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2. MINIMIZATION OF TOXIC EMISSIONS DURING BURNING LOW-GRADE FUEL AT KAZAKHSTAN THERMAL POWER PLANT

Author

Aliya Askarova, Pavel Šafařík, Aizhan Nugymanova, Saltanat Bolegenova, Valeriy Maximov, and Symbat Bolegenova

Subjects
heat and mass transfer, combustion, numerical simulation, stepwise combustion (ofa), aerodynamics, temperature, carbon oxides and nitrogen, Engineering (General). Civil engineering (General), TA1-2040
Abstract

This paper presents new results of computational experiments on the implementation of Overfire Air (OFA) technologies using an example of a combustion chamber of the BKZ-75 boiler of the Shakhtinskaya power plant (Shakhtinsk, Kazakhstan) burning high-ash Karaganda coal. The effect of mass air flow through special nozzles located above the burner level on the flow aerodynamics, temperature fields, concentration fields of carbon monoxide CO and nitrogen NO over the entire volume of the combustion chamber was studied. The studied characteristics were compared for various percentages of supplying additional air through OFA injectors: OFA is 0% (basic version), 10% and 18 %. It was shown that the installation of OFA injectors leads to a change in the field of the total velocity vector, temperature, and concentrations of carbon oxides and nitrogen. An increase in the percentage of air supplied through OFA injectors to 18% leads to a decrease in the concentrations of carbon monoxide CO by about 36% and nitrogen oxide NO by 25% compared with the base case. The obtained results will optimize the process of burning pulverized fuel in the combustion chamber of the BKZ-75 boiler, increase the efficiency of fuel burnout, reduce harmful emissions and introduce OFAtechnology at other coal-burning thermal power plants.

Published
2020
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3. 3-D MODELING OF HEAT AND MASS TRANSFER PROCESS DURING THE COMBUSTION OF SOLID FUEL IN A SWIRL FURNACE

Author

Aliya Askarova, Saltanat Bolegenova, Valeriy Maximov, Symbat Bolegenova, Aizhan Nugymanova, and Pavel Šafařík

Subjects
modeling, thermal power plants, direct-flow and swirl burners, carbon monoxide, nitrogen dioxide., Engineering (General). Civil engineering (General), TA1-2040
Abstract

In this work, a comprehensive study of thermal processes and aerodynamic and concentration characteristics of the combustion chamber of the boiler BKZ-75 of the Shakhtinskaya thermal power plant (Kazakhstan) are presented. A comparison of the characteristics of the combustion processes for two cases is given for the direct-flow method of supplying the mixture - the burners are located on opposite-side walls and the swirl-air mixture supplying method - burners with a swirl angle of the air mixture flow and their inclination to the centre of symmetry of the boiler by 30 degrees. The research results allow us to determine the optimal technological parameters of the studied object, to improve the methodology for the numerical study of heat and mass transfer processes in high-temperature and chemically reacting flows in the presence of turbulence, and also develop appropriate technological solutions for installing burner devices (direct-flow or swirl) in the studied combustion chamber.

Published
2019
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4. A Review of the Energy Potential of Residual Biomass for Coincineration in Kazakhstan

Author

Aliya Askarova, Montserrat Zamorano, Jaime Martín-Pascual, Aizhan Nugymanova, and Saltanat Bolegenova

Subjects
energy potential, Kazakhstan, renewable energy, residual biomass, Technology
Abstract

Although it has access to hydrocarbon reserves, Kazakhstan has developed a strategy for the transition to a low-carbon economy, which should include the use of renewable energy sources. In this framework, the use of biomass from waste could have the potential to reduce emissions from traditionally fueled energy generation, as well as adding value to the generated waste, which also improves waste management according to the principles of a circular economy. The analysis of the resources and energy potential from residual biomass in Kazakhstan presents an annual production of 37.26 × 106 tons of residual biomass, which could be capable of producing an energy potential of 466.74 PJ/year, little more than half to the total production from all the installed power plants in the country. Agricultural, animal and municipal solid waste are available to produce energy in Kazakhstan based on combustion technologies; however, animal waste and agricultural are the main potential sources with 61.02% and 38.34% of the theoretical total biomass potential energy analyses, respectively. Considering that 80% of Kazakhstan’s electricity generation comes from coal-fired plants, energy from agriculture could be co-fired for the gradual replacement of coal with biomass in operational power plants, without substantially increasing costs or infrastructure investments, thereby making the transition to a low-carbon economy and renewable energy sources in the country easier.

Published
2022
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5. SIMULATION OF LOW-GRADE COAL COMBUSTION IN REAL CHAMBERS OF ENERGY OBJECTS

Author

Aliya Askarova, Saltanat Bolegenova, Symbat Bolegenova, Meruyert Beketayeva, Valeriy Maximov, Aizhan Nugymanova, and Pavel Šafařík

Subjects
combustion, modeling, thermal power plant, chemical reactions, Engineering (General). Civil engineering (General), TA1-2040
Abstract

The aim of the work is to create new computer technologies for 3D modelling of heat and mass transfer processes in high-temperature physicochemically reacting environments that will allow to determine the aerodynamics of the flow and heat and mass transfer characteristics of technological processes occurring in the combustion chambers in existing coal-fired thermal power plants of the Republic of Kazakhstan. The novelty of the research lies in the use of the latest information technologies of 3D modelling, which will enable project participants to obtain new data on complex heat and mass transfer processes when burning pulverized coal in real combustion chambers operating in Kazakhstan’s Thermal Power Plants (TPP). A numerical simulation, including thermodynamic, kinetic and threedimensional computer simulation of heat and mass transfer processes when burning low-grade fuel, will allow finding optimal conditions for setting adequate physical, mathematical and chemical models of the technological process of combustion of burning high ash coals. The computer modelling methods proposed for the development are new and technically feasible, since coal-fired power plants all over the world use all types of coal. The developed technologies will allow replacing or eliminating the conduct of expensive and labour-consuming natural experiments on coal-fired power plants.

Published
2019
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6. Computer Technologies of 3D Modeling by Combustion Processes to Create Effective Methods of Burning Solid Fuel and Reduce Harmful Dust and Gas Emissions into the Atmosphere

Author

Aliya Askarova, Saltanat Bolegenova, Valeriy Maximov, Symbat Bolegenova, Nariman Askarov, and Aizhan Nugymanova

Subjects
thermal power engineering, two-stage combustion, high-ash coal, computer technology 3-D modeling, aerodynamics, temperature, Technology
Abstract

Using numerical methods, studies have been carried out to determine the effect of the introduction of the technology of two-stage combustion of high-ash Karaganda coal on the main characteristics of heat and mass transfer processes in the furnace of the BKZ-75 boiler at Shakhtinskaya TPP (Kazakhstan). Various regimes of supplying additional air into the combustion space, the volume of which varied from 0% (traditional basic version) to 30% of the total volume of air required for fuel combustion, have been investigated using 3D computer modeling methods. The performed computational experiments made it possible to obtain the distributions of the total velocity vector, temperature fields, concentration fields of carbon monoxide CO and nitrogen dioxide NO2 over the entire volume of the furnace and at the outlet from it. The introduction of the two-stage combustion technology made it possible to optimize the combustion of high-ash coal, since in this case there is an increase in the temperature in the torch core and a decrease in it at the outlet from the furnace, which has a significant effect on the chemical processes of the formation of combustion products. Based on the results obtained, it can be concluded that an increase in the percentage of air supplied through additional injectors to 18% leads to a decrease in the concentrations of carbon monoxide CO by about 36%, and nitrogen dioxide NO2 by 25% compared to the base case. A further increase in the volume of additional air leads to a deterioration in these indicators. The results obtained will make it possible to optimize the combustion of low-grade fuel in the furnace of the BKZ-75 boiler, increase the efficiency of fuel burnout, reduce harmful emissions into the atmosphere, and introduce a two-stage combustion technology at other coal-fired TPPs.

Published
2021
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7. 3-D Modeling of Heat and Mass Transfer during Combustion of Solid Fuel in Bkz-420-140-7C Combustion Chamber of Kazkhstan

Author

Aliya Askarova, Aidyn Bekmukhamet, Saltanat Bolegenova, Shynar Ospanova, B. Symbat, Valeriy Maximov, Meruert Beketayeva, and A. Ergalieva

Subjects
BKZ-420, Combustion, Ekibastuz coal, Heat and mass transfer, Modeling, Pulverized coal, Turbulence, Two–phase flow., Mechanical engineering and machinery, TJ1-1570
Abstract

In this paper the results obtained by the numerical method of modeling of Ekibastuz coal burning in BKZ-420 combustion chamber of Kazakhstan Power Plant are presented. They are devoted to the numerical simulation of combustion processes in the furnace boiler BKZ-420. Boiler’s steam generates capacity equal 420 T/h. Boiler has six vertical pulverized coal burners arranged in two levels with three burners on the front wall of the boiler. High ash, low-grade coal from Ekibastuz burned in the furnace. Its ash content is 40%, volatile – 24%, humidity–5%, highest calorific value is 16750 kJ/kg. Milling dispersity of coal was equal to R90 = 15%.It was shown in this research that the most intense burning is observed in the central part of the chamber where the flow temperature reaches about 980 °C and it is seen that the temperature reaches a peak in the cross sections of the burners location. The combustion reaction there occurs more intensively.

Published
2016

9. 3-D modelling of heat and mass transfer during combustion of low-grade coal

Author

Valeriy Maximov, Saltanat Bolegenova, Aliya Askarova, Pavel Safarik, Symbat Bolegenova, and A.O. Nugymanova

Subjects
Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Mechanical engineering and machinery, Boiler (power generation), Thermal power station, Mechanics, emergency mode, Coal dust, Combustion, off-design performance, Vortex, numerical modeling, harmful emission, thermal power station, Mass transfer, Environmental science, Coal, lcsh:TJ1-1570, Combustion chamber, business, combustion
Abstract

Using numerical methods, the basic characteristics of heat and mass transfer processes in the furnace chamber of the BKZ-75 boiler of the Shakhtinskaya TPP (Kazakhstan) were studied during a forced partial stop of the supply of coal dust through the burners. Two modes of fuel supply were studied; a direct-flow method of supplying air mixtures, when two direct-flow burners are working and two are in emergency mode and vortex method of supplying air mixtures - two vortex burners with a swirl angle of the air mixture flow and their inclination the center of symmetry of the boiler by 30? and two are in emergency mode. The computational experiments allowed to obtain the distributions of the total velocity vector, temperature fields, concentration fields of CO, NO2 throughout the entire volume of the combustion chamber and conduct a comparative analysis for the two investigated emergency mode (direct-flow and vortex). Based on the results, it can be concluded that in the case of a forced partial stop of the supply of coal dust, the use of the vortex method of supplying air mixtures improves heat and mass transfer processes and allows minimizing emissions of harmful substances.

Published
2020

10. OPTIMIZATION OF THE SOLID FUEL COMBUSTION PROCESS IN COMBUSTION CHAMBERS IN ORDER TO REDUCE HARMFUL EMISSIONS

Author

V. Yu. Maximov, Pavel Safarik, Saltanat Bolegenova, Aliya Askarova, and A.O. Nugymanova

Subjects
Materials science, business.industry, Nuclear engineering, Boiler (power generation), Thermal power station, General Medicine, Combustion, Solid fuel, chemistry.chemical_compound, chemistry, Combustor, Coal, Nitrogen oxide, Combustion chamber, business
Abstract

The methods of numerical simulation are used to study the processes of heat and mass transfer in thecombustion chamber of an operating coal-burning Kazakhstan thermal power plant. Computational experiments wereperformed on the combustion of high-ash Karaganda coal in the combustion chamber of the BKZ-75 boiler(Shakhtinsk, Karaganda region). As a result of numerical simulation of the combustion processes, the distributions ofthe total velocity vector, temperature fields, concentration fields of nitrogen oxides NO over the entire volume of thecombustion chamber and at its exit were obtained. A comparative analysis of the characteristics of heat and masstransfer processes for the two studied modes of supplying fuel to the combustion chamber through burner devices isgiven for the direct-flow method of supplying the mixture when the burners are located on opposite side walls andthe vortex method of supplying the mixture when the burners are installed at a 30-degree angle from the center ofsymmetry of the boiler. It is shown that the vortex method of supplying air mixtures allows optimizing thecombustion of high-ash coal, since in this case there is an increase in temperature in the core of the torch and adecrease in it at the exit from the combustion chamber, which has a significant effect on the chemical processes ofthe formation of combustion products. The average value of the concentration of nitrogen oxide NO at the outlet ofthe combustion chamber decreases when using burner devices with a swirl of the mixture flow and conforms tonorms the maximum permissible concentration.

Published
2019

14. COMPUTATIONAL EXPERIMENTS FOR RESEARCH OF FLOW AERODYNAMICS AND TURBULENT CHARACTERISTICS OF SOLID FUEL COMBUSTION PROCESS

Author

V. Yu. Maximov, Symbat Bolegenova, Aliya Askarova, N. R. Mazhrenova, and M. R. Mamedova

Subjects
business.industry, Turbulence, Mass transfer, Flow (psychology), Environmental science, Point (geometry), General Medicine, Aerodynamics, Combustion chamber, Process engineering, business, Solid fuel, Combustion
Abstract

Some of the most interesting and useful from the point of view of practical application are the issuesof heat and mass transfer modeling in the presence of physicochemical processes in real geometry areas. Such areasare the combustion chambers of various heat and power plants, and internal combustion engines.

Published
2019

15. 3D MODELING OF COMBUSTION THERMOCHEMICAL ACTIVATED FUEL

Author

Aliya Askarova, A.O. Nugymanova, Valeriy Maximov, Saltanat Bolegenova, Symbat Bolegenova, and Pavel Safarik

Subjects
Materials science, Chemical engineering, Mass transfer, Plasma activation, General Medicine, Combustion, Solid fuel
Published
2019

16. SIMULATION OF LOW-GRADE COAL COMBUSTION IN REAL CHAMBERS OF ENERGY OBJECTS

Author

Symbat Bolegenova, Valeriy Maximov, Aliya Askarova, A.O. Nugymanova, Meruyert Beketayeva, Saltanat Bolegenova, and Pavel Šafařík

Subjects
Computer simulation, Pulverized coal-fired boiler, business.industry, General Engineering, Thermal power station, Coal combustion products, Combustion, combustion, modeling, thermal power plant, chemical reactions, lcsh:TA1-2040, Mass transfer, Environmental science, Coal, Combustion chamber, business, Process engineering, lcsh:Engineering (General). Civil engineering (General)
Abstract

The aim of the work is to create new computer technologies for 3D modelling of heat and mass transfer processes in high-temperature physicochemically reacting environments that will allow to determine the aerodynamics of the flow and heat and mass transfer characteristics of technological processes occurring in the combustion chambers in existing coal-fired thermal power plants of the Republic of Kazakhstan. The novelty of the research lies in the use of the latest information technologies of 3D modelling, which will enable project participants to obtain new data on complex heat and mass transfer processes when burning pulverized coal in real combustion chambers operating in Kazakhstan’s Thermal Power Plants (TPP). A numerical simulation, including thermodynamic, kinetic and threedimensional computer simulation of heat and mass transfer processes when burning low-grade fuel, will allow finding optimal conditions for setting adequate physical, mathematical and chemical models of the technological process of combustion of burning high ash coals. The computer modelling methods proposed for the development are new and technically feasible, since coal-fired power plants all over the world use all types of coal. The developed technologies will allow replacing or eliminating the conduct of expensive and labour-consuming natural experiments on coal-fired power plants.

Published
2019

18. Computer Technologies of 3D Modeling by Combustion Processes to Create Effective Methods of Burning Solid Fuel and Reduce Harmful Dust and Gas Emissions into the Atmosphere

Author

Nariman Askarov, Symbat Bolegenova, Aliya Askarova, Valeriy Maximov, A.O. Nugymanova, and Saltanat Bolegenova

Subjects
thermal power engineering, two-stage combustion, high-ash coal, computer technology 3-D modeling, aerodynamics, temperature, carbon and nitrogen oxides, Control and Optimization, 020209 energy, 0211 other engineering and technologies, Energy Engineering and Power Technology, 02 engineering and technology, Combustion, lcsh:Technology, law.invention, chemistry.chemical_compound, law, 0202 electrical engineering, electronic engineering, information engineering, Coal, Nitrogen dioxide, Electrical and Electronic Engineering, Engineering (miscellaneous), 021110 strategic, defence & security studies, Waste management, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, Boiler (power generation), Injector, Solid fuel, Volume (thermodynamics), chemistry, Environmental science, business, Energy (miscellaneous), Carbon monoxide
Abstract

Using numerical methods, studies have been carried out to determine the effect of the introduction of the technology of two-stage combustion of high-ash Karaganda coal on the main characteristics of heat and mass transfer processes in the furnace of the BKZ-75 boiler at Shakhtinskaya TPP (Kazakhstan). Various regimes of supplying additional air into the combustion space, the volume of which varied from 0% (traditional basic version) to 30% of the total volume of air required for fuel combustion, have been investigated using 3D computer modeling methods. The performed computational experiments made it possible to obtain the distributions of the total velocity vector, temperature fields, concentration fields of carbon monoxide CO and nitrogen dioxide NO2 over the entire volume of the furnace and at the outlet from it. The introduction of the two-stage combustion technology made it possible to optimize the combustion of high-ash coal, since in this case there is an increase in the temperature in the torch core and a decrease in it at the outlet from the furnace, which has a significant effect on the chemical processes of the formation of combustion products. Based on the results obtained, it can be concluded that an increase in the percentage of air supplied through additional injectors to 18% leads to a decrease in the concentrations of carbon monoxide CO by about 36%, and nitrogen dioxide NO2 by 25% compared to the base case. A further increase in the volume of additional air leads to a deterioration in these indicators. The results obtained will make it possible to optimize the combustion of low-grade fuel in the furnace of the BKZ-75 boiler, increase the efficiency of fuel burnout, reduce harmful emissions into the atmosphere, and introduce a two-stage combustion technology at other coal-fired TPPs.

Published
2021
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20. Heat and mass transfer processes at high-temperature media during combustion of low-grade pulverized coal

Author

Pavel Safarik, Aliya Askarova, Symbat Bolegenova, Valeriy Maximov, and M. Beketayeva

Subjects
Chemical process, Pulverized coal-fired boiler, business.industry, Mass transfer, Fossil fuel, Coal, Combustion chamber, business, Combustion, Solid fuel, Process engineering
Abstract

The article is devoted to the complex research processes of heat and mass transfer occurring in the real conditions of solid fuel (coal) combustion. Development of technological processes with economic and ecological advantages are the main purpose for many researches in thermal physics and technical physics. The complex processes of heat and mass transfer in the presence of combustion are non-stationary, strongly non-isothermal with a constant change in the physical and chemical state of the environment. It greatly complicates their experimental study. In this case, studying of heat and mass transfer in high-reacting media with simulation of physical and chemical processes occur during combustion of pulverized coal is important for the solution of modern power engineering industry and ecology problems. In this regard, a comprehensive study of heat and mass transfer processes at high-temperature media observed. Investigations based on the achievements of modern physics by using numerical methods for 3D modeling. Numerical experiments are conducted to describe and study aerodynamic characteristics, heat and mass transfer processes during the burning of pulverized Kazakhstan low-grade coal. The results obtained are of great practical importance, since they allow us to develop recommendations for the improvement and design of new combustion chambers and burners, and also can be useful in optimizing the whole process of burning fossil fuels. G M T Английский Испанский Итальянский Казахский Китайский Трад Китайский Упр Корейский Русский Турецкий Французский Английский Испанский Итальянский Казахский Китайский Трад Китайский Упр Корейский Русский Турецкий Французский Звуковая функция ограничена 200 символами Настройки : История : Обратная связь : Donate Закрыть

Published
2018

21. 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

Author

Symbat Bolegenova, Aliya Askarova, Valeriy Maximov, Saltanat Bolegenova, Pavel Šafařík, and Aigul Yergaliyeva

Subjects
Materials science, Computational Mechanics, Biophysics, tepelné vlastnosti, Combustion, monodisperse fuel flame, pulverized fuel, polydisperse fuel flame, Mass transfer, Civil and Structural Engineering, Fluid Flow and Transfer Processes, aerodynamic characteristics, aerodynamické vlastnosti, Mechanics of engineering. Applied mechanics, thermal characteristics, Mechanics, Aerodynamics, TA349-359, numerická simulace, práškové palivo, Computational Mathematics, Chemical energy, numerical simulation, Particle-size distribution, Combustor, spalování, monodisperzní palivový plamen, Particle size, Combustion chamber, polydisperzní palivový plamen, combustion
Abstract

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 dp = 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.

Published
2017

24. CFD simulation of production of NOx in coal-fired furnaces

Author

B. Saltanat, Saltanat Bolegenova, Aliya Askarova, Shynar Ospanova, and Valeriy Maximov

Subjects
Microbiology (medical), Thermal science, Cfd simulation, Waste management, business.industry, Immunology, Computational fluid dynamics, Coal fired, Combustion, Mass transfer, Immunology and Allergy, Environmental science, Production (economics), business, NOx
Published
2016

25. 3-D Modeling of Heat and Mass Transfer during Combustion of Solid Fuel in Bkz-420-140-7C Combustion Chamber of Kazkhstan

Author

Saltanat Bolegenova, A. Ergalieva, Meruert Beketayeva, Shynar Ospanova, A. Bekmukhamet, Aliya Askarova, Valeriy Maximov, and B. Symbat

Subjects
lcsh:Mechanical engineering and machinery, Mechanical Engineering, Nuclear engineering, BKZ-420, Combustion, Ekibastuz coal, Heat and mass transfer, Modeling, Pulverized coal, Turbulence, Two–phase flow, 02 engineering and technology, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Fuel mass fraction, 020303 mechanical engineering & transports, 0203 mechanical engineering, Internal combustion engine, Mechanics of Materials, 0103 physical sciences, Environmental science, lcsh:TJ1-1570, Heat of combustion, Fluidized bed combustion, Combustion chamber, Staged combustion, Chemical looping combustion
Abstract

In this paper the results obtained by the numerical method of modeling of Ekibastuz coal burning in BKZ-420 combustion chamber of Kazakhstan Power Plant are presented. They are devoted to the numerical simulation of combustion processes in the furnace boiler BKZ-420. Boiler’s steam generates capacity equal 420 T/h. Boiler has six vertical pulverized coal burners arranged in two levels with three burners on the front wall of the boiler. High ash, low-grade coal from Ekibastuz burned in the furnace. Its ash content is 40%, volatile – 24%, humidity–5%, highest calorific value is 16750 kJ/kg. Milling dispersity of coal was equal to R90 = 15%.It was shown in this research that the most intense burning is observed in the central part of the chamber where the flow temperature reaches about 980 °C and it is seen that the temperature reaches a peak in the cross sections of the burners location. The combustion reaction there occurs more intensively.

Published
2016

28. Research of Formation and Destruction of NOx During Combustion of Low-Grade Coal in CHP

Author

Pavel Safarik, Ardak Maksutkhanova, Kamshat Kassymova, Meruyert Beketayeva, Aizhan Nugimanova, Shynar Ospanova, Saltanat Bolegenova, Valeriy Maximov, Aliya Askarova, and Symbat Bolegenova

Subjects
inorganic chemicals, Waste management, business.industry, Boiler (power generation), Thermal power station, chemistry.chemical_element, Combustion, Solid fuel, Nitrogen, chemistry, Environmental science, Coal, Combustion chamber, business, NOx
Abstract

The emissions of harmful substances such as sulphur and nitrogen oxides from thermal power plants are major source of adverse impact on the environment. In this regard, it remains be urgent the deeper studying of the solid fuel combustion processes. In this paper, two global schemes of formation and destruction of harmful nitrogen compounds NOx studied during combustion of low-grade Kazakh coal in a real industrial boiler BKZ-75.

Published
2018

29. Investigation of heat and mass transfer processes in the combustion chambe of industrial power plant boiler. Part 2. Distribution of concentrations of O2, CO, CO2, NO

Author

Aliya Askarova, Pavel Safarik, Aigul Yergaliyeva, Valeriy Maximov, Saltanat Bolegenova, and Symbat Bolegenova

Subjects
modelování, monodisperse pulverized coal flame, Materials science, Power station, Computational Mechanics, Biophysics, Analytical chemistry, Combustion, polydisperse pulverized coal flame, Mass transfer, Coal, Civil and Structural Engineering, Fluid Flow and Transfer Processes, concentration field, Pulverized coal-fired boiler, business.industry, Mechanics of engineering. Applied mechanics, Boiler (power generation), modeling, TA349-359, pole koncentrace, plamen polydisperzního práškového uhlí, monodisperzního plamenného uhlí, Computational Mathematics, spalování, Particle size, Combustion chamber, business, combustion
Abstract

In the present paper, a study of furnace processes in the combustion chamber of the real energy boiler BKZ-160 of Almaty TPP-3 (Kazakhstan) using three-dimensional modeling methods has been carried out. Calculations of the combustion chamber for flame combustion of pulverized coal have been performed. The main purpose of this paper was to study the effect of fractional fuel composition on the concentration characteristics of the combustion process. Numerical simulation was carried out with two models of coal particle size distribution: monodisperse fuel flame (coal particle size identical and equal to 60 μm) and a polydisperse fuel flame (coal particle diameter varies from 10 to 120 μm). The polydisperse distribution corresponds to the fractional distribution (percentage of total coal particles) calculated for this boiler: the first fraction - 10% with d p =10 μm; 20% with d p =30 μm; 40% with d p =60 μm; 20% with d p =100 μm; 10% with d p =120 μm.The numerical simulation results of the influence of the pulverized coal particle size composition on concentration characteristics of combustion process are presented. The distributions of oxidizer (oxygen) and combustion products (NO, CO, CO 2 ) are shown. Areas with the greatest concentration of gas products of burning are determined, regularities of formation of products and their concentration at the exit of fire chamber are also determined. The effect of fractional fuel composition on the obtained characteristics is sufficiently large, the empirical data obtained directly at TPP-3 show better convergence with the result of the computational experiment that confirms simultaneously the adequacy of the used physical and mathematical statement of the problem, as well as the validity of using the model of polyfractional distribution.

Published
2018

30. Computational method for investigation of solid fuel combustion in combustion chambers of a heat power plant

Author

Saltanat Bolegenova, Meruyert Beketayeva, Aliya Askarova, A. Bekmukhamet, V. Yu. Maximov, and Z. Kh. Gabitova

Subjects
Waste management, Internal combustion engine, General Engineering, Coal combustion products, Environmental science, Fluidized bed combustion, Combustion chamber, Condensed Matter Physics, Combustion, Solid fuel, Chemical looping combustion, Staged combustion
Abstract

Solid fuel combustion in an actual combustion chamber using coal with an ash content of more than 40% for minimization of the deleterious effects (environmental pollution) of heat power plants on environment. The FLOREAN application package was used for simulation and determination of various parameters of combustion.

Published
2015

31. Numerical modeling of pulverized coal combustion at thermal power plant boilers

Author

Pavel Safarik, Valeryi Maximov, Saltanat Bolegenova, Meruyert Beketayeva, and Aliya Askarova

Subjects
Chemical process, Pulverized coal-fired boiler, Thermal radiation, business.industry, Mass transfer, Boiler (power generation), Environmental science, Thermal power station, Combustion chamber, Condensed Matter Physics, Combustion, Process engineering, business
Abstract

The paper deals with development and application the numerical model for solution of processes at combustion chamber of the thermal power plant boiler. Mathematical simulation is based on solution of physical and chemical processes occuring at burning pulverized coal in the furnace model. Three-dimensional flows, heat and mass transfer, chemical kinetics of the processes, effects of thermal radiation are considered. Obtained results give quantitative information on velocity distributions, temperature and concentration profiles of the components, the amount of combustion products including harmful substances. The numerical model becomes a tool for investigation and design of combustion chambers with high-efficiency and reliable operation of boiler at thermal power plants.

Published
2015

32. Numerical simulation of pulverized coal combustion in a power boiler furnace

Author

V. Yu. Maximov, Vladimir E. Messerle, Z. Kh. Gabitova, A. B. Ustimenko, Saltanat Bolegenova, and Aliya Askarova

Subjects
Cross section (physics), Pulverized coal-fired boiler, Volume (thermodynamics), Nuclear engineering, Flow (psychology), General Engineering, Combustor, Environmental science, Thermal power station, Condensed Matter Physics, Combustion, Vortex
Abstract

Investigation of the combustion of the coal-dust flame in a BKZ-75 boiler furnace of the Shakhtinskaya thermal power station (TPS) is carried out using three-dimensional simulation. The distributions of the full velocity vector and the temperature and components concentration profiles, including hazardous pollutants, in the furnace volume and at its outlet are determined. It is shown that swirling flows of the airfuel mixture that enters the furnace through contradirectional burners form a volume vortex flow in the central section. The maximum concentrations of combustion products in the area of arrangement of burner devices are observed in the cross section of the body of the flame. The concentrations of hazardous pollutants at the furnace outlet are less than the admissible concentrations accepted for the TPS.

Published
2015

33. Numerical investigation of heat transfer characteristics of pulverized coal in the combustion chambers of the heat energy centers of Kazakhstan

Author

A. Bekmukhamet, Zh. Nagashybay, Z. Jankoski, Sh.S. Ospanova, Aliya Askarova, Saltanat Bolegenova, and B. Tolymkanova

Subjects
Pulverized coal-fired boiler, Nuclear engineering, Heat energy, Heat transfer, Environmental science, BKZ-420, combustion, Ekibastuz coal, heat and mass transfer, modeling, pulverized coal, turbulence, two– phase flow, Combustion chamber
Abstract

This article is devoted to the investigation of thermal characteristics of pulverized coal combustion process in the combustion chamber of the boiler BKZ-420. The greatest changes in the temperature distribution observed in the central part of the combustion chamber in the field of the fuel supply and the air fuel mixture are by burner holes. Carrying out the study of thermal characteristics is an important step during the modeling process of heat and mass transfer from the pulverized coal combustion, which allows to determine the temperature field throughout the volume of the combustion chamber and outlet. It has been determined the optimal combustion technology of high-energy fuel and the best structural parameters of the combustion chamber of the boiler BKZ-420 Almaty thermal power station that improve the wear resistance of power and reduce harmful emissions into the atmosphere (temperature decrease of the furnace wall, opposite the burners on the 3000C, ie 17.24% and secondary reduction of carbon monoxide concentration of CO at the outlet from the furnace at 15% carbon dioxide CO2 – 4.65%, and nitrogen dioxide NO2 – 14%).

Published
2015

34. Numerical simulation of the coal combustion process initiated by a plasma source

Author

V. Yu. Maksimov, Aliya Askarova, Vladimir E. Messerle, A. B. Ustimenko, and Saltanat Bolegenova

Subjects
Nuclear and High Energy Physics, Radiation, Torch, Computer simulation, business.industry, Coal combustion products, Plasma, Coal dust, Combustion, complex mixtures, respiratory tract diseases, law.invention, law, Scientific method, Environmental science, Coal, business, Process engineering
Abstract

Numerical experiments on the torch combustion of the coal dust prepared by a plasma-thermochemical treatment for combustion have been done using the method of three-dimensional simulation. It is shown that the plasma preparation of coal for combustion enables one to optimize the process, improve the conditions for inflammation and combustion and minimize the emissions of harmful substances.

Published
2014

35. Experimental Study of Complex Combustion Processes in Higher Education

Author

Aigul Yergaliyeva, Symbat Bolegenova, Meruyert Beketayeva, Zhanar Shortanbayeva, Zarina Gabitova, Aizhan Nugmanova, Irina Berezovskaya, Valeriy Maximov, Aliya Askarova, and Saltanat Bolegenova

Subjects
Educational research, Higher education, Process (engineering), business.industry, Environmental science, Mechanical engineering, Environmental economics, Educational institution, business, Combustion, Constructive, Field (computer science), Liquid fuel
Abstract

Institution of higher education - is an educational institution, where in addition to training highly qualified personnel in the field, carried out research in various fields of science and technology. The deterioration of the environment, particularly atmospheric pollution of cities by industrial and transport vehicles, aims to detailed study of combustion processes in the industrial sectors. Within the walls of the university, during the educational process and as final papers, students conduct research on the burning processes of various fuels. The obtained results allow determining the optimal parameters of combustion, to offer technological and constructive solutions, which in turn can solve partially or completely the problem of minimizing harmful emissions and efficient combustion of hydrocarbon fuel.

Published
2017

36. Simulation of the Aerodynamics and Combustion of a Turbulent Pulverized-Coal Flame

Author

Aigul Yergaliyeva, Saltanat Bolegenova, Bolegenova Symbat, Shortanbayeva Zh., A.O. Nugymanova, Aliya Askarova, Valeriy Maximov, and Zarina Gabitova

Subjects
Pollution, Pulverized coal-fired boiler, Waste management, business.industry, 020209 energy, media_common.quotation_subject, Fossil fuel, Energy balance, 02 engineering and technology, Combustion, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Coal, Heat of combustion, Electricity, business, media_common
Abstract

Over the past decades, the consumption rates of fossil energy resources has not declined, despite fundamental changes in the political, economic and social structures of society. According to experts, the share of coal in the global fuel and energy balance is more than 27%, thanks to which almost 45% of the world's electricity is generated. For each country in the world, the structure of the national energy balance is determined by the availability of its own sources of fuel and energy resources. In the Republic of Kazakhstan, coal reserves are estimated at 30 billion tons, which is 3.4% of the world's coal reserves. However, Kazakhstan's coal is characterized by low calorific value and high ash content, its combustion leads to the formation and delivery of large quantities of pollutants in air, soil and water. Pollution of the atmosphere is one of the global problems of mankind, whose solution is to optimize the combustion process and realization stringent environmental requirements for specific emissions of harmful substances with waste gases. To solve this difficult task, there is a need to improve equipment, introduce new technologies and use alternative methods for organizing a combustion process, the basis of which is to study the processes of heat and mass transfer in the presence of combustion. Irreplaceable powerful method of theoretical research of currents at availability of burning is numerical modelling. The results of a three-dimensional numerical simulation of aerodynamics, temperature flow and carbon oxides are presented. Studies have been carried out for a pulverized-angle flame of various dispersity. A comparative analysis of the obtained results with the results of the field experiment is carried out. The obtained results will allow choosing the optimal variant of the combustion process organization in order to increase its efficiency and reduce the negative impact on the environment.

Published
2017

37. Using CFD code FLOREAN for simulations of industrial boiler

Author

Reinhard Leithner, V.Ju. Maximov, Aliya Askarova, Saltanat Bolegenova, and A. Aitbayeva

Subjects
Pollutant, Power station, business.industry, Combustion process, Nuclear engineering, Fluid dynamics, Boiler (power generation), Environmental science, Coal, Computational fluid dynamics, Combustion, business
Abstract

Computational fluid dynamics (CFD) becomes more and more reliable tool to analyze the furnace opera-tion under different conditions. This paper provides and overview of the current possibilities of 3D–Finite Volume tool FLOREAN developed at the Institute for Heat and Fuel technology TU Braunschweig. This program is used for simulations of combustion processes in industrial furnaces. FLOREAN has been applied for the calculation of a fur-nace chamber of Aksu power station fired with low grade coal of Ekibastuz (Kazakhstan). Distributions of different parameters such as temperature, fluid flow properties (velocities, pollutant substances such as CO, NOx) etc. are si-mulated. These simulations can be used to design furnaces, optimize furnace operation and minimize pollutant emis-sions.

Published
2014

39. 3D-modelling of Kazakhstan low-grade coal burning in power boilers of thermal power plant with application of plasma gasification and stabilization technologies

Author

V. Yu. Maximov, A.O. Nugymanova, Saltanat Bolegenova, Vladimir E. Messerle, and Aliya Askarova

Subjects
History, Waste management, Coal burning, Thermal power station, Environmental science, Plasma gasification, Computer Science Applications, Education, Power (physics)
Abstract

In this article, a study of the processes of heat and mass transfer in high-temperature and thermochemically activated reacting flows in a real physicochemical system (turbulent flows with physicochemical transformations in combustion chambers) in three-dimensional geometry using numerical methods was carried out. As a result of computational experiments vector distribution full velocity, temperature fields, fields of concentrations of nitrogen oxides NO over the entire volume of the combustion chamber were obtained and a comparative analysis was carried out for the two boilers. The results obtained allow us to conclude that the use of plasma preparation of a pulverized coal torch for combustion has a positive effect on the process of heat and mass transfer and allows minimizing emissions of harmful substances.

Published
2019

40. Computational modeling of heat and mass transfer processes in combustion chamber at power plant of Kazakhstan

Author

Symbat Bolegenova, Shinar Ospanova, Valeriy Maximov, Aliya Askarova, Reinhard Leithner, Meruyert Beketayeva, Aigul Ergalieva, Saltanat Bolegenova, and A.O. Nugymanova

Subjects
Thermal science, Convective heat transfer, Power station, business.industry, Chemistry, Nuclear engineering, Mechanical engineering, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, 020303 mechanical engineering & transports, 0203 mechanical engineering, Thermal radiation, lcsh:TA1-2040, Mass transfer, 0103 physical sciences, Coal, Combustion chamber, business, lcsh:Engineering (General). Civil engineering (General), Water content
Abstract

In this paper the results obtained by the method of numerical modelling of Ekibastuz coal burning in furnace of Kazakhstan Power Plant. Numerical experiment was carried out on the basis of three-dimensional equations of convective heat and mass transfer, taking into account the heat propagation, heat radiation, chemical reactions and multiphase structure of the medium to predict the influence of different water content in coal on overall furnace operation and formation of combustion products.

Published
2016

41. Mathematical Simulation of Pulverized Coal in Combustion Chamber

Author

Saltanat Bolegenova, V. Yu. Maximov, A. Bekmuhamet, and Aliya Askarova

Subjects
Thermal science, Pulverized coal-fired boiler, Convective heat transfer, Power station, Petroleum engineering, Chemistry, business.industry, Nuclear engineering, combustion chamber, General Medicine, Combustion, Mass transfer, Numerical modeling, Coal, Combustion chamber, business, Engineering(all), combustion
Abstract

In this paper the results obtained by the method of numerical modeling of Ekibastuz coal burning in furnace of Kazakhstan Power Plant. Numerical experiment was carried out on the basis of three-dimensional equations of convective heat and mass transfer, taking into account the heat propagation, heat radiation, chemical reactions and multiphase structure of the medium to predict the influence of different water content in coal on overall furnace operation and formation of combustion products

Published
2012

42. Pulverized coal torch combustion in a furnace with plasma-coal system

Author

Aliya Askarova, A. B. Ustimenko, A. O. Nagibin, and Vladimir E. Messerle

Subjects
Nuclear and High Energy Physics, Radiation, Materials science, Torch, Pulverized coal-fired boiler, business.industry, Plasma activation, Metallurgy, Thermal power station, Coal combustion products, Plasma, Combustion, complex mixtures, law.invention, law, Coal, business
Abstract

Combustion of a pulverized coal torch has been numerically simulated on the basis of the equations of multicomponent turbulent two-phase flows. The results of three-dimensional simulation of conventional and plasma activated coal combustion in a furnace are presented. Computer code Cinar ICE was verified at coal combustion in the experimental furnace with thermal power of 3 MW that was equipped with plasma-fuel system. Operation of the furnace has been studied at the conventional combustion mode and with plasma activation of coal combustion. Influence of plasma activation of combustion on thermotechnical characteristics of the torch and decrease of carbon loss and nitrogen oxides concentration at the furnace outlet has been revealed.

Published
2010

43. Plasma-Supported Coal Combustion in Boiler Furnace

Author

A. B. Ustimenko, Aliya Askarova, Y.I. Lavrishcheva, E. I. Karpenko, and Vladimir E. Messerle

Subjects
Nuclear and High Energy Physics, Pulverized coal-fired boiler, business.industry, Plasma activation, Nuclear engineering, technology, industry, and agriculture, Boiler (power generation), Coal combustion products, respiratory system, Condensed Matter Physics, Combustion, complex mixtures, respiratory tract diseases, law.invention, Ignition system, law, otorhinolaryngologic diseases, Combustor, Environmental science, Coal, business
Abstract

Plasma activation promotes more effective and environmentally friendly low-rank coal combustion. This paper presents Plasma Fuel Systems that increase the burning efficiency of coal. The systems were tested for fuel oil-free start-up of coal-fired boilers and stabilization of a pulverized-coal flame in power-generating boilers equipped with different types of burners, and burning all types of power-generating coal. Also, numerical modeling results of a plasma thermochemical preparation of pulverized coal for ignition and combustion in the furnace of a utility boiler are discussed in this paper. Two kinetic mathematical models were used in the investigation of the processes of air/fuel mixture plasma activation: ignition and combustion. A 1-D kinetic code PLASMA-COAL calculates the concentrations of species, temperatures, and velocities of the treated coal/air mixture in a burner incorporating a plasma source. The 1-D simulation results are initial data for the 3-D-modeling of power boiler furnaces by the code FLOREAN. A comprehensive image of plasma-activated coal combustion processes in a furnace of a pulverized-coal-fired boiler was obtained. The advantages of the plasma technology are clearly demonstrated.

Published
2007

44. Plasma enhancement of combustion of solid fuels

Author

A. B. Ustimenko, E. I. Karpenko, Vladimir E. Messerle, and Aliya Askarova

Subjects
Waste management, Pulverized coal-fired boiler, business.industry, Chemistry, Boiler (power generation), Coal combustion products, Solid fuel, Combustion, complex mixtures, law.invention, Ignition system, law, Combustor, Coal, Physical and Theoretical Chemistry, business
Abstract

Plasma fuel systems that increase the coal burning efficiency are discussed. The systems were tested for fuel oil-free startup of boilers and stabilization a pulverized-coal flame in power-generating boilers equipped with different types of burner and burning all types of power-generating coal. Plasma ignition, thermochemical treatment of an air-fuel mixture prior to combustion, and its burning in a power-generating boiler were numerically simulated. Environmental friendliness of the plasma technology was demonstrated.

Published
2006

45. CIVIL-LAW PROVISION OF CHEMICAL SAFETY OF THE REPUBLIC OF KAZAKHSTAN

Author

Ainur Kusainova, Gulmira Nurahmetova, Saule Suleimenova, Sholpan Saimova, Aliya Askarova, Ainur Kusainova, Gulmira Nurahmetova, Saule Suleimenova, Sholpan Saimova, and Aliya Askarova

Abstract

Since the period of economic reforms in the Republic of Kazakhstan, we have not witnessed an effective system of chemical safety, and as a result, measures to ensure chemical safety are chaotic, fragmented and often not fully funded. Analysis of the current state of the Republic of Kazakhstan legislation shows that it lacks a comprehensive approach towards the legality of chemical safety, and only a few rules, sometimes scattered, regulate the grounds and procedures for the use of various kinds of chemical substances and preparations. In view of the many aspects of chemical safety to ensure it is interdisciplinary, including various types of law regulation nature. In this context, the most relevant are the investigations of chemical safety as a matter of civil regulation, the study of concepts and certain types of civil legal means to ensure chemical safety. Therefore, the aim of the research is develop the conceptual foundations of the civil-law provision of chemical safety of the Republic of Kazakhstan and offer proposals, suggestions to improve legislation in this area and its practical application. Scientific novelty of this paper is complex research maintenance of chemical safety in the conditions of the state independence and economy.

Published
2016

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