Czech

2

doc. Ing. Zdeněk Skála, CSc.

Energy Institute

The student will acquire knowledge about fuels and the influence of individual properties on the combustion process, emissions of undesirable substances and design of combustion plants. The graduate will gain a deeper insight into the kinetics of combustion reactions and possibilities of influencing the combustion process.

Thermomechanics, heat and mass transfer, sources and transformation of energy, kinetics of chemical reactions

The course is taught through lectures explaining the basic principles and theory of the discipline.

the activity on the consultations is evaluated,
the exam is written and oral.

Improve knowledge of Ph.D. students in area of physical chemistry, combustion thermodynamics, turbulence and flow and to allow application of these in combustion engineering.

20 hours, optionally

1-2. Coal, combustion process, gasification, ignition, stability of flame,kinetic and difussion flame
3-4. Combustion technology, grate, pulverized coal and fluid combustion,emissions SOx,NOx
5-6. Combustion termodynamics, first law of thermodynamics, properties of gaseuos mixture, stoichiometry, chemical equilibrium, combustion calculation according to 1st law termodynamics, analysis according to 2nd law termodynamics
7-8. Chemical kinetics of combustion, basic reactions, chain reactions, degasification kinetics, global reactions, NOx production kinetics, reaction on the solid surface, sooth production kinetics
9-10. Flame theory, laminar flame of homogenous mixture, turbulent flame, explosion, ignition, diffusive flame
11-12. Burners for gaseous fuels, liquid fuel droplets production, fuel droplets evaporization, burners for liquid fuels
13. Biomass, properties, alternative fuels, industry and domestic waste, utilization