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Fuel ◽  
2022 ◽  
Vol 313 ◽  
pp. 123003
Author(s):  
Wei Liu ◽  
Xiangyu Chu ◽  
Hao Xu ◽  
Tao Yang ◽  
Yueping Qin ◽  
...  

Author(s):  
Bulbul Ongar ◽  
Hristo Beloev ◽  
Iliya Iliev ◽  
Assem Ibrasheva ◽  
Anara Yegzekova

Even though natural sources of air pollution account for over 50 % of sulphur compounds, 93 % of nitrogen oxide which are the most dangerous artificial anthropogenic sources of air pollution and primarily associated with the combustion of fossil fuel. Coal-fired thermal power plants and industrial fuel-burning plants that emit large quantities of nitrogen oxides (NО and NО2), solids (ash, dust, soot), as well as carbon oxides, aldehydes, organic acids into the atmosphere pollute the environment in majority. In the present work, a mathematical model and a scheme for calculating the formation of nitrogen oxide has been developed. Also, the dependence of the rate of release of fuel nitrogen from coal particles at the initial stage of gasification and content of volatiles has been obtained. The main regularities of the formation of NOx at the initial section of the flame in the ignition zone of the swirl burner flame during the combustion of Ekibastuz coal have been revealed. Modern environmental requirements for the modernization of existing and the creation of new heat and power facilities determine the exceptional relevance of the development of effective methods and constructions to reduce emissions of nitrogen oxides, sulfur oxides and ash to 200, 300, and 100 mg/nm3 at a=1.4. The dust consumption in all experiments was kept constant and amounted to 0.042 g/s, as well as with the results of calculating the thermal decomposition of the Ekibastuz coal dust, the recombination of atomic nitrogen into nitrogen molecules, and the kinetics of the formation of fuel nitric oxide. It was found that despite the presence of oxygen in Ekibastuz coal for gases Odaf=11.8 % in an inert atmosphere, nitrogen oxides are not formed


2022 ◽  
Author(s):  
Wenjie Liu ◽  
Ke Yang ◽  
Litong Dou ◽  
Zhen Wei ◽  
Xiaolou Chi ◽  
...  

Abstract To explore the dynamic mechanical characteristics of coal-rock combined body (CRCB) load-bearing structures, impact tests were performed on CRCB specimens by using a separated Hopkinson pressure bar test device (SHPB) combined with an ultra-high-speed camera system. The propagation characteristics of stress wave , dynamic stress-strain relationship, energy evolution law, and distribution characteristics of CRCB crushed particles in the impact tests were analyzed. The obtained results showed that: with the increasing of impact velocity, the effect of the wave impedance difference between the CRCB specimens and incident bar on stress wave propagation is gradually weakened. The peak strength (sII) and peak strain of the CRCB had obvious strain-rate effects, the ratio of reflected energy decreases linearly. In addition, with increased impact velocity, the growth rate of the peak strength and ratio of absorbed energy gradually dropped, changing approximately as a power function. Macro-fractures of the CRCB mainly occurred at the coal or rock ends which is far away from the interface. When the stress at the crack tip is greater than the "weakened" coal or rock strength, the crack will continue to develop across the coal and rock interface. With the increasing of impact velocity and rock strength, the crushed coal particles gradually transform from massive to powdering, and the average size of crushed coal blocks decreases, which leads to a gradual increase in the fractal dimension of the CRCB specimens. Therefore, the monitoring and prevention of dynamic loads should be strengthened in the coal mines with thick and hard roofs.


Fuel ◽  
2022 ◽  
Vol 308 ◽  
pp. 122045
Author(s):  
Qingquan Liu ◽  
Jing Wang ◽  
Jingjing Liu ◽  
Qiquan Yang ◽  
Wenyi Huang ◽  
...  

2022 ◽  
Vol 225 ◽  
pp. 107065
Author(s):  
Qianyun Chen ◽  
Dingyi Qin ◽  
Jing Li ◽  
Zhaohui Liu

Minerals ◽  
2021 ◽  
Vol 12 (1) ◽  
pp. 35
Author(s):  
Junwoo Park ◽  
Eunju Kim ◽  
In-kook Suh ◽  
Joonho Lee

The sintering process is a thermal agglomeration process, and it is accompanied by chemical reactions. In this process, a mixture of iron ore fines, flux, and coal particles is heated to about 1300 °C–1480 °C in a sinter bed. The strength and reducibility properties of iron ore sinter are obtained by liquid phase sintering. The silico-ferrite of calcium and aluminum (SFCA) is the main bonding phase found in modern iron ore sinters. Since the physicochemical and crystallographic properties of the SFCA are affected by the chemical composition and mineral phases of iron ores, a crystallographic understanding of iron ores and sintered ore is important to enhance the quality of iron ore sinter. Scrap and by-products from steel mills are expected to be used in the iron ore sintering process as recyclable resources, and in such a case, the crystallographic properties of iron ore sinter will be affected using these materials. The objective of this paper is to present a short review on research related to mineral phases and structural properties of iron ore and sintered ore.


Author(s):  
Aleksandr R. Bogomolov ◽  
Aleksandr S. Gladkih ◽  
Anastasia A. Shibelgut
Keyword(s):  

PLoS ONE ◽  
2021 ◽  
Vol 16 (12) ◽  
pp. e0261678
Author(s):  
Mingkun Pang ◽  
Tianjun Zhang ◽  
Lu Gao ◽  
Binfeng Qin

The accurate determination of permeability is one of the parameters essential for the study of fluid flow and transport state. However, a large number of fractured coal bodies are faced during the production of coal mines. The study of permeability of these special media composed of grains of a certain size, whose structure is different from that of raw coal, has been in the exploratory stage. In this paper, inspired by the calculation method of median particle size and the calculation principle of KC’s equation, we calculate the permeability parameters of broken coal particles. It is considered that its permeability is closely related to the compaction and re-crushing process of skeletal grains. The lateral limit compression test of the crushed coal body was designed, and the pore-dominated permeability calculation method was given to reveal the mechanism of the action of the effective stress. The dependence relationship between the effective stress and the pore-correlation permeability is obtained by data analysis, and the force and deformation process of the crushed coal grain media is described. In contrast to the conventional Darcy series of permeability discussions, our approach excludes the influence of fluid factors on the permeability of porous media. The permeability of porous media is considered to be determined only by its own pore structure.


Fuel ◽  
2021 ◽  
pp. 122772
Author(s):  
Wantao Yang ◽  
Yang Zhang ◽  
Bing Liu ◽  
Kailong Xu ◽  
Hai Zhang
Keyword(s):  

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