| 期 |
栏目 |
标题 |
文件 |
| 卷 38, 编号 1 (2016) |
Glycwater Treatment and Demineralization Technology |
Water purification of dyes by ceramic membranes modified by pyrocarbon of carbonized polyisocyanate |
|
| 卷 38, 编号 1 (2016) |
Water Treatment and Demineralization Technology |
Main regularities of reverse-osmotic water purification of phosphates |
|
| 卷 38, 编号 1 (2016) |
Biological Methods of Water Treatment |
Bioleaching of heavy metals from wastewater sludge by ferrous iron oxidizing bacteria |
|
| 卷 38, 编号 1 (2016) |
Biological Methods of Water Treatment |
Adaptive capabilities of hydrobionts to aqueous medium with different physicochemical parameters |
|
| 卷 38, 编号 1 (2016) |
Biological Methods of Water Treatment |
Evaluation of water quality control by using test organisms and their cells |
|
| 卷 38, 编号 2 (2016) |
Physical Chemistry of Water Treatment Processes |
The use of potassium iodide solution as photochemical actinometer for vacuum ultraviolet region |
|
| 卷 38, 编号 3 (2016) |
The New in Science About Water |
Aerosole complexes in water treatment processes |
|
| 卷 38, 编号 3 (2016) |
Physical Chemistry of Water Treatment Processes |
Quality and quantitative assessment of the impact of magnetic field and ultra sound on water with different concentration of deuterium |
|
| 卷 38, 编号 3 (2016) |
Water Treatment and Demineralization Technology |
Water purification of dyes by ceramic membrane modified by pyrocarbon from carbonized polymers |
|
| 卷 38, 编号 3 (2016) |
Conbiological Methods of Water Treatment |
Formation of viable noncultural state of Candida Albicans |
|
| 卷 38, 编号 4 (2016) |
Physical Chemistry of Water Treatment Processes |
Impact of sulfochlorination on the structure and properties of the MA-100 anion–exchange membrane |
|
| 卷 38, 编号 5 (2016) |
Physical Chemistry of Water Treatment Processes |
Impact of a pulse corona discharge on the formation of hydrogen peroxide in different types of water |
|
| 卷 38, 编号 5 (2016) |
Physical Chemistry of Water Treatment Processes |
Photocatalytic activity and selectivity of Me/La(Ce)-TiO2 catalysts in the reaction of water denitrification |
|
| 卷 38, 编号 6 (2016) |
The New in Science About Water |
Kinetics of formation of hydrogen peroxide in vacuum ultraviolet radiation of water |
|
| 卷 38, 编号 6 (2016) |
Biological Methods of Water Treatment |
Formation of a test system and the choice of test criteria when biotesting natural waters |
|
| 卷 40, 编号 1 (2018) |
Article |
Features of Water Origin on the Planet Earth. New Aproaches to the Assessment of Water Quality |
|
| 卷 40, 编号 1 (2018) |
Article |
Principally New Technology Of Preparing Drinking Water Of Sanitary-Hygienic Purpose |
|
| 卷 40, 编号 1 (2018) |
Article |
Genetically Safe Drinking Water. Requirements and Methods of Its Quality Control |
|
| 卷 40, 编号 1 (2018) |
Article |
Reference Stable Water for Drinking Purposes |
|
| 卷 40, 编号 1 (2018) |
Article |
Determination of Biological Activity of Water Having a Different Isotope Ratio of Protium and Deuterium |
|
| 卷 40, 编号 1 (2018) |
Article |
Basic Principles of Comprehensive Biotesting of Drinking Water and Point System Classification of Water Quality |
|
| 卷 40, 编号 1 (2018) |
Article |
Detection of Microorganisms in Nonculturable State in Chlorinated Water |
|
| 卷 40, 编号 1 (2018) |
Article |
Conservation of Water in Gel and Dispersed Structurally Stable Composites |
|
| 卷 40, 编号 1 (2018) |
Article |
Determination of Mass Concentration of Bromide, Iodide and Nitrate Ions in Water |
|
| 卷 40, 编号 2 (2018) |
Physical Chemistry of Water Treatment Processes |
Photocatalytic Destruction of Fulvic Acids by Various Oxidants in a Reactor with Immobilized TiO2 |
|
| 卷 40, 编号 2 (2018) |
Water Treatment and Demineralization Technology |
Water Purification of Dyes and Hardness Salts by Ceramic Membranes Modified with Silica and Pyrocarbon |
|
| 卷 40, 编号 3 (2018) |
Physical Chemistry of Water Treatment Processes |
Comparison of Efficiency of the Effect of the Corrona Discharge and Vacuum UV-Radiation in Destruction of Anionic Surfactants |
|
| 卷 40, 编号 4 (2018) |
Physical Chemistry of Water Treatment Processes |
Destruction of GT Azo Active Orange Dye in the Flow–Through Plasma–Chemical Reactor |
|
| 卷 40, 编号 4 (2018) |
Water Treatment and Demineralization Technology |
Water Treatment from Aluminum Using a Wood Membrane |
|
| 卷 40, 编号 5 (2018) |
Physical Chemistry of Water Treatment Processes |
Impact of Hydrogen Peroxide on Photocatalytic Destruction of Anionic SAS in a Reactor with Immobilized TiO2 |
|
| 卷 40, 编号 6 (2018) |
Natural Waters |
Monitoring of Drinking Waters for the Content of Bromide, Iodide, Bromate and Iodate Ions |
|
| 卷 41, 编号 1 (2019) |
Physical Chemistry of Water Treatment Processes |
Adsorption and Oxidation of Pnenol on Metal Oxide Electrodes |
|
| 卷 41, 编号 1 (2019) |
Biological Methods of Water Treatment |
Biotesting of Water Contaminated by Microorganisms |
|
| 卷 41, 编号 2 (2019) |
Biological Methods of Water Treatment |
Inactivation and Removal of Micromycetes From Water Using the Electric Field |
|
| 卷 41, 编号 3 (2019) |
Features of Water Origin on the Planet Earth |
Phenomenon of the Evolution of Hydrothermal Fluids of Mineral Formation at the Archean-Proterozoic Boundary |
|
| 卷 41, 编号 3 (2019) |
Theoretical Principles of Water Treatment Technology |
Ecological State of Aquatic Ecosystems of Ukraine Using the Dnipro River as an Example |
|
| 卷 41, 编号 4 (2019) |
The New in Science About Natural Phenomena |
Earthquakes and Prospects of Their Prediction |
|
| 卷 41, 编号 4 (2019) |
Water Treatment and Demineralization Technology |
Water Purification by Microfiltration Ceramic Membranes Modified with Pyrocarbon and Silica |
|
| 卷 41, 编号 5 (2019) |
From the Editor |
The Earth is Our Common Home |
|
| 卷 41, 编号 5 (2019) |
Analytical Chemistry |
Chemical Monitoring of Organic Ecotoxicants in Aqueous Systems |
|
| 卷 41, 编号 5 (2019) |
Biological Methods of Water Treatment |
Hydra Attenuata, a Model System for Determining the Acute Lethal and Chronic Toxicity of Drinking and Natural Waters and Aqueous Solutions of Chemicals |
|
| 卷 41, 编号 6 (2019) |
New in Water Science |
Water is Everywhere. It Holds Everything, Even a Key to Understanding the Universe. D. I. Mendeleev’s Law is the Prototype of the Universe Constitution |
|
| 卷 41, 编号 6 (2019) |
Water Treatment and Demineralization Technology |
The Effect of Physicochemical Parameters on the Process of Water Disinfection Using Chitosan |
|
| 卷 41, 编号 6 (2019) |
Natural Waters |
Characteristics of Sea Water Self-Purification Processes in the Black Sea Based on the Results of Biotesting |
|
