Pub Date : 1900-01-01DOI: 10.31081/1681-309x-2022-0-2-12-21
Zhang Xiaobin, L. V. V., M. D. V., Shulga I. V., Lysenko L. A., Popov E. N.
The article studies the properties and technological features of obtaining of the polymer hydrogels (based on gelatin) and the biofilms (based on polyvinyl alcohol and hydroxypropyl methylcellulose) modified with humic acids. Practical aspects of the use of brown coal derivatives in the form of humic acids for the modification of bioplastics and polymeric hydrogels have been considered. The high prospects and efficiency of the use of humic acids in the modification processes of polymeric materials of various origins have been proved. It was noted that humic acids have a specific effect on the formation of an ordered structure in polymers, which is due to the different specific characteristics of humic substances: the degree of metamorphism of the original coal, the yield of volatile substances and the oxygen content. As a result of the research, polymer hydrogels based on gelatin with a high degree of swelling were obtained, as well as packaging biofilms based on polyvinyl alcohol and hydroxypropyl methylcellulose with antibacterial properties. It was established that the modification of gelatin-based polymer hydrogels with humic acids makes it possible to obtain a polymer hydrogels with an increased degree of swelling and to impart antibacterial properties to them. This is confirmed by the data of the indicator "time to the mold formation". It has been shown that the modification of biofilms based on hydroxypropyl methylcellulose with humic acids makes it possible to obtain strong water-soluble films with antibacterial properties for use as packaging materials for dry food products with a prolonged shelf life. The article also presents the developed technological schemes for obtaining the mentioned materials. A preliminary assessment is given of the economic efficiency of the developed materials modified with humic acids, which proves their sufficient profitability. Keywords: humic acids, modification, polymer hydrogels, biofilms, economic efficiency. Corresponding author D. V. Miroshnichenko, e-mail: dvmir79@gmail.com
{"title":"Technological aspects of obtaining and properties of polymer hydrogels and biofilm modified with the humic acids of brown coal.","authors":"Zhang Xiaobin, L. V. V., M. D. V., Shulga I. V., Lysenko L. A., Popov E. N.","doi":"10.31081/1681-309x-2022-0-2-12-21","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-2-12-21","url":null,"abstract":"The article studies the properties and technological features of obtaining of the polymer hydrogels (based on gelatin) and the biofilms (based on polyvinyl alcohol and hydroxypropyl methylcellulose) modified with humic acids. Practical aspects of the use of brown coal derivatives in the form of humic acids for the modification of bioplastics and polymeric hydrogels have been considered. The high prospects and efficiency of the use of humic acids in the modification processes of polymeric materials of various origins have been proved. It was noted that humic acids have a specific effect on the formation of an ordered structure in polymers, which is due to the different specific characteristics of humic substances: the degree of metamorphism of the original coal, the yield of volatile substances and the oxygen content. As a result of the research, polymer hydrogels based on gelatin with a high degree of swelling were obtained, as well as packaging biofilms based on polyvinyl alcohol and hydroxypropyl methylcellulose with antibacterial properties. It was established that the modification of gelatin-based polymer hydrogels with humic acids makes it possible to obtain a polymer hydrogels with an increased degree of swelling and to impart antibacterial properties to them. This is confirmed by the data of the indicator \"time to the mold formation\". It has been shown that the modification of biofilms based on hydroxypropyl methylcellulose with humic acids makes it possible to obtain strong water-soluble films with antibacterial properties for use as packaging materials for dry food products with a prolonged shelf life. The article also presents the developed technological schemes for obtaining the mentioned materials. A preliminary assessment is given of the economic efficiency of the developed materials modified with humic acids, which proves their sufficient profitability. Keywords: humic acids, modification, polymer hydrogels, biofilms, economic efficiency. Corresponding author D. V. Miroshnichenko, e-mail: dvmir79@gmail.com","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"49 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"126992914","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 1900-01-01DOI: 10.31081/1681-309x-2022-0-6-17-22
Bannikov L.P.
It is known that coal tar is a viscous multicomponent dispersed system, the dispersed phase of which includes particles insoluble in toluene and quinoline (small particles of coke, coal, etc.), as well as water droplets. Dynamic viscosity is an integral characteristic, because its value carries information about the resulting value of several important indicators. This is especially true for low pyrolysis tars, which is currently the most liquid on the domestic and world markets. The statistic shows that the complexity of the component composition of the tar, as well as its properties as a complex dispersed system, is the cause of significant deviations between the predicted and actual viscosity values. The rheological characteristics of the tars under study were determined on a Brookfield DV2T rotational viscometer with a thermal cell at varying temperature and shear rate. The temperature dependence of viscosity was estimated by the equations widely used in the literature, in particular CornellisenWaterman and DIPPR 101. Comparison of the temperature dependences of viscosity of two samples of low pyrolysis resins (R1 and R2) showed that the rheological behavior of resin R1 is in good agreement with the flow character predicted by the Cornellisen-Waterman and DIPPR 101 equations, and the behavior of resin R2 can be considered uncharacteristic for coal tar. In our opinion, the relatively high content of phenols causes a significant polarization of the components of R2 resin, and intermolecular interactions are established between polar substances, which complicate the flow of the tar. This is consistent with the existing ideas about the higher viscosity of polar aromatic substances compared to nonpolar ones, and the flatter viscosity-temperature dependences are inherent in hydrocarbons with low dipole moment. Studies of the effect of the content of dispersed particles in the tar have shown that with increasing water content in the emulsion "water-in-resin" the viscosity of the system increases more noticeably, the lower the temperature. The obtained data indicate the need to make adjustments to the calculated viscosity values of coal tar of low pyrolysis taking into account the factors considered above. Key words: coal tar, viscosity, temperature, rotational viscometer, degree of pyrolysis, polarity of the tar, quinoline insoluble substances. Corresponding author: Bannikov Leonid P., e-mail: ukhinbannikov@gmail.com
已知煤焦油是一种粘性的多组分分散体系,其分散相包括不溶于甲苯和喹啉的颗粒(焦炭、煤等的小颗粒)以及水滴。动态粘度是一个整体特性,因为它的值包含了几个重要指标的结果值的信息。对于低热解焦油来说尤其如此,这是目前国内和世界市场上流动性最强的焦油。统计结果表明,沥青组分组成的复杂性及其作为复杂分散体系的特性是导致预测粘度值与实际粘度值存在显著偏差的原因。在布鲁克菲尔德DV2T旋转粘度计上测定了所研究焦油在不同温度和剪切速率下的流变特性。粘度的温度依赖性由文献中广泛使用的方程来估计,特别是CornellisenWaterman和DIPPR 101。对比两种低热解树脂(R1和R2)的粘度随温度的变化,R1的流变行为与Cornellisen-Waterman方程和DIPPR 101方程预测的流动特性很好地吻合,R2的行为可以认为是非煤焦油的特征。我们认为,相对较高的酚类含量导致R2树脂组分明显极化,极性物质之间建立分子间相互作用,使焦油的流动复杂化。这与现有的关于极性芳香族物质比非极性芳香族物质粘度更高的观点是一致的,并且低偶极矩的碳氢化合物固有的粘度-温度依赖性较低。对沥青中分散颗粒含量影响的研究表明,随着乳液“树脂中水”含水量的增加,温度越低,体系的粘度增加得越明显。所得数据表明,考虑上述因素,需要对低热解煤焦油的黏度计算值进行调整。关键词:煤焦油,粘度,温度,旋转粘度计,热解程度,焦油极性,喹啉不溶性物质。通讯作者:Bannikov Leonid P., e-mail: ukhinbannikov@gmail.com
{"title":"Causes of deviations of real values of the dynamic viscosity of low-pyrolyzed coal tar from the predicted values.","authors":"Bannikov L.P.","doi":"10.31081/1681-309x-2022-0-6-17-22","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-6-17-22","url":null,"abstract":"It is known that coal tar is a viscous multicomponent dispersed system, the dispersed phase of which includes particles insoluble in toluene and quinoline (small particles of coke, coal, etc.), as well as water droplets. Dynamic viscosity is an integral characteristic, because its value carries information about the resulting value of several important indicators. This is especially true for low pyrolysis tars, which is currently the most liquid on the domestic and world markets. The statistic shows that the complexity of the component composition of the tar, as well as its properties as a complex dispersed system, is the cause of significant deviations between the predicted and actual viscosity values. The rheological characteristics of the tars under study were determined on a Brookfield DV2T rotational viscometer with a thermal cell at varying temperature and shear rate. The temperature dependence of viscosity was estimated by the equations widely used in the literature, in particular CornellisenWaterman and DIPPR 101. Comparison of the temperature dependences of viscosity of two samples of low pyrolysis resins (R1 and R2) showed that the rheological behavior of resin R1 is in good agreement with the flow character predicted by the Cornellisen-Waterman and DIPPR 101 equations, and the behavior of resin R2 can be considered uncharacteristic for coal tar. In our opinion, the relatively high content of phenols causes a significant polarization of the components of R2 resin, and intermolecular interactions are established between polar substances, which complicate the flow of the tar. This is consistent with the existing ideas about the higher viscosity of polar aromatic substances compared to nonpolar ones, and the flatter viscosity-temperature dependences are inherent in hydrocarbons with low dipole moment. Studies of the effect of the content of dispersed particles in the tar have shown that with increasing water content in the emulsion \"water-in-resin\" the viscosity of the system increases more noticeably, the lower the temperature. The obtained data indicate the need to make adjustments to the calculated viscosity values of coal tar of low pyrolysis taking into account the factors considered above. Key words: coal tar, viscosity, temperature, rotational viscometer, degree of pyrolysis, polarity of the tar, quinoline insoluble substances. Corresponding author: Bannikov Leonid P., e-mail: ukhinbannikov@gmail.com","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"26 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"126461688","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
There has been carried out an analysis of the volume of chemical production for 2020 of eight Ukrainian coking enterprises and industries that were located in the territory controlled by Ukraine. It is shown that the maximum number of chemical products captured from coke oven gas accounted for anhydrous coal tar (419.1 thousand tons), crude benzene processing products - for commercial benzene (3.7 thousand tons), coal tar processing products - for coal tar pitch (96.4 thousand tons). Compared to 2019, the maximum increase in production volume in 2020 was accounted for by benzene polymers (by 4.5 times), technical solvent (by 2 times), distillation residues (by 2 times), head fraction (not produced in 2019), anthracene fraction (1.5 times), the maximum decline - for sulfuric acid (1.2 times), concrete mix plasticizers (not produced) and light-medium oil (1.3 times). On average for enterprises: out of 1 ton of dry charge, the yield of coal tar was 3.45 %, ammonia - 0.33 %, crude benzene - 0.68 %, and the maximum yield of the total consumption of raw materials fell on technical benzene - 58.3 % and medium-temperature pitch - 28.4 %. The properties of the same chemical products produced at different enterprises corresponded to different brands or grades, which is explained by the difference both in the quality of raw materials and in the features of production processes. Chemical products of coke companies were used in various industries as finished products or raw materials. Due to the destruction and damage of coke enterprises that were under the influence of hostilities or the disruption of the logistics supply of raw materials and energy resources, the issue of the ability of domestic coke enterprises to produce products becomes very relevant. The analysis given in the article should be used to assess the damage caused to domestic enterprises by the armed aggression of the Russian Federation. Key words: analysis, coke production, chemical products, coal tar, ammonium sulfate, benzene, sulfuric acid, coal tar pitch, coal oils, phenolates. Corresponding author: S.V. Chaplianko, e-mail: chaplianko_sv@ukr.net
{"title":"Analysis of the volume of chemical production of ukrainian coke-chemical enterprises in 2020.","authors":"Kravchenko S.A., Starovoit A.G., Turkina O.V., Chaplianko S.V.","doi":"10.31081/1681-309x-2022-0-5-25-32","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-5-25-32","url":null,"abstract":"There has been carried out an analysis of the volume of chemical production for 2020 of eight Ukrainian coking enterprises and industries that were located in the territory controlled by Ukraine. It is shown that the maximum number of chemical products captured from coke oven gas accounted for anhydrous coal tar (419.1 thousand tons), crude benzene processing products - for commercial benzene (3.7 thousand tons), coal tar processing products - for coal tar pitch (96.4 thousand tons). Compared to 2019, the maximum increase in production volume in 2020 was accounted for by benzene polymers (by 4.5 times), technical solvent (by 2 times), distillation residues (by 2 times), head fraction (not produced in 2019), anthracene fraction (1.5 times), the maximum decline - for sulfuric acid (1.2 times), concrete mix plasticizers (not produced) and light-medium oil (1.3 times). On average for enterprises: out of 1 ton of dry charge, the yield of coal tar was 3.45 %, ammonia - 0.33 %, crude benzene - 0.68 %, and the maximum yield of the total consumption of raw materials fell on technical benzene - 58.3 % and medium-temperature pitch - 28.4 %. The properties of the same chemical products produced at different enterprises corresponded to different brands or grades, which is explained by the difference both in the quality of raw materials and in the features of production processes. Chemical products of coke companies were used in various industries as finished products or raw materials. Due to the destruction and damage of coke enterprises that were under the influence of hostilities or the disruption of the logistics supply of raw materials and energy resources, the issue of the ability of domestic coke enterprises to produce products becomes very relevant. The analysis given in the article should be used to assess the damage caused to domestic enterprises by the armed aggression of the Russian Federation. Key words: analysis, coke production, chemical products, coal tar, ammonium sulfate, benzene, sulfuric acid, coal tar pitch, coal oils, phenolates. Corresponding author: S.V. Chaplianko, e-mail: chaplianko_sv@ukr.net","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"1 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"131837966","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 1900-01-01DOI: 10.31081/1681-309x-2022-0-6-4-12
Miroshnichenko D.V., Kovalchuk V.V.
It is shown that the method for determining the grinding ability according to Hardgrove remains and it is the most common, informative and universal of all the methods for assessing the physical and mechanical properties of solid fossil fuels from the point of view of their industrial processing. Therefore, it is of practical interest to formulate the main principles for determining the grind ability of real industrial coal charges by this method. The actual approved coal charges of the main coke-chemical enterprises of Ukraine at the time of the experiment (January 2022) were taken as objects of study. The components of the charge were distributed by grades, coal of each grade was represented by one typical component of this grade, the participation of which in the charge is the largest. The studied coal grades were subjected to technical, plastometric, petrographic, elemental and granulometric (>13; 3–13; 1–3; 0.5–1; <0.5 mm) analyzes. In addition, the indicators of oxidation of this coal were determined. The coefficients of grinding ability HGI of coal mixtures, which included coal of different degrees of metamorphism of four main grades, were determined. The presence of systematic deviations of the actual values of HGI coal charges during their joint preparation from their calculated values in the direction of decreasing the HGI coefficient (to harder coal) has been established. It has also been established that as the grind ability coefficient increases, its deviation from the calculated values decreases. A mathematical dependence has been revealed that makes it possible to predict the HGI value of coal charge according to the data on the grind ability coefficients of individual components. It is shown that forecasting the values of the HGI grind ability coefficients of coal charges by the content of vitrinite in them, as well as by the formula for calculating HGI from Vdaf, is inappropriate due to the low level of correlation and determination coefficients. Keywords: coal, coal blends, Hardgrove HGI, additivity, graphical dependencies, mathematical equations. Corresponding author V.V. Koval, e-mail: kovalen79@gmail.com
{"title":"Prediction for calculating the grinding capacity coefficient of coal charges.","authors":"Miroshnichenko D.V., Kovalchuk V.V.","doi":"10.31081/1681-309x-2022-0-6-4-12","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-6-4-12","url":null,"abstract":"It is shown that the method for determining the grinding ability according to Hardgrove remains and it is the most common, informative and universal of all the methods for assessing the physical and mechanical properties of solid fossil fuels from the point of view of their industrial processing. Therefore, it is of practical interest to formulate the main principles for determining the grind ability of real industrial coal charges by this method. The actual approved coal charges of the main coke-chemical enterprises of Ukraine at the time of the experiment (January 2022) were taken as objects of study. The components of the charge were distributed by grades, coal of each grade was represented by one typical component of this grade, the participation of which in the charge is the largest. The studied coal grades were subjected to technical, plastometric, petrographic, elemental and granulometric (>13; 3–13; 1–3; 0.5–1; <0.5 mm) analyzes. In addition, the indicators of oxidation of this coal were determined. The coefficients of grinding ability HGI of coal mixtures, which included coal of different degrees of metamorphism of four main grades, were determined. The presence of systematic deviations of the actual values of HGI coal charges during their joint preparation from their calculated values in the direction of decreasing the HGI coefficient (to harder coal) has been established. It has also been established that as the grind ability coefficient increases, its deviation from the calculated values decreases. A mathematical dependence has been revealed that makes it possible to predict the HGI value of coal charge according to the data on the grind ability coefficients of individual components. It is shown that forecasting the values of the HGI grind ability coefficients of coal charges by the content of vitrinite in them, as well as by the formula for calculating HGI from Vdaf, is inappropriate due to the low level of correlation and determination coefficients. Keywords: coal, coal blends, Hardgrove HGI, additivity, graphical dependencies, mathematical equations. Corresponding author V.V. Koval, e-mail: kovalen79@gmail.com","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"45 5 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"122949597","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
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