Radiothermal radiation method for aqueous solutions

Achievements of Modern Radioelectronics Pub Date : 1900-01-01 DOI:10.18127/j20700784-202108-02

L. Morozova, S. V. Savel’ev

{"title":"Radiothermal radiation method for aqueous solutions","authors":"L. Morozova, S. V. Savel’ev","doi":"10.18127/j20700784-202108-02","DOIUrl":null,"url":null,"abstract":"For the first time, an ultra-high-sensitivity method for measuring radio-thermal radiation was developed and used in practice in order to establish the difference in the physical properties of aqueous solutions of substances in the millimeter region of the spectrum. The method is used to study the dynamics of the dielectric properties of aqueous solutions depending on the composition of the base substance and its concentration. The dynamics of dielectric properties establishes a one-to-one correspondence between the number and concentration of ions of the dissolved basic substance contained in water and the number of water molecules involved in cooperative interaction, which gives a consistent microscopic picture of ion-water cooperative interactions in the studied aqueous solutions of K2SO4 and Cs2SO4. The density of water molecules perturbed by the ions of the base substance contained in the hydration shell at normal concentrations is proportional to the number of ions, while the transition to weaker solutions leads to the creation of multilayer hydration shells. This means that the number of perturbed water molecules, depending on the number of ions, increases according to a law different from linear. In accordance with the experimental data, the values of the absorption coefficients of aqueous solutions were determined in a wide range of concentrations for alkali metal sulfates. It is noted that alkali metal sulfates have physical properties that generalize the dynamics of dielectric constants depending on the concentration of the base substance. A monotonic increase in the values of the absorption coefficients of solutions with a decrease in the concentration of basic substances in the region of high dilutions was established with individual dynamics for each basic substance, reflecting the total hydration changes in salt solutions. Research has shown that the proposed method for measuring radio-thermal radiation fixes a significant difference in the values of the dielectric constants of aqueous solutions at high dilutions from their values for water.","PeriodicalId":151965,"journal":{"name":"Achievements of Modern Radioelectronics","volume":"1 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Achievements of Modern Radioelectronics","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.18127/j20700784-202108-02","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

For the first time, an ultra-high-sensitivity method for measuring radio-thermal radiation was developed and used in practice in order to establish the difference in the physical properties of aqueous solutions of substances in the millimeter region of the spectrum. The method is used to study the dynamics of the dielectric properties of aqueous solutions depending on the composition of the base substance and its concentration. The dynamics of dielectric properties establishes a one-to-one correspondence between the number and concentration of ions of the dissolved basic substance contained in water and the number of water molecules involved in cooperative interaction, which gives a consistent microscopic picture of ion-water cooperative interactions in the studied aqueous solutions of K2SO4 and Cs2SO4. The density of water molecules perturbed by the ions of the base substance contained in the hydration shell at normal concentrations is proportional to the number of ions, while the transition to weaker solutions leads to the creation of multilayer hydration shells. This means that the number of perturbed water molecules, depending on the number of ions, increases according to a law different from linear. In accordance with the experimental data, the values of the absorption coefficients of aqueous solutions were determined in a wide range of concentrations for alkali metal sulfates. It is noted that alkali metal sulfates have physical properties that generalize the dynamics of dielectric constants depending on the concentration of the base substance. A monotonic increase in the values of the absorption coefficients of solutions with a decrease in the concentration of basic substances in the region of high dilutions was established with individual dynamics for each basic substance, reflecting the total hydration changes in salt solutions. Research has shown that the proposed method for measuring radio-thermal radiation fixes a significant difference in the values of the dielectric constants of aqueous solutions at high dilutions from their values for water.

查看原文本刊更多论文

水溶液的辐射热辐射法

首次提出了一种测量辐射热辐射的超高灵敏度方法，并将其应用于实际中，以确定物质水溶液在光谱毫米范围内的物理性质差异。该方法用于研究水溶液介电特性的动力学，这取决于基材的组成及其浓度。电介质动力学建立了水中溶解碱性物质离子的数量和浓度与参与协同作用的水分子数量之间的一一对应关系，从而给出了所研究的K2SO4和Cs2SO4水溶液中离子-水协同作用的微观图景。在正常浓度下，水化壳中含有的碱性物质的离子所扰动的水分子的密度与离子的数量成正比，而向较弱溶液的过渡导致多层水化壳的形成。这意味着受扰动的水分子的数量，取决于离子的数量，根据不同于线性的规律增加。根据实验数据，在较宽的浓度范围内测定了碱金属硫酸盐水溶液的吸收系数值。值得注意的是，碱金属硫酸盐具有物理性质，可以推广介电常数的动力学，这取决于碱物质的浓度。在高稀释区，随着碱性物质浓度的降低，溶液的吸收系数值单调增加，每种碱性物质的个体动力学反映了盐溶液中的总水化变化。研究表明，所提出的测量辐射热辐射的方法确定了高稀释水溶液的介电常数值与水的介电常数值之间的显著差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Achievements of Modern Radioelectronics

自引率

0.00%

发文量