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Laboratory of Inter-disciplinary Power Engineering Problems

Invited researcher Simos Theodore Elias
Time span of the project
2021-2023
General information
Name of the project: Development of methods of applied mathematics to solve inter-disciplinary problems of of environmentally friendly power generation from municipal and industrial waste

Strategy for Scientific and Technological Development Priority Level: б

Goals and objectives

Project objective: the creation of a world-class scientific laboratory and the development of efficient methods of applied mathematics for the solution of inter-disciplinary problems of environmentally friendly power generation from urban and industrial waste, including the machine-based search for breakthrough technological solutions, the development, research and optimisation of their digital twins

The practical value of the study

The essence of the project is related to the implementation of the following complex of problems, a significant part of which is aimed at the achievement of fundamentally new scientific results:

  1. The creation, research, verification and enhancement of a digital platform for complex inter-disciplinary models of quantum chemistry, heat exchange and gas dynamics of reacting flows, efficient mathematical methods of hybrid and soft computations as well as software and hardware means for the implementation of a computational experiment in application to the design of digital twins of environmentally friendly power generation technologies.
  2. The exploratory research on the basis of the created digital platform and artificial intelligence to produce digital twins of technological solutions that ensure sustainable combustion of ultra-lean fuel mixtures based on landfill gas and products of thermal decomposition of municipal and industrial waste, minimise chemical underburning and neutralise combustion products.
  3. The comprehensive research, verification and optimisation of the produced digital twins by mathematical modelling and a computational experiment. The determination of the potential of the developed technological solutions and the conditions for its most complete implementation.
  4. The development, prototyping, research and optimisation of new technological solutions for multi-fuel «omnivore» power units for the renewable energy of the future. The development of cooperation with real economy enterprises and the transfer of the produced prospective developments and technological solutions into the economy.
  5. The creation of an innovative infrastructure and the development of material and technological foundations for a scientific laboratory to conduct world-class outlook studies in the field of the development of efficient methods of applied mathematics in application to current scientific and technological problems of the power industry of the future.
  6. The promotion of the new laboratory ensuring its visibility, and the strengthening of its positions on the international scientific research market, the introduction of the international scientific community to the results of the project via publications in peer-reviewed journal, the participation in leading conferences and forums, the organisation of a regular mini-simposium within the International Conference of Numerical Analysis and Applied Mathematics – ICNAAM.

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