems analysis Cr-As-H 2 O based on E-pH diagramsAfter studying the problem of environmental pollution, it was found that the most dangerous contaminant is arsenic. Due to the fact that the properties arsenates little studied, the analysis of published data showed that a growing need for thermochemical data from each year for new manufacturing processes involving arsenic compounds. This article first introduced the E-pH diagram of the system Cr-As-H 2 O at standard conditions (25 °C and 1 atm. Total pressure), where the range of existence of arsenate chromium, considered the chemical and electrode reactions produce chromium arsenate compounds of chromium and arsenic. The outcome of the conclusion about the possibility of the use of chromium compounds to output arsenic from solution in the form of a soluble, stable chromium arsenate.

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Catalytic hydrogenation of anthracene in ethanol medium

Baikenov¹,

Khalikova²,

Kochegina³

et al. 2017

Bull. of the Kar. Univ. "Chem". Ser.

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Этанол ортасындағы антраценнің каталитикалық гидрогенизациясыКатализатор қатысында этанол ортасында антраценнің гидрогенизациясын жүргізу нəтижелері келтірілді. Катализатор негізінде никель жəне темір көмірлі микросфераларына қондырылған темір жəне мыс наноөлшемді ұнтақтары қолданылды. Салыстырмалы катализатор негізінде жоғары дисперсті темір тотығы -гетит β-FeOOH алынды. Тəжірибелер жоғары қысымды реакторда жүргізілді. Шикізаттың конверсия дəрежесі қалдықты антрацен бойынша бағаланды. Темірдің наноұнтағының 1,5 бөлшегін енгізу барысында аз мөлшерде каталитикалық əсер байқалды.Кілт сөздер: антрацен, көмірлі микросфералар, гидрогенизациялау, каталитикалық əсер, темір наноұнтағы, салыстырмалы катализатор.

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nvestigation of the process of precipitation of arsenic from copper electrolyte with manganese oxide (IV)

Omarov¹,

Aldabergenova²,

Muzapparov³

et al. 2018

Bull. of the Kar. Univ. "Chem". Ser.

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Investigation of the process of precipitation of arsenic from copper electrolyte with manganese oxide (IV) The work is aimed at researching the process of depositing arsenic from copper electrolyte with manganese oxide (IV) using the method of stochastic determinated design of experiments on four levels. The chosen factors are: the frequency of dispensing of the precipitant; the ratio of precipitant to arsenic; the temperature of process; concentration of sulfuric acid; duration of experiment. Analysis of the partial dependencies of arsenic deposition showed that the increase in the amount of precipitant and the duration of the experiment had a significant influence on the course of the process. IR spectroscopy of precipitation showed the presence of arsenate ions AsO 4 3in them. The kinetic curve of the differential-thermal analysis of the solid sediment characterizes the process of its destruction as a step-wise process-the removal of crystallizated water (from 250 ºС to 350 ºС), the decomposition of manganese hydroarsenate (from 470 ºС to 630 ºС) and manganese arsenate (from 690 ºС to 900 ºС). It is established that the process of formation of manganese arsenate is a result of parallel reactions of interaction of sulfate ions with manganese ions with the formation of a sulfate complex, interaction of the manganese sulphate complex with arsenate ions with the formation of manganese hydroarsenate, and the transition of hydroarsenate to manganese arsenate.

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Absat

Thermodynamic systems analysis Cr–As–H2O based on E–pH diagrams

Catalytic hydrogenation of anthracene in ethanol medium

nvestigation of the process of precipitation of arsenic from copper electrolyte with manganese oxide (IV)

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