Sintering accounts for about 50% of the total NOx emissions of the iron and steel industry. NOx emissions from the sintering process can be simulated using the emissions from coke combustion. However, the generation and emission law for NOx burning in the sintering process of pulverized coal is still not clear. The formation characteristics of NOx during coal combustion catalyzed by iron ore ...
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In the pulverized coal injection (PCI) process of a blast furnace (BF), intensifying the combustion of pulverized coal in the raceway and tuyere is the key to increasing the injection,4 In addition to widely used technologies that cooperate with PCI, such as oxygen enrichment and high temperature of
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combustion, a chemical reaction between substances, usually including oxygen and usually accompanied by the generation of heat and light in the form of rate or speed at which the reactants combine is high, in part because of the nature of the chemical reaction itself and in part because more energy is generated than can escape into the surrounding medium, with the result that the ...
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However, particles generated from the coal combustion process in the submicrometer size range are much more difficult to collect with conventional particle emission control devices (PECDs) than larger particles (McElroy et al., Citation 1982). Thus, study on the formation reduction and control of fine particles generated from coalfired power ...
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Coalconversion technologies, although used ubiquitously, are often discredited due to high pollutant emissions, thereby emphasizing a dire need to optimize the combustion process. The cofiring of coal/biomass in a fluidized bed reactor has been an efficient way to optimize the pollutants emission. Herein, a new model has been designed in Aspen Plus® to simultaneously include detailed ...
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In coal combustion process, coal particles firstly begin pyrolysis and ignition. With the volatile releasing, the char starts to burn and break into smaller particles [73]. At the high combustion flame temperature, almost all the mercury in coal decomposes into Hg 0 based on the mercury forms, mentioned above, in coal [74], [75].
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Besides, the coal combustion process is composed of a large number of elementary reactions, in which free radicals collide and react with each other, and most free radicals have strong reactivity and short existence time. For the above reasons, current experimental methods are difficult to detect the free radicals in realtime and to identify ...
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The "five stages" method divides the process of the spontaneous combustion of coal into five stages, including: the latent stage, heat accumulating stage, evaporation stage, active stage, and hypoxic stage. The critical point of each stage was determined using adiabatic oxidation experiments and programmed heat experiments. As the critical ...
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Oxyfuel combustion is a pulverized coal combustion process practiced in coalfired power plant. In a traditional power plant, the pulverized coal used for fuel is fired and the oxygen comes from injected air. Pulverised coal combustion technology is mainly used for steam generation in the power plant, where most of the cases suspended coal bed ...
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During pulverized coal combustion, fragmentation shifts the particle size distribution towards small sizes, which affects both the conversion and heat release rates. ... In parallel, a fraction of the original coal is converted to char and the process takes place by which these nascent volatile species are transported from the coal particle to ...
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The characteristics of oxidized spontaneous combustion of coal can reflect the performance of coal, and an appropriate structural model can reflect it more intuitively. In this study, samples from Baishihu Coal Mine were used to study the macromolecular structure, microcrystal structure, and oxidation process of coal by Xray photoelectron spectroscopy (XPS), carbon nuclear magnetic resonance ...
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Coal Combustion Process. Coal combustion is a multistage process. If we focus on the changes in the coal, the process can be described as follows. First, the coal particles are heated to above 100 °C by an external source, and water is vaporized from the coal. Second, as the temperature increases further, volatiles are driven from the ...
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One of the main energy sources utilized to produce power is coal. Due to the lack of combustion enhancement, the main issue with coalbased power plants is that they produce significant amount of pollutants. The major problem of slagging formation within the boiler; it sticks to the water tube walls, superheater, and reheater. Slagging might decrease the heat transferred from the combustion ...
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The plant will test ALSTOM's Chilled Ammonia Process that captures CO 2 from conventional pulverized coal plants postcombustion. If successful, the process could be incorporated into new PC ...
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A process simulation model has been developed to simulate and predict the condition of three kinds of coal combustion in a 30 kW circulating fluidized bed combustor based on Aspen Plus with considering gas−solid hydrodynamics via Aspen Plus inline FORTRAN codes and combustion reaction kinetics via some external FORTRAN subroutines simultaneously. The related mathematical models in the ...
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efficiency improvement measures, precombustion control measures (, coal blending, coal cleaning), optimizing other (single) air pollutants control technologies to maximize mercury removal, mercuryspecific control technologies, and multipollutant control
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In hightemperature oxyfuel combustion processes, fuel and oxygen are mixed at the burner undiluted with recycled flue gas, except to motivate coal for coalfired systems. This process can result in a high flame temperature (>4,500°F), which enhances heat transfer in the radiant zone of the boiler.
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coal utilization, combustion of coal or its conversion into useful solid, gaseous, and liquid products. By far the most important use of coal is in combustion, mainly to provide heat to the boilers of electric power plants. Metallurgical coke is the major product of coal conversion. In addition, techniques for gasifying and liquefying coal into fuels or into feedstocks for the chemical ...
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According to the moisture content in the coal, the onset temperature of the devolatilization in Fig. 2 is about 683 K. The ignition temperature of the coal particle sample is determined as the temperature that corresponds to the peak value of the released heat due to heterogeneous combustion [], which is approximately 773 K, as shown in Fig. Computational domain and lance configuration types
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Coal combustion not only seals the working face but also causes gas combustion and explosion (Li et al., 2020), leading to major casualties and environmental impacts. In the process of coal combustion, some typical and easytodetect index gases are produced, such as CO, CO 2, and SO 2 (Shi et al., 2021). Accurate detection of a change in the ...
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The coal consumption in our country mainly lies in coalfired power stations and industrial boilers. Since the temperature change in the furnace influences combustion, slagging In the pulverized coal combustion process, turbulence impacts the radiation transmission of the medium by changing the shape of the flame, and the heat release acts on the turbulence field by changing the ...
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Combustion process is mainly applied for electricity generation in power plants via steam turbine using coal or locallyavailable biomass. In other industry, combustion can be carried out for drying, water heating, as well as post and preheating process of various applications [32].
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Coal combustion products (CCPs), also called coal combustion wastes (CCWs) or coal combustion residuals (CCRs), are categorized in four groups, each based on physical and chemical forms derived from coal combustion methods and emission controls: . Diagram of the disposition of coal combustion wastes. Fly ash is captured after coal combustion by filters (), electrostatic precipitators and other ...
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