Janarbek Izakov scite author profile

Janarbek Izakov

3Publications

0Citation Statements Received

50Citation Statements Given

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Kyrgyz-Turkish Manas University

Publications

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The Impact of Road Salts on Groundwater and Estimation of the Chlorine Ions by Hydrogen Index

Sambaeva¹,

Izakov²,

Maymekov³

et al. 2022

Pol. J. Environ. Stud.

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In this study, the influence of road salts on groundwater was investigated. The use of anti-ice reagents in winter requires certain precautions since the main chemical composition of the salts is chlorides. At the same time, the widely used sodium chloride does not form ion pairs in water, which means that it has a high migration ability and a weak sorption potential. In addition, the concentration of chloride salts in the components of the environment is so high (10-140 ppm). Therefore, the rapid assessment of the concentration of technogenic chlorine ion in water by pH is an urgent task. The average chemical composition of groundwater in Bishkek and its environs was considered, and the concentration of chlorine ions in water from 72 wells was determined. To develop the pattern of dispersion of chlorine ions, the thermodynamic modeling of the sodium chloride-water system was carried out at a minimum of Gibbs energy with a wide range of water temperature changes corresponding to the flow regime of cold groundwater. The concentration distribution of the components, charged particles, as well as the values of pH and Eh were determined. As a result, an empirical equation and a scheme for rapid assessment of the quantitative content of chlorine ions in water bodies were compiled.

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Concentration Distribution of Molecules and Other Species in the Model System Fe–NaCl–Na2S–H2SO4–H2O at Various Temperatures of the Electrocoagulation Process

Маймеков

Sambaeva

Izakov

et al. 2023

Theor Found Chem Eng

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Bioremediation approaches for oil contaminated soils in extremely high-mountainous conditions

Totubaeva¹,

Tokpaeva²,

Izakov³

et al. 2023

Plant Soil Environ.

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Pollution of soil ecosystems by petroleum-based contaminants is a global problem that requires urgent measures to resolve it, especially the pollution of soils in the subarctic and high-mountain regions (Filler et al. 2009, McDonald and Knox 2014, Adipah 2019. Petroleum pollution causes oxidative stress, changes in soil chemistry and low nutrient availability. Petroleum-based contaminants reduce the number and metabolic activity of aerobic soil microorganisms and affect plant growth and germination, creating an impermeable membrane that impedes water and oxygen circulation. Especially high molecular weight petroleum hydrocarbons negatively influence soils organisms for a long time (Chen and Zhong 2019).Sites in cold climatic zones experience temporally variable temperatures, and these variations may have an impact on the local soil microbial activity (Chang et al. 2011). Implementation of bioremediation techniques to accelerate natural biodegradation rates is an economically and ecologically effective method (Kumar et al. 2019). Nowadays bioremediation approaches have been studied by many researchers in numerous laboratory and field experiments, and approved as simple to maintain, applicable over large areas, cost-effective and environmentally friendly technologies to remediate oil contaminants (Adams et al. 2015, Koshlaf and Ball 2017, Wu et al. 2019. There are in-situ and ex-situ techniques, the first one involves treatment the contaminated soil without excavation whilst the latter does. In-situ soil remediation techniques are rare in many countries due to uncertainty about their effectiveness of this technique and possible adverse environmental impacts, especially in cold regions due to lack of knowledge

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Janarbek Izakov

The Impact of Road Salts on Groundwater and Estimation of the Chlorine Ions by Hydrogen Index

Concentration Distribution of Molecules and Other Species in the Model System Fe–NaCl–Na2S–H2SO4–H2O at Various Temperatures of the Electrocoagulation Process

Bioremediation approaches for oil contaminated soils in extremely high-mountainous conditions

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