Damijan Cerinski scite author profile

The cement industry is one of the largest pollutant emitters. One way to cope with high pollutant emissions is to co‐combust biomass with pulverized coal. A mathematical model was developed, which is detailed enough to consider the complex physical and chemical behavior of the co‐combustion process but simple enough to perform simulations with a real geometry of cement rotary kiln within reasonable time. Numerical simulation with a 20‐% share of pulverized biomass of total fuel heating value was performed. An industrial rotary kiln geometry was simulated; temperature and velocity fields along with mass fractions of released volatiles and combustion products were analyzed. The model allows better insights in the co‐firing process with the main goal to reduce CO2 emissions by optimizing the combustion process inside the rotary kiln.

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Modelling the biomass updraft gasification process using the combination of a pyrolysis kinetic model and a thermodynamic equilibrium model

Cerinski

Ferreiro

Baleta

et al. 2021

Energy Reports

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Dynamic modelling of the biomass gasification process in a fixed bed reactor by using the artificial neural network

Cerinski

Baleta

Mikulčić

et al. 2020

Cleaner Engineering and Technology

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Numerical analysis of fuel injection configuration on nitrogen oxides formation in a jet engine combustion chamber

Cerinski

Vujanović

Petranović

et al. 2020

Energy Conversion and Management

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