Pub Date : 1900-01-01DOI: 10.31081/1681-309x-2022-0-5-15-25
Bannikov L.P.
Surface properties of emulsion stabilizers based on coal tar are determined by their polarity. Particles of coal matter and solid dispersed substances insoluble in quinoline are considered as stabilizers of emulsions of "water in tar" type. Polarity significantly affects the physicochemical properties of tars, to take into account the degree of hydrophobicity of coal tar, information about the dipole moment of the conditional molecules is necessary. In addition, the value of the dipole moment of coal particles that stabilize the emulsion "water in tar" is of interest. The existing methods for calculating the dipole moment of coal take into account the degree of carbonization of the substance, which does not allow to trace the contribution of the degree of metamorphism and the presence of heteroatoms separately. By regression processing of the data array of dipole moment values of individual aromatic compounds, the dependence on the elemental composition was obtained. The obtained dependence in character and absolute values well characterizes the correlation of the dipole moment of coal with the degree of carbonization. The obtained data make it possible to classify substances insoluble in quinoline as a dispersed component of coal tar with the highest polarity. The greatest surface activity is possessed by those substances that have polar and non-polar groups. Such substances have surface-active properties and act as stabilizers of emulsions "water in tar". Experimentally established a closer exponential relationship between the humidity of the tar and the content of substances insoluble in quinoline. An important role in the stabilization of water particles in the emulsion is played by the concentration of quinoline-insoluble substances in the tar. Its increase may be accompanied by aggregation of quinoline-insoluble particles. Together with the increased viscosity of the dispersion medium, coal tar with a high degree of pyrolysis is quite resistant to separation. Keywords: dipole moment, polarity, regression equation, quinoline insoluble substances, highly pyrolyzed tar. Corresponding author Bannikov Leonid P., e-mail: ukhinbannikov@gmail.com
煤焦油乳液稳定剂的表面性能是由其极性决定的。煤质颗粒和不溶于喹啉的固体分散物质被认为是“油包水”型乳剂的稳定剂。极性显著影响煤焦油的物理化学性质,考虑到煤焦油的疏水性程度,有条件分子的偶极矩信息是必要的。此外,煤粒子偶极矩的值稳定乳液“焦油中的水”是感兴趣的。现有的计算煤偶极矩的方法考虑了物质的炭化程度,不能分别追踪变质程度和杂原子的存在所起的作用。通过对单个芳香族化合物偶极矩值数据阵列的回归处理,得到了其与元素组成的依赖关系。所得到的特征和绝对值的依赖关系很好地表征了煤的偶极矩与炭化程度的相关性。所获得的数据可以将不溶于喹啉的物质分类为具有最高极性的煤焦油的分散成分。具有极性和非极性基团的物质具有最大的表面活性。这些物质具有表面活性,可作为乳剂的稳定剂。通过实验建立了焦油的湿度与喹啉中不溶性物质的含量之间更紧密的指数关系。焦油中喹啉不溶性物质的浓度对乳状液中水粒子的稳定起着重要作用。它的增加可能伴随着喹啉不溶性颗粒的聚集。随着分散介质粘度的增加,热解程度高的煤焦油具有较强的分离性。关键词:偶极矩,极性,回归方程,喹啉不溶性物质,高热解焦油通讯作者Bannikov Leonid P., e-mail: ukhinbannikov@gmail.com
{"title":"Evaluation of the polarity of coal tar emulsion stabilizers","authors":"Bannikov L.P.","doi":"10.31081/1681-309x-2022-0-5-15-25","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-5-15-25","url":null,"abstract":"Surface properties of emulsion stabilizers based on coal tar are determined by their polarity. Particles of coal matter and solid dispersed substances insoluble in quinoline are considered as stabilizers of emulsions of \"water in tar\" type. Polarity significantly affects the physicochemical properties of tars, to take into account the degree of hydrophobicity of coal tar, information about the dipole moment of the conditional molecules is necessary. In addition, the value of the dipole moment of coal particles that stabilize the emulsion \"water in tar\" is of interest. The existing methods for calculating the dipole moment of coal take into account the degree of carbonization of the substance, which does not allow to trace the contribution of the degree of metamorphism and the presence of heteroatoms separately. By regression processing of the data array of dipole moment values of individual aromatic compounds, the dependence on the elemental composition was obtained. The obtained dependence in character and absolute values well characterizes the correlation of the dipole moment of coal with the degree of carbonization. The obtained data make it possible to classify substances insoluble in quinoline as a dispersed component of coal tar with the highest polarity. The greatest surface activity is possessed by those substances that have polar and non-polar groups. Such substances have surface-active properties and act as stabilizers of emulsions \"water in tar\". Experimentally established a closer exponential relationship between the humidity of the tar and the content of substances insoluble in quinoline. An important role in the stabilization of water particles in the emulsion is played by the concentration of quinoline-insoluble substances in the tar. Its increase may be accompanied by aggregation of quinoline-insoluble particles. Together with the increased viscosity of the dispersion medium, coal tar with a high degree of pyrolysis is quite resistant to separation. Keywords: dipole moment, polarity, regression equation, quinoline insoluble substances, highly pyrolyzed tar. Corresponding author Bannikov Leonid P., e-mail: ukhinbannikov@gmail.com","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"33 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":"133381234","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-2022-0-5-4-15
Kovalchuk V.V., Malik I.K.
The aim of this work was to compare the yield, approximate composition, structure and surface morphology of biochar obtained from coniferous cones (SCP) at 400–700 ℃ at different pyrolysis pressures in the range of 0.1–2.0 MPa. The main product of pyrolysis, biochar, has a number of advantages, namely, high calorific value, good thermal efficiency, high biodegradability, a large number of surface functional groups, and the possibility of convenient transportation and storage compared to untreated biomass. However, changes in the composition and structure of biochar obtained from lignocellulosic biomass during pyrolysis under different conditions, as well as the relationship between these properties and the content of the three main components, have not been studied in detail yet. In particular, the ash content, high calorific value (Q), content of functional groups and the mechanism of adsorption of the obtained biochar need further study in order to develop the basis for predicting the possibility of various applications of this product produced from different raw materials. In this work, conifer cones were separately pyrolyzed in a fixed bed reactor under various conditions to further study the effect of biomass components and reaction conditions on biochar yield and properties. The combustion behavior and adsorptive capacity of biochar obtained from SHCP made at various temperatures and pressures was also investigated. The results obtained show that increasing the pyrolysis temperature improves the highest calorific value of the biochar, and increasing the pyrolysis pressure improves the yield of the biochar and increases the amount of surface functional groups and combustion characteristics. For experiments to determine the adsorption capacity of biochar, Pb2+ was chosen due to its inability to biodegrade and high toxicity. The kinetic data for Pb2+ adsorption best fit a pseudo second order model indicating a chemisorption-controlled process. The maximum adsorption capacity for Pb2+ is 235.9 mg/g. Keywords: biochar, interaction of components, pyrolysis conditions, combustion, adsorption of heavy metals. Corresponding author Valentin Valerievich Koval, e-mail: kovalen79@gmail.com
{"title":"Influence of the pyrolysis temperature and pressure on the properties of biochar.","authors":"Kovalchuk V.V., Malik I.K.","doi":"10.31081/1681-309x-2022-0-5-4-15","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-5-4-15","url":null,"abstract":"The aim of this work was to compare the yield, approximate composition, structure and surface morphology of biochar obtained from coniferous cones (SCP) at 400–700 ℃ at different pyrolysis pressures in the range of 0.1–2.0 MPa. The main product of pyrolysis, biochar, has a number of advantages, namely, high calorific value, good thermal efficiency, high biodegradability, a large number of surface functional groups, and the possibility of convenient transportation and storage compared to untreated biomass. However, changes in the composition and structure of biochar obtained from lignocellulosic biomass during pyrolysis under different conditions, as well as the relationship between these properties and the content of the three main components, have not been studied in detail yet. In particular, the ash content, high calorific value (Q), content of functional groups and the mechanism of adsorption of the obtained biochar need further study in order to develop the basis for predicting the possibility of various applications of this product produced from different raw materials. In this work, conifer cones were separately pyrolyzed in a fixed bed reactor under various conditions to further study the effect of biomass components and reaction conditions on biochar yield and properties. The combustion behavior and adsorptive capacity of biochar obtained from SHCP made at various temperatures and pressures was also investigated. The results obtained show that increasing the pyrolysis temperature improves the highest calorific value of the biochar, and increasing the pyrolysis pressure improves the yield of the biochar and increases the amount of surface functional groups and combustion characteristics. For experiments to determine the adsorption capacity of biochar, Pb2+ was chosen due to its inability to biodegrade and high toxicity. The kinetic data for Pb2+ adsorption best fit a pseudo second order model indicating a chemisorption-controlled process. The maximum adsorption capacity for Pb2+ is 235.9 mg/g. Keywords: biochar, interaction of components, pyrolysis conditions, combustion, adsorption of heavy metals. Corresponding author Valentin Valerievich Koval, e-mail: kovalen79@gmail.com","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"21 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":"123409435","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-2022-0-1-15-21
Nabil Abdel Sater, Grigorov A. B.
The article considers the ways to solve the problem that arises during the primary processing of hydrocarbon (oil, gas condensate, etc.) raw materials and in the technical literature is called: "the fraction superposition effect". This problem is related to the use of technological equipment, including distillation columns, and can be solved by operational control and regulation of technological parameters (temperature, pressure, amount of fusion, etc.) of the process of separation of hydrocarbons into fractions. Operational control of the raw material division into fractions should be based on a system that includes a unit of operational control of technological parameters (quality indicators of distillate fractions) and a correction unit that allows immediate adjustment of parameters to the required level to ensure a certain quality of products. Primary information on the qualitative characteristics of the obtained fractions, in particular the content of impurities (X, %) of lower-boiling components of another fraction, should come from sensors located on the pipelines of the main material flows coming from the distillation column. As controllable indicators for determining (X, %), it has been proposed to use the indicator of relative permittivity – a measure of electrical properties of both raw materials and obtained fractions, supplemented by values of physicochemical parameters such as density and kinematic viscosity. It has been experimentally established that the increasing of the content of impurities in the studied fractions of adjacent fractions with lower boiling points leads to a decrease in the values of all mentioned indicators. Based on these data, a multiple regression equations were obtained, which adequately (R2 = 0.9847 ÷ 0.9969) with an error of 0.5-1.3 % can determine the values of X in adjacent fractions. The obtained equations, in turn, allow to quickly determine the effect of the imposition of compatible fractions, which can be used in the implementation of the system of operational control of the rectification process at the hydrocarbons primary processing plants. Keywords: hydrocarbon raw materials, rectification, fractions, superposition, low-boiling impurities, operational control, dielectric constant. Corresponding author A. B. Grigorov, e-mail: grigorovandrey@ukr.net
{"title":"OPERATIONAL CONTROL OF THE PROCESS OF PRIMARY PROCESSING OF HYDROCARBONS","authors":"Nabil Abdel Sater, Grigorov A. B.","doi":"10.31081/1681-309x-2022-0-1-15-21","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-1-15-21","url":null,"abstract":"The article considers the ways to solve the problem that arises during the primary processing of hydrocarbon (oil, gas condensate, etc.) raw materials and in the technical literature is called: \"the fraction superposition effect\". This problem is related to the use of technological equipment, including distillation columns, and can be solved by operational control and regulation of technological parameters (temperature, pressure, amount of fusion, etc.) of the process of separation of hydrocarbons into fractions. Operational control of the raw material division into fractions should be based on a system that includes a unit of operational control of technological parameters (quality indicators of distillate fractions) and a correction unit that allows immediate adjustment of parameters to the required level to ensure a certain quality of products. Primary information on the qualitative characteristics of the obtained fractions, in particular the content of impurities (X, %) of lower-boiling components of another fraction, should come from sensors located on the pipelines of the main material flows coming from the distillation column. As controllable indicators for determining (X, %), it has been proposed to use the indicator of relative permittivity – a measure of electrical properties of both raw materials and obtained fractions, supplemented by values of physicochemical parameters such as density and kinematic viscosity. It has been experimentally established that the increasing of the content of impurities in the studied fractions of adjacent fractions with lower boiling points leads to a decrease in the values of all mentioned indicators. Based on these data, a multiple regression equations were obtained, which adequately (R2 = 0.9847 ÷ 0.9969) with an error of 0.5-1.3 % can determine the values of X in adjacent fractions. The obtained equations, in turn, allow to quickly determine the effect of the imposition of compatible fractions, which can be used in the implementation of the system of operational control of the rectification process at the hydrocarbons primary processing plants. Keywords: hydrocarbon raw materials, rectification, fractions, superposition, low-boiling impurities, operational control, dielectric constant. Corresponding author A. B. Grigorov, e-mail: grigorovandrey@ukr.net","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"27 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":"126925992","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-2021-0-5-15-25
O. Atamanyuk
The article describes the organizational regional structure of industrial waste management in modern Ukraine, which will improve the efficiency of industrial waste management systems and industrial energy facilities in Ukraine. The structure of industrial waste management at different system levels, from the national to the level of an industrial enterprise, is described. The data on the recommendations of the World Health Organization on the emissions of toxicants into the air and the data of the State Statistics Service of Ukraine on the content of the main pollutant gases in air emissions from stationary sources of Ukraine from 1990 to 2018 are presented. The scheme of the negative impact on the environment of emissions of pollutants from stationary sources – production facilities of coal mining and coal processing is characterized. Comparative data on the indicators of the volumes of toxic waste generation at the enterprises of European countries and the heavy industry of Ukraine are given. It is shown that the main sources of the impact of coal processing enterprises and coal processing industries on all spheres of the environment are organized and unorganized dust and gas emissions, discharges of process wastewater and effluents from the surface and from the volumes of dumps and sludge collectors of coal processing plants. As a result of comprehensive research by the authors, a number of coal dumps of concentrating factories in Eastern Ukraine have been studied, migration routes and concentration of rare and heavy metal compounds in the soil near coal dumps have been investigated. Rather stringent standards for the content of hazardous substances in industrial waste require special methods for neutralizing coal sludge before final disposal and / or disposal.of the raw materials used to obtain humic acids. The corresponding equations are given. Keywords: coal sludge, coal preparation plants, coal dumps, sludge collectors, surface runoff, environmental pollution, emissions into the atmosphere, gaseous, liquid and solid toxicants. Corresponding author O.М. Kasimov, e-mail: nto@ukhin.org.ua
{"title":"ANALYSIS AND PROSPECTS OF SEPARATE ENVIRONMENTAL PROTECTION SYSTEMS AT COAL MINING AND COAL PROCESSING ENTERPRISES OF UKRAINE","authors":"O. Atamanyuk","doi":"10.31081/1681-309x-2021-0-5-15-25","DOIUrl":"https://doi.org/10.31081/1681-309x-2021-0-5-15-25","url":null,"abstract":"The article describes the organizational regional structure of industrial waste management in modern Ukraine, which will improve the efficiency of industrial waste management systems and industrial energy facilities in Ukraine. The structure of industrial waste management at different system levels, from the national to the level of an industrial enterprise, is described. The data on the recommendations of the World Health Organization on the emissions of toxicants into the air and the data of the State Statistics Service of Ukraine on the content of the main pollutant gases in air emissions from stationary sources of Ukraine from 1990 to 2018 are presented. The scheme of the negative impact on the environment of emissions of pollutants from stationary sources – production facilities of coal mining and coal processing is characterized. Comparative data on the indicators of the volumes of toxic waste generation at the enterprises of European countries and the heavy industry of Ukraine are given. It is shown that the main sources of the impact of coal processing enterprises and coal processing industries on all spheres of the environment are organized and unorganized dust and gas emissions, discharges of process wastewater and effluents from the surface and from the volumes of dumps and sludge collectors of coal processing plants. As a result of comprehensive research by the authors, a number of coal dumps of concentrating factories in Eastern Ukraine have been studied, migration routes and concentration of rare and heavy metal compounds in the soil near coal dumps have been investigated. Rather stringent standards for the content of hazardous substances in industrial waste require special methods for neutralizing coal sludge before final disposal and / or disposal.of the raw materials used to obtain humic acids. The corresponding equations are given. Keywords: coal sludge, coal preparation plants, coal dumps, sludge collectors, surface runoff, environmental pollution, emissions into the atmosphere, gaseous, liquid and solid toxicants. Corresponding author O.М. Kasimov, e-mail: nto@ukhin.org.ua","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"13 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":"132489453","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-2022-0-1-4-15
Meshchanin V. I., Lysenko L. A., M. D. V.
The article is devoted to the actual problem of the presence of excessive moisture in coal, which leads to a decrease in its operational properties. The types and properties of moisture in coal have been considered. Mathematical equations and a statistical evaluation of the effect of the maximum moisture content on the quality indicators of coals are given. The relationship between the pore volume and the maximum moisture content in coals of a various degrees of metamorphism has been analyzed. It is shown that safe humidity depends on the grade of coal and on the size class for most coal marks. The effect of moisture on the bulk density of coal concentrates and coal charges has been determined, the changes in moisture during the coal defrosting and preparation for coking have been analyzed, and the effect of moisture on the flowability of coal charges was confirmed. The moisture content in the coal charge significantly affects on the thermal regime of the coke oven battery and on the heat consumption for coking. Moisture also changes the thermal properties of the coal charge during loading: for wet material, the thermal conductivity coefficient is much higher than for the dry material and the water separately. It has been shown that the maximum moisture content depends apon the nature of coal and the degree of its metamorphism, expressed by such indicators as the yield of volatile substances, the reflection of vitrinite, the content of carbon and hydrogen, as well as the calorific capacity. With the transforming of coal from a coarse size class to a fine one, the maximum moisture capacity increases due to an increasing of the specific surface area of coal. The maximum moisture capacity practically does not depend on the coal degree of oxidation and the chemical composition of coal ash. It has been established that the bulk density reaches a maximum for dry coal and decreases to a minimum depending on the size of the pieces at a moisture content of 6-10 %. The classification of coal charges according to moisture index has been developed. An increase of the moisture content in coal leads to a decrease of its grindability and reduces the coal fluidity. An increase of the moisture content of the coal charge leads to an increase of the calorific value of coke oven gas, to the formation of coke of uneven size, to an increase of its porosity and a decrease of mechanical strength, and also leads to a decrease of the service life of coke ovens. Keywords: moisture, coal, coking, preparation scheme, coke oven gas, mathematical equations. Corresponding author D. V. Miroshnichenko, e-mail: dvmir79@gmail.com
{"title":"THE HUMIDITY OF COALS (REVIEW)","authors":"Meshchanin V. I., Lysenko L. A., M. D. V.","doi":"10.31081/1681-309x-2022-0-1-4-15","DOIUrl":"https://doi.org/10.31081/1681-309x-2022-0-1-4-15","url":null,"abstract":"The article is devoted to the actual problem of the presence of excessive moisture in coal, which leads to a decrease in its operational properties. The types and properties of moisture in coal have been considered. Mathematical equations and a statistical evaluation of the effect of the maximum moisture content on the quality indicators of coals are given. The relationship between the pore volume and the maximum moisture content in coals of a various degrees of metamorphism has been analyzed. It is shown that safe humidity depends on the grade of coal and on the size class for most coal marks. The effect of moisture on the bulk density of coal concentrates and coal charges has been determined, the changes in moisture during the coal defrosting and preparation for coking have been analyzed, and the effect of moisture on the flowability of coal charges was confirmed. The moisture content in the coal charge significantly affects on the thermal regime of the coke oven battery and on the heat consumption for coking. Moisture also changes the thermal properties of the coal charge during loading: for wet material, the thermal conductivity coefficient is much higher than for the dry material and the water separately. It has been shown that the maximum moisture content depends apon the nature of coal and the degree of its metamorphism, expressed by such indicators as the yield of volatile substances, the reflection of vitrinite, the content of carbon and hydrogen, as well as the calorific capacity. With the transforming of coal from a coarse size class to a fine one, the maximum moisture capacity increases due to an increasing of the specific surface area of coal. The maximum moisture capacity practically does not depend on the coal degree of oxidation and the chemical composition of coal ash. It has been established that the bulk density reaches a maximum for dry coal and decreases to a minimum depending on the size of the pieces at a moisture content of 6-10 %. The classification of coal charges according to moisture index has been developed. An increase of the moisture content in coal leads to a decrease of its grindability and reduces the coal fluidity. An increase of the moisture content of the coal charge leads to an increase of the calorific value of coke oven gas, to the formation of coke of uneven size, to an increase of its porosity and a decrease of mechanical strength, and also leads to a decrease of the service life of coke ovens. Keywords: moisture, coal, coking, preparation scheme, coke oven gas, mathematical equations. Corresponding author D. V. Miroshnichenko, e-mail: dvmir79@gmail.com","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"89 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":"121898019","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-2021-0-5-4-12
E. T. Kovalev
The article is devoted to the review of the main materials of the international conference Eurocoke-2021, which took place on October 5-6 in Amsterdam, the Netherlands. Despite the fact that the conference is named as European, the representatives of the world's leading firms and research centers from the EU, England, Australia, India, USA, China, Ukraine and other countries took part in its work. The article summarizes the main results and conclusions of the reports and discussions. As the most of speakers noted, that despite the impact of the global recession and the logistical difficulties caused by the COVID-19 pandemic, as well as the China's ban to use Australian coal, a significant change in the global coal market is not expected in the near future. China's trade policy has led mainly to a redistribution of markets for Australian, American, Canadian and Russian coal. Technologies and researches to replace some of the components of the coking coal charge with a cheaper coal grades or carbonaceous materials of plant origin in order to reduce the cost of coke and steel are still relevant. The strict requirements for limiting greenhouse gas emissions are forcing coke and steel producers to modernize the existing traditional production facilities (including using integrated technologies) to reduce emissions and improve the efficiency of the CO2 capturing and utilization. In the world steel production in the next decade, a significant increase in the share of technologies focused on abandoning coke and blast furnace production is hardly possible due to the high cost and duration of the corresponding projects. Keywords: coke production, steel industry, world coking coal market, steel market, trends, recession, logistics, COVID-19, greenhouse gas emissions, decarbonization, direct iron reduction, integrated technologies, stamped charge coking, biomass, catalysis. Corresponding author E.T. Kovalev, e-mail: post@ukhin.org.ua
{"title":"PERSPECTIVES OF THE WORLD STEEL AND COKE MARKETS (on the materials of the international conference \"EuroCoke Summit\", Amsterdam, 2021)","authors":"E. T. Kovalev","doi":"10.31081/1681-309x-2021-0-5-4-12","DOIUrl":"https://doi.org/10.31081/1681-309x-2021-0-5-4-12","url":null,"abstract":"The article is devoted to the review of the main materials of the international conference Eurocoke-2021, which took place on October 5-6 in Amsterdam, the Netherlands. Despite the fact that the conference is named as European, the representatives of the world's leading firms and research centers from the EU, England, Australia, India, USA, China, Ukraine and other countries took part in its work. The article summarizes the main results and conclusions of the reports and discussions. As the most of speakers noted, that despite the impact of the global recession and the logistical difficulties caused by the COVID-19 pandemic, as well as the China's ban to use Australian coal, a significant change in the global coal market is not expected in the near future. China's trade policy has led mainly to a redistribution of markets for Australian, American, Canadian and Russian coal. Technologies and researches to replace some of the components of the coking coal charge with a cheaper coal grades or carbonaceous materials of plant origin in order to reduce the cost of coke and steel are still relevant. The strict requirements for limiting greenhouse gas emissions are forcing coke and steel producers to modernize the existing traditional production facilities (including using integrated technologies) to reduce emissions and improve the efficiency of the CO2 capturing and utilization. In the world steel production in the next decade, a significant increase in the share of technologies focused on abandoning coke and blast furnace production is hardly possible due to the high cost and duration of the corresponding projects. Keywords: coke production, steel industry, world coking coal market, steel market, trends, recession, logistics, COVID-19, greenhouse gas emissions, decarbonization, direct iron reduction, integrated technologies, stamped charge coking, biomass, catalysis. Corresponding author E.T. Kovalev, e-mail: post@ukhin.org.ua","PeriodicalId":296617,"journal":{"name":"Journal of Coal Chemistry","volume":"57 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":"125590421","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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