Graduated from L.N. Gumilyov Eurasian National University (Astana) with a degree in Chemical Technology of Inorganic Substances. During his studies, he participated in several scientific projects, including:
The project "Creation and application of carbon materials for storage and separation of hydrogen". This research is aimed at developing materials with high porosity, which is crucial for efficient and safe hydrogen storage, which contributes to the development of new technologies in the energy sector.
The project "Recultivation of oil-polluted lands using humic substances". The main goal of the project was to create sorbents based on humic substances for effective purification of aquatic ecosystems from oil pollution, which is of great importance for environmental protection.
In his professional activity, an employee develops skills in several key areas:
Synthesis and modification of carbon nanomaterials, such as carbon nanotubes, fullerenes, and others, to create highly efficient adsorbents used in various technological and environmental processes.
Practical work with pyrolysis and muffle furnaces for thermogravimetric analysis (TGA), which makes it possible to study the behavior of materials at various temperatures, their thermal stability and other important characteristics.
Conducting scientific experiments to optimize the synthesis of carbon materials, which helps to improve their quality and reduce production costs.
The study and application of carbon nanomaterials for water and gas purification, which helps solve environmental problems related to pollution of water bodies and atmospheric layers.
Evaluation and testing of various physical and chemical properties of the obtained materials, including their mechanical strength, conductivity and other characteristics, which are important for further industrial applications.
Actively participates in the preparation of scientific documentation, including reports, patents and regulations, as well as in the development of proposals for improving work processes and introducing new technologies.
Participation in scientific conferences and seminars where research results were presented, which facilitated the exchange of experience with other scientists and the further development of professional skills.
Compliance with safety and safety standards at the workplace, as well as participation in laboratory research, confirms the high level of professionalism of the employee and his active participation in the development of innovative scientific and technological solutions.
Graduate of L.N. Gumilyov Eurasian National University (Astana), specialty "Chemical technology of inorganic substances". During his studies, he actively participated in research projects, including:
"Development of methods for the production and application of carbon materials for hydrogen separation and storage" is a project dedicated to the creation of efficient carbon materials with high porosity and activity for hydrogen adsorption, which is important for future energy technologies, in particular for the creation of safe and efficient hydrogen storage systems.
"The use of humic substances to purify water resources from oil pollutants" is a study aimed at creating effective natural sorbents that can be used to purify aquatic ecosystems from oil pollution, which is an urgent problem for environmental protection and sustainable development.
In his scientific and practical activities, he actively developed the following areas:
Mastering modern methods of synthesis and modification of carbon nanomaterials, including fullerenes, carbon nanotubes, adsorbents, and others. This makes it possible to create materials with specified properties for use in various fields, from energy to ecology.
Experience working with thermal processes in chemical technology: start-up and control of pyrolysis and muffle furnaces, which allows thermogravimetric analysis to determine the temperature characteristics of materials, as well as to study their behavior under various temperature conditions.
Designing and conducting laboratory studies aimed at optimizing the synthesis of carbon materials, taking into account changes in technological parameters. This makes it possible to increase the efficiency of materials and minimize the cost of their production.
Participation in experimental work on the creation and implementation of new methods for cleaning water and gas media using carbon nanomaterials, which contributes to improving environmental quality and developing sustainable cleaning technologies.
Analysis and testing of the physico-chemical, electrophysical, and physico-mechanical properties of carbon materials, which helps to better understand their capabilities in various fields of application, including energy efficiency, environmental technologies, and medical research.
Active participation in the preparation of scientific documentation, including the preparation of reports, acts, patent applications and technical regulations, which is important for promoting innovative technologies in industry and obtaining patents for inventions.
The experience of participating in scientific seminars and conferences, where the results of the research were presented, which confirms the high quality of scientific work and the desire for professional development.
In addition, the employee is actively involved in improving laboratory processes, ensuring high safety standards and compliance with occupational safety standards. Publications in scientific journals and participation in specialized scientific conferences demonstrate his active position in the scientific community.
He is a graduate of the L.N. Gumilyov Eurasian National University in Astana, specializing in Chemical Technology of Inorganic Substances. During his studies, he actively participated in research projects focused on modern problems of chemical technology, such as:
"Development of scientific and technical foundations for the production of microporous carbon nanomaterials for hydrogen separation and storage" is a project that explored new approaches to the creation of carbon nanomaterials with highly developed porous structures with high hydrogen adsorption capacity, which is important for the development of hydrogen storage technologies and the creation of efficient energy storage systems.
"Research and reclamation of oil—contaminated lands with humic substances" - this project considered ways to use humic substances to restore ecosystems contaminated with petroleum products, which is of great importance for environmental protection and the development of sustainable methods of soil remediation.
In addition to theoretical training, he has significant practical experience in the field of chemical technology and materials science, which includes:
Knowledge of methods of synthesis and modification of carbon nanomaterials, including nanosorbents, adsorbents, carbon nanotubes, fullerenes and other materials used in various fields, such as water purification, gas and liquid media, as well as in the field of energy and energy storage;
Experience working with high-tech equipment such as pyrolysis and muffle furnaces, which allows you to control the processes of thermal decomposition of materials to produce carbon nanomaterials, as well as thermogravimetric analysis (TGA) to study the thermal degradation of substances.;
Conducting laboratory research at experimental laboratory facilities, participating in the design and configuration of experiments, as well as in the analysis of the data obtained to further optimize the conditions for the synthesis of carbon materials;
Participation in research work aimed at optimizing the processes of obtaining carbon materials, which makes it possible to increase their efficiency and provide the best physico-chemical properties for use in various fields.;
Analysis of the physical and chemical properties of the obtained materials, including their electrophysical and physico-mechanical characteristics, which is necessary to understand their potential in real technological applications.;
Conducting laboratory tests on the use of carbon nanomaterials for the purification of water and gas media from various pollutants, which allows the development of new purification methods and improve the ecological state of the environment.
In addition, experience has been gained in the preparation of scientific and technical documentation, including the creation of acts, reports, patent applications, as well as the development of technical regulations and standards, which is an important aspect for the successful commercialization and implementation of new technologies.
All work is accompanied by strict compliance with safety standards and laboratory standards. Publications of scientific results in scientific journals, as well as active participation in scientific seminars and conferences confirm the high level of professional training and commitment to the development of science in the field of chemical technology.
Thus, over the years of study and scientific work, a wealth of experience has been accumulated, which makes it possible to effectively solve the problems facing modern chemical technology and materials science using innovative methods and approaches.
Graduate of L.N. Gumilyov Eurasian National University (Astana), specialty "Chemical technology of inorganic substances". In the course of his professional activity, he actively participates in various scientific and practical projects aimed at improving the quality of carbon and humic materials, as well as their application in various industries.
The main areas of his work include:
Development and production of briquettes from carbon and humic materials. The employee is engaged in the development of technology for the production of high-quality briquettes used in both energy and agriculture. These briquettes have a high density and stability, which ensures their effectiveness when used as a fuel or sorbent.
Conducting research and maintenance of equipment for the production of briquettes and humate materials. He is actively involved in the repair and configuration of equipment, ensuring smooth operation and process optimization. This also applies to furnaces and presses for forming briquettes, which significantly improves the quality and productivity of production.
Work with humic substances and their application in various fields. The employee is actively engaged in the creation and application of humates for soil improvement and remediation of contaminated areas. Humates are used to restore soil fertility, as well as to purify water and gas media from pollutants. These studies are important for both agriculture and environmental protection.
Development of new methods of processing and purification of carbon materials. His responsibilities include the improvement of technologies for the production of carbon sorbents, as well as their application in various environmental and technological processes. As a result of his work, it was possible to develop a number of methods that can significantly increase the efficiency of using carbon materials in industry.
Product quality control. The employee participates in laboratory tests to evaluate the physical, chemical and mechanical properties of humic and carbon materials. This process includes tests for strength, porosity, thermal stability, as well as the ability to absorb various substances, which is important for industrial applications.
Optimization of production processes. The employee is constantly engaged in analyzing existing technological processes, identifying bottlenecks and developing proposals for their optimization. This includes both reducing production costs and improving the quality of the final product.
Preparation of technical documentation and reports. He actively participates in the preparation of various scientific and technical materials, such as reports, acts, regulations and proposals for technology improvement. These documents are necessary to ensure work efficiency, as well as to comply with regulatory requirements in the field of ecology and industry.
Participation in scientific conferences and seminars. He regularly presents the results of his work at scientific events, shares his experience with colleagues and promotes the introduction of new technologies into production.
The work of this employee contributes not only to the development of briquette technology, but also to the expansion of the use of humic and carbon materials in environmentally friendly and cost-effective processes. His professional skills and involvement in various stages of production and research ensure high quality work and significant results in the field of chemical technology.
-Electric power industry and automation of physico – chemical processes;
-Gas chemistry and electric discharge technologies, sources of electric discharge installations, dischargers;
- creation of integrated laboratory facilities and new technologies for processing carbon raw materials;
Development and manufacture of high-voltage installations from 0 to 25 kW for the production of nanofibers, nanowires. Plasma arc discharge for producing CNTs;
- Manufacture and development of various reactors, dischargers for electric discharge plants;
- Operation, setup, installation of electrical measuring devices.
Выпускница Казахского национального университета имени аль-Фараби, Кафедра аналитической, коллоидной химии и технологии редких элементов, специальность «Химическая технология неорганических веществ», автор более 60 научных трудов.
- Составление планов мероприятий (исследований, конференций, семинаров и т.д.);
-Разработка технологии получения углеродных нанокомпозитных материалов;
-Разработка методики получения нанокомпозитных материалов на основе угля, УНТ, УНВ, фуллерена и полимера;
-Работа по усовершенствованию методики и технологии, с определением оптимальных технологических параметров процесса получения НКМ на опытно-лабораторной установке;
-Синтез углеродных материалов (адсорбенты, наносорбенты, нанокомпозиты, УНТ, УНВ, фуллерены и др.) на опытно-лабораторных установках;
- Изучение физико-химических и электрофизических, физико-механических свойств полученных образцов НКМ;
- Проведение лабораторных испытании по апробации наносорбентов для очистки газовой фазы и водных сред;
- Проведение экспериментов на опытной установке, исследование влияния технологических параметров на процесс для определения оптимальных условий получения адсорбентов;
- Подготовка необходимых документов для сертификации полученных продуктов;
- Публикация научных трудов в открытой печати по полученным данным;
- Написания акта выполненных работ и годового отчета;
- Подача заявки на патент, написать технический регламент.
Касенова Жанар Муратбековна
зам. директора, ведущий научный сотрудник, зам. руководитель программы.
Образование: Алтайский государственный университет, Специальность «Химия»;Казахский университет технологии и бизнеса, магистратура «Химическая технология органических веществ», магистр техники и технологии;
Аспирантура, специальность «Электро- и теплотехника» Национальный Исследовательский Томский политехнический университет.
- Организация, осуществления контроля по выполению работ согласно индивидуально-календарного плана каждого сотрудника
- Организация и составления планов мероприятий по сотрудничеству с государственными сторонними и международними организациями ( Минэнерго, угледобывающие предприятия, акиматы областей, крестьянские хоз-ва и др), а также проведении совместных мероприятий (исследований, конференций, семинаров и т.д.);
-Разработка технологии получения синтетического газа способом газификации угля;
- Разработка технологии получения бездымного топлива угольно-топливных брикетов с различными компонентами и связующими прн необходимости в зависимости от марки угля;
-Разработка методики получения пиролизного газа из угля, птичьего помета;
-Работа по усовершенствованию методики и технологии, получения органо-минерального удобрения из бурого угля, торфа
- Разработка технологии подземной газификации путем электрофизического воздействия
- Проведение лабораторных, производственных и полевых испытании по апробации угольных брикетов, бездымнрого тлплива, гумата калия .
Имеет более 70 публикаций в международных, республиканских изданиях, имею более 20 сертификатов, участвовала в 8 инновационных и научных проектах;
Founder of the Institute of Coal Chemistry and Technology (2012).
Main scientific direction
- study of thermodynamic and thermal properties of solid combustible fossils and carbon materials;
- development of carbon-carbon composites, sorbents based on the mineral part of shale and coal for wastewater and industrial gas purification;
- synthesis and study of nanostructured catalysts based on ferrites, manganites, chromites;
- development and activation of nanosized catalysts for processing hydrocarbon gases;
- development of gasification technology for coal, shale, biomass, waste;
- development of technology for processing greenhouse gases with the production of carbon nanotubes;
- study of electrophysical for processing coal waste coal;
- study of plasma catalytic processes for processing hydrocarbon gases;
- development of new types of gas generators for processing carbon-containing waste: bird droppings, sewage sludge, coal waste.
For the first time in the country, under his leadership, the pilot industrial coal processing complex "Kazakhstan" was created. The complex operates according to the scheme: coal: gasification - gas purification - compression - synthesis of liquid hydrocarbons. The mini-plant can process not only coal, but also other carbon-containing products. Author of many fundamental and applied programs and projects.
Author of more than 350 scientific articles and 9 monographs, including more than 50 articles in the international Tomson-Royters database. Hirsch index 5.
