HeatTransferandFluidFlowLaboratory

The laboratory is engaged in research and development activities focused on heat transfer, inverse problems cooling, heat exchangers, membrane contactors and separation of solid and gaseous pollutants. The research team has been participating in both national and international projects. Industrial projects are largely based on experimental research with subsequent use of the acquired knowledge into mathematical models of monitored processes.

Team of thermal processes in heavy industry

The scientific research team is engaged in research and development activities in the field of mechanical engineering and metallurgy. Theoretical investigation is concerned with the heat conduction and cooling using mainly water and air-mist nozzles. Industrial projects are predominantly based on experimental testing that leads to formulation of mathematical models of processes like cooling during continuous casting, cooling during hot rolling, descaling. The activities also include the study and measurement of thermophysical properties of solid materials. Key to success is the ability to determine boundary conditions for heat conduction equation. We offer:

  • thermal and structural analysis of continuous casting, rolling and descaling,
  • measuring of heat and mechanical quantities in lab as well as on site,
  • study of cooling intensity and determination of boundary conditions for heat conduction equation based on original verified methodology,
  • design of heat treatment of metals with regard to integration into existing equipment in a factory,
  • optimization of cooling and spraying systems to obtain maximal efficiency and minimal energy consumption,
  • study and measurement of temperatures in large industrial furnaces,
  • study and minimization of thermal deformation during heat treatment of metals,
  • development of special software.

Team of heat exchangers

In recent years, the research team has made achievements in the field of research and development of polymeric heat exchangers with hollow fiber. The low weight and high corrosion resistance of polypmeric hollow fibers, along with their low production costs, are ideal for the production of specific heat exchangers for various uses (particularly in automotive systems). These compact units have variable use in industries such as industrial chemicals, biotechnology, automotive and more. Their low weight and compact design allow for easy transport and installation.

Team of separation processes

The team is engaged in research activities and also through grants in the development of devices applied in the environmental field. The goal of the research is the effective elimination of solid and gaseous pollutants from emissions, that are produced by a wide range of especially industrial producers. In the field of capture of gaseous pollutants, chemical-engineering unit operations based on absorption processes, are widely used, especially packed columns and wet shower scrubber. For the elimination of solid particles, likewise gaseous substances, the team has successfully used technology of progressive membrane contactors in recent years. The main component of membrane contactors is bundles of hydrophobic polypropylene elongated hollow fibers, which ensure the mass transfer between individual phases through unclosed pores.

More information on www.heatlab.cz.

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Research Activities