PhD program
Chemical Technology of Inorganic Substances

Chemical Technology of Inorganic Substances

QUALIFICATION

  • Scientific and pedagogical direction - Doctor of Philosophy (PhD)

MODEL OF GRADUATING STUDENT

1.systematize the principles of organizing theoretical and experimental studies of the main phenomena and processes of chemical technology of inorganic substances;
2.evaluate the main scientific and technical problems and tasks, the current state and prospects for the development of chemical technology of inorganic substances;
3.propose new hypotheses and ideas, the implementation of which will ensure cost-effectiveness, ecologically and technically safe production and processing of inorganic substances and materials;
4.develop an integrated process of scientific and technical research, diagnostic procedures and quality assurance of finished products of enterprises related to the production and processing of inorganic materials;
5.develop curricula for introducing new knowledge and research results into educational programs in the field of chemical technology of inorganic substances;
6.perform planning and organization of the research work to solve current problems in the chemical technology of inorganic substances;
7.choose the best methods and equipment for scientific research in the field of chemical technology of inorganic substances;
8.optimize methods and technologies for the production and processing of inorganic materials by evaluating and adjusting experimental design schemes;
9.develop new technologies that meet the requirements of expert evaluation in the field of chemical technology of inorganic substances;
10.develop technical and design documentation of processes of the production and processing of inorganic substances;
11.manage the stages of the development and implementation of a research and development project for solving the urgent problems of chemical technology of inorganic substances;
12.interact with the academic environment to develop cooperation at the inter-institutional and international level and implement research and production processes

Program passport

Speciality Name
Chemical Technology of Inorganic Substances
Speciality Code
8D07104
Faculty
Chemistry and Chemical Technology

disciplines

Academic writing
  • Number of credits - 2
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability of doctoral students to justify their approaches and conclusions based on the results of scientific research, arguments and hypotheses as a style of academic writing. The training course forms the methodological basis for presenting research results in the open press, periodicals, international conferences and communication with scientists from other countries, as well as in the form of applications for participation in the competition. As a result of acquisition the course, the doctoral student will be able to: -write scientific articles for publication in international scientific journals indexed in the Scopus and Web of Science databases; -critically analyze scientific works, by indicating their advantages and disadvantages; -prepare a dissertation thesis, clearly presenting the purpose and objectives of the research, discussing the results and formulating conclusions based on the analysis of literature in a given section of chemical science; -present the content of scientific work: dissertation, monograph, review in a concise form, preserving its essence and structure; -write, present and defend scientific projects on actual problems of chemical technology.

PhD thesis writing and defence
  • Number of credits - 12
  • Type of control - Докторская диссертация
  • Description - The main purpose of "PhD thesis writing and defence": of a doctoral dissertation is the formation of the doctoral students' ability to disclose the content of research work for the defense of the thesis. During the study of course, doctoral student's should be competent in: 1. to substantiate the content of new scientifically grounded theoretical and experimental results that allow to solve a theoretical or applied problem or are a major achievement in the development of specific scientific directions; 2. explain the assessment of the completeness of the solutions to the tasks assigned, according to the specifics of the professional sphere of activity; 3. they can analyze alternative solutions for solving research and practical problems and assess the prospects for implementing these options; 4. apply the skills of writing scientific texts and presenting them in the form of scientific publications and presentations. 5. to plan and structure the scientific search, clearly highlight the research problem, develop a plan / program and methods for its study, formalize, in accordance with the requirements of the State Educational Establishment, the scientific and qualification work in the form of a thesis for a scientific degree Doctor of Doctor of Philosophy (PhD) on specialty «8D07502 – Standardization and certification (by industry)». During the study of the discipline doctoral student will learn following aspects: Registration of documents for presentation of the thesis for defense. Information card of the dissertation and registration-registration card (in the format Visio 2003). Extract from the minutes of the meeting of the institution, in which the preliminary defense of the thesis took place. Cover letter to the Higher Attestation Commission. Expert conclusion on the possibility of publishing the author's abstract. Expert opinion on the possibility of publishing a dissertation. Minutes of the meeting of the counting commission. Bulletin for voting. A shorthand record of the meeting of the dissertational council. List of scientific papers. Response of the official opponent. A review of the leading organization. The recall of the scientific adviser.

Project management for chemical technologists
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to develop and manage research and technical projects to solve urgent problems of chemical technology and engineering. During the study of course, PhD students should be competent in: - analyze the tasks and stages of research and technical projects; - carry out planning of research and scientific and technical projects in the chosen field of chemical technology and engineering; - assess the relevance of research and scientific and technical work, its compliance with the requirements of expert evaluation, the priorities of science and technology in the country and in the world; - systematize approaches and principles of planning, organization and management of activities for the implementation of research and scientific and technical projects; - draw up applications for various state and international programs of grant financing of research and scientific and technical projects. During the study of the discipline PhD students will learn following aspects: the main tasks and stages of development and management of research and scientific and technical project - planning, organization and management of activities for the implementation of research and scientific and technical projects; national and international programs of project financing, especially the submission of applications for funding and requirements for research and scientific and technical projects

Scientific Research methods
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of discipline is to give doctoral students the creative ability to consciously choose and use modern, innovative theoretical and experimental research methods for fundamental and applied research at a high level and generate results that meet international requirements. The course is a scientific and methodological base, the development of which will allow doctoral students to conduct research at a high international level, encourages them to actively participate in scientific and innovative activities and commercialization of scientific results. As a result of acquisition the course, the doctoral student will be able to: - individually set and solve scientific tasks for performing high-level research in the field of chemical engineering; - analyze scientific publications and results, determine their scientific level, and identify opportunities for their taking into account and use in their own research; - develop and implement experimental methods that allow obtaining the most reliable scientific results in the field of engineering of chemical processes; - interpret and generalize data obtained by modern physical and physico-chemical methods; - identify, justify and interpret priority areas of development in the field of chemical engineering; plan research in these areas in the form of projects and applications for grant funding from various international and national funds; - interpret, summarize and present the results of their own research in the form of scientific articles for publication in highly rated international publications, reports at highly significant international conferences.

Data for 2021-2024 years

disciplines

Actual problems of electrochemical technologies of active metals
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form a system of representations and give a theoretical justification to the features of the electrochemical behavior of active metals and related features of electrochemical technologies for their production and use. During the study of course, PhD students should be competent in: - analyze the peculiarities of the electrochemical behaviour of the active metals and the reasons behind it; - take into account the thermodynamic characteristics of active metals in the conversion of energy at the interface for use in technology; - analyze the behavior of active metals in the corrosion process in terms of thermodynamics of their ionic and electronic subsystems; - predict corrosion and electrochemical behavior based on the properties of the liquid phase components and the nature of the metal; - justify the choice of metals and electrolytes and create conditions for the implementation of electrochemical processes of metal separation and energy conversion. During the study of the discipline PhD students will learn following aspects: electrochemical properties of alkaline and alkaline earth metals, and metals of aluminum subgroup in comparison with other metals; prediction of electrochemical properties of metal by their acid-base properties in chemical reactions

Aspects of teaching modern trends in chemical technology
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to calculate the thermodynamic and kinetic characteristics of chemical-technological processes, analyze the technological parameters of chemical processes, the influence of various factors on the yield of the target product. During the study of course, PhD students should be competent in: - demonstrate knowledge of thermodynamic and kinetic dependencies, calculations for which are necessary to predict the processes occurring in technological systems; - explain the kinetic laws of chemical processes, the influence of various factors on the speed of chemical processes and on the state of chemical equilibrium; - interpret the results of calculations of thermodynamic and kinetic parameters; - analyze the influence of various factors that provide the conditions for the maximum yield of the final product; - predict the optimal conditions for the chemical process under which you can get the maximum yield of the target product During the study of the discipline PhD students will learn following aspects: theoretical

Chemistry and technology of natural sorbents
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline: to form the ability to develop new technologies for processing and using natural raw materials to solve modern problems of chemical technology of inorganic substances. The training course forms a theoretical and methodological basis for summarizing information on the physical chemistry of clay minerals and the technology for processing natural sorbents. During the study of course, students should be competent in: - to summarize information on the physical chemistry and structure of natural minerals; - to develop technologies for processing and modification of natural sorbents; - to use different adsorption models to describe the sorption properties of clay sorbents; - to regulate the surface properties of natural sorbents using surfactants and polymers of various structures; - to offer various types of sorbents for solving specific technological problems. During the study of the discipline PhD students will learn following aspects: the range and classification of natural sorbents; physical and chemical properties of organic and inorganic sorbents; structure, composition, sorption and ion-exchange properties of clay minerals (kaolinite, montmorillonite, bentonite, vermiculite, etc.), new technologies.

Composite Silicate Materials
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form a systematic understanding of the chemical technology of composite silicate materials. In the course of studying the course to form the ability of doctoral students: - demonstrate knowledge of classification of silicate materials, characteristics of raw materials used in the production of composite silicate materials; - explain the structure, structure, physical and chemical properties of silicate materials; - to interpret the technology of production of composite silicate materials; - carry out process calculations in the preparation of the charge; - evaluate the quality of composite silicate materials. When studying the discipline, doctoral students will study the following aspects: classification of composite silicate materials, their applications, technologies, methods of charge calculation, quantitative indicators of physical and chemical properties of silicate materials.

Ecological Aspects of Uranium Industry in the RK
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to assess the environmental impact of the uranium industry; to predict the most optimal conditions for solving environmental problems arising from the extraction of uranium and to calculate radiation doses to the local population. During the study of course, PhD students should be competent in: - categorize the most important risks in the extraction of uranium from ores; - explain the provisions of legal documents related to the environmental aspects of the uranium industry of Kazakhstan; - carry out calculations of radiation doses of the population; - assess the environmental impact of the uranium industry; - develop measures to reduce environmental risks in uranium mining from ores. During the study of the discipline PhD students will learn following aspects: the main existing environmental problems of the uranium industry in Kazakhstan, the legacy of the uranium industry on the example of the countries of Central Asia and Kazakhstan, the dose of the population and recommendations to address the environmental problems of the uranium industry.

Environmental monitoring
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to develop cost-effective environmental monitoring programmes to collect reliable information on the level and trends of environmental pollution by toxic substances. During the study of course, PhD students should be competent in: - find and select the most appropriate methods of selection, preparation and analysis of samples of environmental objects; - experimentally and theoretically to optimize the methodology for environmental analysis; - develop cost-effective environmental monitoring programmes to collect reliable information on the level and trends of environmental pollution by toxic substances; - organize programs of automatic and continuous environmental monitoring; - process and describe the data obtained in the course of environmental monitoring. During the study of the discipline PhD students will learn following aspects: methods of field tests; modern instrumental methods and software packages used in environmental monitoring; selection and optimization of methods of chemical, physical and biochemical analysis of environmental objects; integration and automation of analysis and data processing; use of environmental monitoring to solve various problems. Special attention will be paid to the study of the latest scientific articles and developments that can be used to improve the environmental monitoring system in Kazakhstan

Innovative environmental engineering projects
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to develop new technologies for solving urgent problems of environmental engineering. During the study of course, PhD students should be competent in: - analyze the role of innovative technologies in solving environmental problems; - propose new hypotheses and develop new technologies to solve urgent problems of environmental engineering; - prepare a project in the field of environmental engineering; - search and analyze scientific literature in the field of environmental engineering; - choose the topic and purpose of research in the field of environmental engineering and justify their importance. During the study of the discipline PhD students will learn following aspects: factors of economic, social and technological development and their impact on the environment; models and application of innovative technologies in solving environmental problems; planning and implementation of projects in the field of environmental engineering. Special attention will be paid to the study of the most relevant scientific articles and developments in the field of environmental engineering.

Inorganic Polimers
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to implement the technology of inorganic polymer materials, forecast the main stages of the synthesis of inorganic polymers and the calculation of the necessary reagents and conditions. During the study of course, PhD students should be competent in: - classify the most important inorganic polymers; - explain the properties of inorganic polymers based on their structure; - carry out calculations of technological processes of obtaining inorganic polymers; - perform technological operations for the production of inorganic polymers; - present the results of scientific research in the field of inorganic polymers. During the study of the discipline PhD students will learn following aspects: homochain polymers, the main reactions of obtaining inorganic heterochain polymers, the structure of heterochain polymers, homopolymers elements, features of the properties of inorganic polymers, coordination polymers, technological processes for obtaining inorganic polymers.

Metallurgical industry of Kazakhstan
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to assess and predict the technological state, problems and trends in the development of the metallurgical industry of Kazakhstan During the study of course, PhD students should be competent in: - assess the state and trends of production and consumption of ferrous and non-ferrous metals in the world and Kazakhstan; - determine the main scientific and technical priorities to ensure the organization of knowledge-intensive and competitive industries, taking into account the trends of the world technological level; - analyze the technological state of the metallurgical industry; - assess the problems of the metallurgical industry of Kazakhstan; - predict the ways and trends of development of steel, copper, lead-zinc industries of Kazakhstan. During the study of the discipline PhD students will learn following aspects: state and trends of production and consumption of ferrous and non-ferrous metals in the world and Kazakhstan; scientific and technical support of steel production; technological problems in the production of steel; technological state of the copper industry in Kazakhstan; technological state of the lead-zinc industry in Kazakhstan and the main metallurgical enterprises of Kazakhstan; environmental problems of the technologies used.

Modern cleaning technology
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to optimize existing treatment technologies and to offer new developments in the field of treatment technologies. During the study of course, PhD students should be competent in: - integrate and synthesize information on wastewater treatment technologies and propose the most rational of them for use; - develop and modernize modern technologies for the purification of water, air and soil; - use various physico-chemical and colloid-chemical methods for the development of purification technologies: ion exchange, adsorption, coagulation and flocculation; - propose new criteria for assessing the degree of contamination of various ecosystems; - build a strategy and tactics for the further development of scientific research on developing ways to protect water, air and soil from pollutants. During the study of the discipline PhD students will learn following aspects: types and classifications of environmental pollutants, methods of protection and technologies for purifying water, air and soil from pollutants; the possibility of a targeted change in the effectiveness of the action of dust suppressors, aerosols, complexing agents, flocculants, coagulants, sorbents and builders by regulating adsorption at phase boundaries and the stability of dispersed systems.

Modern methods for the study of electrochemical systems
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline: formation the ability to assess the current state and development trends of electrochemical methods of research and analysis for the correct selection of an effective method for solving production and research problems. As a result of studying the disciplines, the doctoral student will be able to: - to understand the basics of modern theories in the field of electrochemical research methods and their application for solving theoretical and practical problems. - independently to set the task of carry out an electrochemical experiment in electrochemical systems. - to carry out electrochemical measurements on modern equipment. - to choose the best ways and methods to solve of theoretical and experimental problems. - to analyze the results of electrochemical researches. The course will consider the theory and features of the experimental implementation of modern methods of studying electrochemical processes, such as impedance methods, electrochemical scanning and tunneling microscopy (SECM, SDC, SVET), electrochemical quartz microbalance (EQCM), etc.

Modern technologies of extraction of rare elements from industrial waste
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form skills in the field of basic aspects of the extraction of rare elements from man-made objects. During the study of course, PhD students should be competent in: -to practice knowledge in the field of rare metals in modern technology; -integrate knowledge on the extraction of rare metals from non-traditional sources of raw materials; -demonstrate the ability to extract non-ferrous and rare metals from metallurgical production wastes and non-traditional sources of raw materials using crystallization and sorption processes; -classify the production of effective sorbents for the extraction of gold, silver and platinoids; -distinguish between the chemical and mineral composition of phosphorites as a source of raw materials for rare elements. -During the study of the discipline PhD students will learn following aspects: extraction of non-ferrous and rare metals from the waste of metallurgical production and non-traditional sources of raw materials using crystallization and sorption processes.

Modern trends in the development of chemical technology
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to critically analyze and evaluate modern scientific achievements in the field of chemical technology, generate new ideas in solving research and practical problems, including in interdisciplinary areas. During the study of course, PhD students should be competent in: - demonstrate an understanding of the overall structure of trends in the development of the chemical industry; - systematize scientific theories and concepts of the latest trends in chemical engineering; - analyze modern scientific and technical information in the leading scientific publications of the specialized field of chemical engineering using international databases; - apply breakthrough theories of chemistry and chemical technology in the creation of new chemical products; - design and carry out comprehensive research, including interdisciplinary research, based on a holistic system of scientific worldview. During the study of the discipline PhD students will learn following aspects: hierarchy of general problems of modern chemistry; new chemical structures and materials; chemical technologies of extreme states; chemical technology, interdisciplinary and multidisciplinary problems of natural science; chemical industry 4.0.

Physico-chemical basis of separation of rare earth metals
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to critically evaluate known and develop new technological schemes for the separation of rare earth metals from unconventional raw materials sources, as well as to develop methods for the separation of metal mixtures into individual components. During the study of course, PhD students should be competent in: - evaluate known and non-traditional raw materials sources of rare earth metals, including secondary raw materials; to identify the main methods for determining rare earth metals, to understand their capabilities, advantages and disadvantages; - explain the physical and chemical basis of separation and concentration methods used in REM production technology (deposition, extraction, sorption), to understand the possibilities of new separation methods; - explain the advantages and disadvantages of industrial extractants and sorbents, to understand the new possibilities for the separation of REM using mixtures of extractants, binary extractants; - navigate in the main technological equipment used for the implementation of the processes of sorption, extraction, deposition, etc.; - on the basis of understanding the differences in chemical and physical properties of REM to be able to combine different methods of separation, to offer new technological schemes using new raw materials sources of REM. During the study of the discipline PhD students will learn following aspects: known and non-traditional raw material sources of rare earth metals, their physical and chemical properties; methods of analysis of raw materials, intermediates and final products obtain the REM; the theory and physical-chemical bases of these methods of separation and concentration of rare-earth metals, as sorption and extraction; types of extractants and sorbents used in technology, and new organic reagents are promising for the isolation and separation of REM; the features of the technological equipment for the implementation of extraction, sorption, different variants of technological schemes of obtaining rare earth metals.

Processing the Technogenic Metal Resources
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the abilities to predict ways to implement the basic technological processes, the ability to analyze the results of process modeling. During the study of course, PhD students should be competent in: -analyze the features of technogenic metallurgical raw materials; the principles on which the choice of the technological scheme for the processing of technogenic metallurgical raw materials; -determine the physico-chemical nature of the processes used in the processing of technogenic raw materials; the principles on which the choice of technological equipment for the processing of technogenic raw materials; -determine the goals and physico-chemical nature of the processes used in the processing of man-made resources; -calculate the technical and economic indicators of metallurgical processes; -assess the limits of their application and to predict the use in the technologies of ferrous and non-ferrous metallurgy. -During the study of the discipline PhD students will learn following aspects: secondary and technogenic raw materials of non-ferrous metallurgy and its use; recycling processes and secondarytechnogenic raw materials of heavy non-ferrous and noble metals; processes for processing secondary and technogenic raw materials of light and rare metals.

Production infrastructure of a modern mining and metallurgical enterprise
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to apply and optimize the basic elements of the production infrastructure of mining and metallurgical enterprises, to analyze the current state of domestic and foreign enterprises. During the study of course, PhD students should be competent in: - analyze basic information about the structure and composition of the production infrastructure of a modern mining and metallurgical enterprise; - systematize and interpret existing approaches to the definition of production infrastructure of mining and metallurgical production; - critically analyze and evaluate the latest scientific and technical achievements in the industry, current problems and prospects; - formulate the basic requirements for the solution of problematic issues in the field of production infrastructure of modern mining and metallurgical enterprises; - integrate interdisciplinary knowledge into the research process on the problems of mining and metallurgical complex. During the study of the discipline PhD students will learn following aspects: the main elements of the production infrastructure of mining and metallurgical enterprises in open and underground mining, trends and levels of development of production infrastructure, applied technologies of quality management of mineral raw materials, modern geoinformation technologies.

Production quality management system
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to develop quality management systems in production. During the study of course, PhD students should be competent in: - describe the path of constant and nepreryvnogo improve product quality through regular and constant results analysis and adjustments, modify activities in accordance with current conditions. - explain modern approaches to the complete absence of defects and all kinds of non-production costs; - analyze and justify the optimal parameters of technological processes and the implementation of the planned plans on time, on schedule; - analyze and prevent the causes of possible defects, describe the work to change, improve and improve the quality of products; - evaluate strategic management, continuous and continuous improvement and modernization of product quality. During the study of the discipline PhD students will learn following aspects: policy and objectives of the organization of works to improve the quality of products; achieving compliance with the results of activities and internal processes existing needs of the present and potential consumer, the entire organization, the whole society; factors affecting the quality: competition and awareness of the role of quality; ISO standards: quality systems and quality management systems; structure, functions and documentation of the quality system

Research methodology in environmental engineering
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to perform research in environmental engineering to gain new knowledge and solve problems. During the study of course, PhD students should be competent in: - plan research in environmental engineering to gain new knowledge and solve problems; - identify problems and gaps in environmental engineering; - formulate hypotheses for research in the field of environmental engineering; - develop a detailed plan of experimental and theoretical studies in the field of environmental engineering; - process data and describe the results obtained in the framework of research in the field of environmental engineering. During the study of the discipline PhD students will learn following aspects: formulation of questions and hypotheses, selection of independent, dependent and controlled variables, selection of the most effective methods for measuring the dependent variable, organization of experimental and theoretical studies, statistical methods, data processing and presentation, preparation of scientific reports, articles and projects in the field of environmental engineering. Special attention will be paid to the study of the methodology of environmental studies described in recent scientific articles.

Special Methods for Inorganic Substances and Materials
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to use modern technologies for the production of semiconductor nanoparticles, oxide powders; to apply and improve special methods for the production of inorganic substances and materials. During the study of course, PhD students should be competent in: - classify methods of obtaining inorganic substances and materials; - explain the scheme of reactions with participation of inorganic substances; - carry out calculations of technological processes of obtaining inorganic substances and materials; - develop methods for obtaining inorganic materials with specified properties; - present the results of scientific research in the field of new inorganic materials. During the study of the discipline PhD students will learn following aspects: cryochemical method; synthesis of SbSI; synthesis of spatially ordered metal oxide nanocomposites based on porous Al2O3; synthesis of semiconductor nanoparticles PbS and CdS; sintering of oxide powders using microwave action; graphotexturing; thermodynamics of synthesis of solid-phase compounds.

Technology of mineral fillers and pigments
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to apply modern technologies of mineral fillers and inorganic pigments to obtain inorganic materials with desired properties. During the study of course, PhD students should be competent in: - summarize information about the technologies of using mineral fillers and inorganic pigments; - develop new modern technologies for the production of inorganic materials with desired properties; - use various physico-chemical and colloid-chemical methods for the development of technologies for the production of pigments of mineral fillers; - regulate the surface properties of mineral fillers and pigments using surfactants and polymers; - integrate information on the production and properties of mineral fillers and pigments for use in scientific research. During the study of the discipline PhD students will learn following aspects: physicochemical properties of mineral fillers and pigments, technologies for producing inorganic materials with special properties - electrically conductive, electrically insulating, heat-resistant, fire-retardant.

Trends in the development of technology of processing and analysis of mineral raw materials
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the discipline is to form the ability to critically assess the scientific principles of integrated use of natural resources and the development of new products. During the study of course, PhD students should be competent in: - evaluate innovative technologies of processing and analysis of natural mineral raw materials taking into account the complexity of their use, environmental and economic requirements; - explain the physical and chemical basis of innovative non-waste and low-waste technologies for processing and analysis of mineral raw materials; - evaluate the effectiveness of new technologies for processing man-made waste in the extraction of valuable components; - offer perspective solutions for complex deep processing of technogenic raw materials, creation of closed production systems. - introduce innovations in automated management and control of technological processes and equipment operation. During the study of the discipline PhD students will learn following aspects: promising and innovative solutions in the field of quality management of mineral raw materials, the prospects for the introduction of waste-free and low-waste production, processing and use of man-made waste, automated control and monitoring of technological processes and work equipment

Data for 2021-2024 years

INTERNSHIPS

Pedagogical
  • Type of control - Защита практики
  • Description - Aim оf discipline: formation of the ability to carry out educational activities in universities, to design the educational process and conduct certain types of training sessions using innovative educational technologies.

Research
  • Type of control - Защита практики
  • Description - The purpose of the practice: gaining experience in the study of an actual scientific problem, expand the professional knowledge gained in the learning process, and developing practical skills for conducting independent scientific work. The practice is aimed at developing the skills of research, analysis and application of economic knowledge.

Data for 2021-2024 years