Scientific projects of the university

The most important achievements of KazNRTU named after K. Satbayev are scientific technologies introduced into production.

The main areas of research are promising and socially significant areas of science, techniques and technology development:

  • information and telecommunications systems
  • chemical technology
  • nano systems and materials industry
  • energy and energy saving
  • environmental management
  • oil and mineral extraction.

The priority tasks of the work are obtaining new knowledge; creating partnership mechanisms necessary for creating and commercializing the domestic technologies; improving financial support system for innovation; developing scientific, technical and intellectual potential, and a number of other important issues in developing the economy’s innovative sphere.

KazNRTU named after K. Satbayev is the leader of innovative scientific research in the country, scientists and teachers publish articles in leading world journals, and the amount of inventions, patents and author's certificates is growing. University works in close cooperation with production and creates fundamental and practical ideas that solve current problems of economic entities.

University researchers are highly valued in the country's labor market and receive high praise and recognition at prestigious symposiums and conferences abroad. They actively develop new branches of knowledge and technology, and work to implement its results in production in accordance with the innovation chain, which allows them to accompany the growth of scientific and technical research from ideas to their implementation.

University plans scientific work for years to come, linking its future with the coming third industrial revolution.

IRN: AP19679602 “Development of a tethered unified dual-use multicopter platform with an inverter with increased frequency switching and high coefficient voltage conversion"
AP19675961– Development and research of keys distribution protocols based on quantum properties
AP 06851287 – Development of a block symmetric encryption algorithm
BR21882237-OT-23 Development and research of promising composite materials for energy and fuel cycle
AP14871210 Study of the influence of hydrogenation and helium embrittlement processes in materials for dispersed nuclear fuel of HTGR type reactors
AP14972926 Preparation and study of lithium-alloyed materials with a highly porous structure for use as the anode of lithium-ion batteries
AP19679049 Thermodynamic and radiation properties of dense degenerate plasma
AR19679536 Study of the properties of positrons generated by runaway electrons in fusion reactors with magnetic confinement
AR19676689 Dynamic and electrodynamic properties of plasma in an extreme state
AP19679690 Development of composite materials based on carbon nanotubes and magnetite nanoparticles for use as a radio-absorbing material for microwave radiation
AP19576899 Development of composite materials based on magnetite and 2D nanostructures and their use for water purification and desalinization
AP19174728 Study of the Efficiency Limit of Organometallic Perovskites Based on CH3NH3SnI3 and CH3NH3PbI3 for Photovoltaics
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