Publication detail

Simulation of Compact Equipment for Thermal Treatment of Wastes Using CFD and Experimental Validation

FABIKOVIČ, V. STŘASÁK, P. KOLÁŘ, P. ŠTULÍŘ, R. ORAL, J.

Czech title

Simulation of Compact Equipment for Thermal Treatment of Wastes Using CFD and Experimental Validation

English title

Simulation of Compact Equipment for Thermal Treatment of Wastes Using CFD and Experimental Validation

Type

conference paper

Language

en

Original abstract

Liquid organic compounds and/or air polluted by these compounds originate in many industrial branches therefore units for a treatment of them are used in paint shops, chemical cleaning systems, degreasing processes, in case of operation of printing machines, for the thermal treatment of gas wastes from various chemical processes and off-gases originating in refineries, in production of plastics, pharmaceutical industry, food industry, laboratories etc. A range of methods is utilized for the treatment of gas or liquid organic compounds. The thermal treatment of wastes can be considered as one of the most frequently used and most efficient processes. This method is based on a high temperature oxidizing organic compounds by oxygen from air when inert (i.e. not harmful) gases like CO2 and H2O are generated. A quite new unique equipment for the thermal treatment of CO and organic compounds from the above mentioned industrial processes has been developed. Placing a cylindrical combustion chamber inside a heat exchanger polluted air pre-heater can be considered as a main characteristic feature.

Czech abstract

Liquid organic compounds and/or air polluted by these compounds originate in many industrial branches therefore units for a treatment of them are used in paint shops, chemical cleaning systems, degreasing processes, in case of operation of printing machines, for the thermal treatment of gas wastes from various chemical processes and off-gases originating in refineries, in production of plastics, pharmaceutical industry, food industry, laboratories etc. A range of methods is utilized for the treatment of gas or liquid organic compounds. The thermal treatment of wastes can be considered as one of the most frequently used and most efficient processes. This method is based on a high temperature oxidizing organic compounds by oxygen from air when inert (i.e. not harmful) gases like CO2 and H2O are generated. A quite new unique equipment for the thermal treatment of CO and organic compounds from the above mentioned industrial processes has been developed. Placing a cylindrical combustion chamber inside a heat exchanger polluted air pre-heater can be considered as a main characteristic feature.

English abstract

Liquid organic compounds and/or air polluted by these compounds originate in many industrial branches therefore units for a treatment of them are used in paint shops, chemical cleaning systems, degreasing processes, in case of operation of printing machines, for the thermal treatment of gas wastes from various chemical processes and off-gases originating in refineries, in production of plastics, pharmaceutical industry, food industry, laboratories etc. A range of methods is utilized for the treatment of gas or liquid organic compounds. The thermal treatment of wastes can be considered as one of the most frequently used and most efficient processes. This method is based on a high temperature oxidizing organic compounds by oxygen from air when inert (i.e. not harmful) gases like CO2 and H2O are generated. A quite new unique equipment for the thermal treatment of CO and organic compounds from the above mentioned industrial processes has been developed. Placing a cylindrical combustion chamber inside a heat exchanger polluted air pre-heater can be considered as a main characteristic feature.

Keywords in English

incineration, simulation, modeling, thermal treatment, gas wastes

Released

20.05.2001

Publisher

Begell House Inc., 79 Madison Avenue, New York, NY 10016

Location

Australia

ISBN

1-56700-158-0

Book

CHT01: Advances in Computational Heat Transfer II

Journal

Nezařazené články

Pages count

18

BIBTEX


@inproceedings{BUT6783,
  author="Vlastimil {Fabikovič} and Pavel {Střasák} and Petr {Kolář} and Roman {Štulíř} and Jaroslav {Oral},
  title="Simulation of Compact Equipment for Thermal Treatment of Wastes Using CFD and Experimental Validation",
  journal="Nezařazené články",
  booktitle="CHT01: Advances in Computational Heat Transfer II",
  year="2001",
  month="May",
  publisher="Begell House Inc., 79 Madison Avenue, New York, NY
10016",
  address="Australia",
  isbn="1-56700-158-0"
}