3-D Modeling of Heat and Mass Transfer during Combustion of Solid Fuel in Bkz-420-140-7C Combustion Chamber of Kazkhstan

Аскарова, А.С.; Bekmukhamet, A.; Bolegenova, S.А.; Ospanova, Shynar; Symbat, B.; Максимов, В. А.; Beketayeva, Meruyert; Ergalieva, A.

doi:10.18869/acadpub.jafm.68.225.22881

Cited by 23 publications

(29 citation statements)

References 12 publications

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“…Due to the fact that for most countries the main sources of pollutant emissions into the atmosphere are companies operating in the burning of low-quality raw materials as well as with poorly equipped with flue gas cleaning systems, the problem of pollution of the Earth's atmosphere is an urgent, [3,9]. Environmentally hazardous emissions, which are products of coal combustion reactions cause enormous damage to the earth's ecosystem.…”

Section: Introductionmentioning

confidence: 99%

Numerical investigation of heat and mass transfer processes in the combustion chamber of industrial power plant boiler. Part 1. Flow field, temperature distribution, chemical energy distribution

Аскарова

Maximov

Bolegenova

et al. 2017

ACM

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In the present paper, the furnace chamber of the BKZ-160 boiler of Almaty TPP-3 (Kazakhstan) has been calculated. The thermal characteristics of the process were studied in the form of the distribution of temperature fields and chemical energy, and the aerodynamics of the combustion chamber was also calculated. The type of fuel, its elementary and fractional composition, exerts the greatest influence on the course of heat-mass exchange processes and aerodynamics. The computational experiment was carried out with two models of particle size distribution: a polydisperse fuel flame (the particle diameter varies from 10 to 120 μm) and monodisperse fuel flame (particle size identical and equal to d p = 60 μm). Based on the results of the computational experiments, the main regularities in the distribution of heat fluxes in the combustion chamber volume and flow aerodynamics were obtained. It is shown that the greatest thermal load falls on the central region of the walls of the combustion chamber and the location of the burner devices, which is typical for both mono-and polydisperse fuel flames. The temperature data obtained as a result of the computational experiment showed better convergence with the empirical data obtained directly at TPP-3. Aerodynamics of the flow for the two selected models of particle size distribution has insignificant differences, but how they affect other characteristics of the process is one of the following tasks in view of the authors. It should be noted that the calculation of the polydisperse fuel flame takes much more calculation time.

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Section: Introductionmentioning

confidence: 99%

Numerical investigation of heat and mass transfer processes in the combustion chamber of industrial power plant boiler. Part 1. Flow field, temperature distribution, chemical energy distribution

Аскарова

Maximov

Bolegenova

et al. 2017

ACM

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“…Fineness of grinding of coal was equal to R90 = 15 %. All numerical calculations were performed on the above-mentioned technique [1][2][3][4][5][6][7]. The coefficient of excess air for furnace α F 1.1÷1.4…”

Section: Experimental Partmentioning

confidence: 99%

Combustion processes in furnace chambers of Kazakhstan TPPs using high-ash coal

Аскарова

Maximov

Nugymanova

et al. 2017

Int. j. math. phys.

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In this article, carried out computational experiments to study the aerodynamic, thermal and concentration characteristics in combustion chamber of the boiler BKZ-420 Almaty TPP-2. Combustion chamber BKZ-420 has a significant drawback, which is that of a jet of hot air hitting the wall that is opposite the burners. This leads to her firing and a further violation of integrity. On the Almaty CHP-2 in the basic mode using this wall served cold the air mass flow 5 kg/s. In this paper, we proposed a new flow mode, which allows you to protect the wall from overheating, to reduce the temperature of the incoming flow more cold air. Carried out researches have allowed to conclude that the proposed regime provides not only protection against overheating of the boiler walls, but also reduces the concentration of harmful emissions. As a result of computer experiments were obtained fields of velocity, temperature, concentrations of harmful dust and gas emissions (CO, CO2, NO2) formed in combustion of solid fuels for different layout options holes and speed boost-extra air (5kg/s and 10 kg/s).

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“…In this regard, the issue of choice, operation, and, first of all, the creation of new, highly efficient energy and resource-saving and "clean" technologies of energy processes becomes relevant. This requires the implementation of a whole range of measures, the most important of which is the use of modern technologies, as well as world achievements in the field of development to optimize the combustion of solid pulverized coal fuel at thermal power plants (TPP) of Kazakhstan [1][2][3][4][5][6][7][8][9]. OFA technology ("Over Fire Air") is currently successfully used all over the world, and especially in Europe, since the introduction of such technology at existing thermal power plants requires low investment and contributes to a significant reduction in NO x emissions..…”

Section: Introductionmentioning

confidence: 99%

Research of Characteristics of Heat and Mass Transfer at the Introduction of Technology of Steps Fuel Burning on the BKZ-75 Boiler of the Shakhtinskaya TPP

Šafařík¹,

Bolegenova²,

Tuyakbaev³

et al. 2020

OF THE NATIONAL ACADEMY OFSCIENCES OF THE REPUBLIC OF KAZAKHSTA

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3-D Modeling of Heat and Mass Transfer during Combustion of Solid Fuel in Bkz-420-140-7C Combustion Chamber of Kazkhstan

Cited by 23 publications

References 12 publications

Numerical investigation of heat and mass transfer processes in the combustion chamber of industrial power plant boiler. Part 1. Flow field, temperature distribution, chemical energy distribution

Numerical investigation of heat and mass transfer processes in the combustion chamber of industrial power plant boiler. Part 1. Flow field, temperature distribution, chemical energy distribution

Combustion processes in furnace chambers of Kazakhstan TPPs using high-ash coal

Research of Characteristics of Heat and Mass Transfer at the Introduction of Technology of Steps Fuel Burning on the BKZ-75 Boiler of the Shakhtinskaya TPP

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