THERMOGASDYNAMICS AND ECOLOGICAL CHARACTERISTICS OF COMBUSTION CHAMBERS RUNNING THE NATURAL GAS Institute for Engineering Thermophysics National Academy of Sciences of Ukraine Prof. A. Khalatov, Dr. S. Kobzar, Dr. G. Kovalenko, Dr. V. Demchenko The 11 th PHOENICS Users Conference, London, UK, 2006
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THERMOGASDYNAMICS AND ECOLOGICAL CHARACTERISTICS OF COMBUSTION CHAMBERS RUNNING THE NATURAL GAS Institute for Engineering Thermophysics National Academy.
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THERMOGASDYNAMICS AND ECOLOGICAL
CHARACTERISTICS OF COMBUSTION CHAMBERS
RUNNING THE NATURAL GAS
Institute for Engineering Thermophysics
National Academy of Sciences of Ukraine
Prof. A. Khalatov, Dr. S. Kobzar, Dr. G. Kovalenko,
Dr. V. Demchenko
The 11th PHOENICS Users Conference, London, UK, 2006
1. Introduction
2. Boiler «Victor» and Combustion Chamber
3. Results and Discussions:
3.1. Basic design
3.2. H2S in the natural gas
4. Conclusions.
С О N T E N T S
• Computer design is based on the flow, heat and mass transfer modeling using numerical simulation of basic transport equations.
• Commercial packages «FLUENT», «STAR-CD», «PHOENICS» and others are widely used in various applications.
• Advantages:- saving of time and money;- wide range of designs and boundary conditions;- easy changes in air and fuel regimes;- easy changes in combustion chamber design;- clear demonstration of results;- finding of information not registered in experiments.
1. Introduction
• Examples of Computer Modeling
• Flow streamlines inside the burner.
• Aerodynamics of the be-burner combustion chamber.
2. Boiler “Victor» and Combustion Chamber
• Boiler «Victor»
Boiler «Victor», 100 kWt power. Combustion chamber : D = 412mm, L = 1140 mm,
The primary reason of the temperature in the combustion chamber reduction : decrease in the fuel “lowest” caloric value.
• Temperature field:
•Toutlet = 966 0C, Tмах = 1334 0C
• NOx concentration
Prediction : 20,83 мg/m3
• СО concentration
Prediction : 6 мg/m3
Temperature decrease in the combustion chamber leads to
the increased carbon monoxide (CO) generation.
4. C o n c l u s I o n s
1. The modern computer technologies are widely employed for design and modernization of boilers and combustion chambers.
2. Computer technologies enables to analyzing the number of design variants and flow regimes before the fabrication or modernization; this allows us to take more justified solutions, to save the time and funding.
3. Computer modeling enables detecting some specific features of the combustion chamber flow and temperature fields, which are actually unable to be detected in experiments.
4. The experiment keeps its important meaning; however it should be employed after basic decisions regarding combustion chamber design and flow regimes.