Experimental Study of the Flat-Flame Pulverized Coal Gasification Technology

Analysis of the perspectives of the coal fuel for thermal power plants is carried out. The necessity of the experimental study for temperature measurement in the boiler furnace. The results of the experimental study are presented: temperature change over time at the burner outlet for different constant pressure value of the backlighting gas, dependence of the temperature at the burner outlet from the backlighting gas pressure for constant concentration value of pulverized coal in coal-air mixture, dependence of the temperature at the burner outlet from the concentration of pulverized coal in coal-air mixture for constant value of the backlighting gas pressure, temperature measurements for constant backlighting gas pressure value, constant value of the concentration of pulverized coal in coal-air mixture when plasmatron is switched and operates for some time range. The results of the study could be applied to the solid fuel treatment for different thermal units.

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Development of Sumitomo Pulverized Coal Gasification Process

Journal of the Fuel Society of Japan ◽

10.3775/jie.39.705 ◽

1960 ◽

Vol 39 (10) ◽

pp. 705-712

Author(s):

Toshio Taniyama ◽

Giichi Karato

Keyword(s):

Coal Gasification ◽

Pulverized Coal ◽

Gasification Process

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An experimental study of coal gasification

Energy ◽

10.1016/s0360-5442(98)00056-5 ◽

1998 ◽

Vol 23 (12) ◽

pp. 1073-1076 ◽

Cited By ~ 1

Author(s):

Murat Dervisoglu ◽

Öner Hortaçsu

Keyword(s):

Experimental Study ◽

Coal Gasification

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Analytical, laboratory and bench test researches of underground coal gasification technology in National Mining University

New Developments in Mining Engineering 2015 ◽

10.1201/b19901-19 ◽

2015 ◽

pp. 97-106 ◽

Cited By ~ 2

Author(s):

V Falshtynskyi ◽

R Dychkovskyi ◽

V Lozynskyi ◽

P Saik

Keyword(s):

Coal Gasification ◽

Analytical Laboratory ◽

Bench Test ◽

Underground Coal Gasification ◽

Gasification Technology

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Experimental Study on Particle Temperature and CO/CO2Emission Characteristics of Pulverized Coal Combustion Condition According to Coal Types in Blast Furnace

Transactions of the Korean Society of Mechanical Engineers B ◽

10.3795/ksme-b.2014.38.10.807 ◽

2014 ◽

Vol 38 (10) ◽

pp. 807-815 ◽

Cited By ~ 1

Author(s):

Young Jae Cho ◽

Jin Ho Kim ◽

Ryang Gyun Kim ◽

Gyu Bo Kim ◽

Chung Hwan Jeon

Keyword(s):

Experimental Study ◽

Blast Furnace ◽

Coal Combustion ◽

Particle Temperature ◽

Pulverized Coal ◽

Pulverized Coal Combustion ◽

Combustion Condition

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Experimental Study on the Fractal Features and Permeability Characteristics of Low Metamorphic Coal Pore Structure under Thermal Damage

Geofluids ◽

10.1155/2020/8864571 ◽

2020 ◽

Vol 2020 ◽

pp. 1-13

Author(s):

Zhen Liu ◽

Mingrui Zhang ◽

Shijian Yu ◽

Lin Xin ◽

Gang Wang ◽

...

Keyword(s):

Experimental Study ◽

Pore Structure ◽

Coal Gasification ◽

Thermal Damage ◽

Fractal Model ◽

Utilization Efficiency ◽

Heating Process ◽

Underground Coal Gasification ◽

External Temperature ◽

Permeability Characteristics

Underground coal gasification and exploitation of geothermal mine resources can effectively improve coal conversion and utilization efficiency, and the basic theory of the above technologies generally relies on the change law of the coal pore structure under thermal damage. Therefore, the influence mechanism of the development of the coal pore structure under thermal damage is analyzed by the nuclear magnetic resonance experiment, and the temperature-permeability fractal model is created. The results show that compared with microtransitional pores, the volume of meso-macropores in the coal body is more susceptible to an increase in temperature, which was most obvious at 200-300°C. During the heating process, the measured fractal dimension based on the T2 spectral distribution is between 2 and 3, indicating that the fractal characteristics did not disappear upon a change in external temperature. The temperature has a certain negative correlation with DmNMR, DMNMR, and DNMR, indicating that the complexity of the pore structure of the coal body decreased gradually with the increase of the temperature. Compared with the permeability calculated based on the theoretical permeability fractal model, the permeability obtained from the temperature-permeability fractal model has a similar increasing trend as the permeability measured by the NMR experiment when the temperature increases. The experimental study on pore structure and permeability characteristics of the low metamorphic coal under thermal damage provides a scientific theory for underground coal gasification and geothermal exploitation.

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In situ sorption phenomena can mitigate potential negative environmental effects of underground coal gasification (UCG) - an experimental study of phenol removal on UCG-derived residues in the aspect of contaminant retardation

Ecotoxicology and Environmental Safety ◽

10.1016/j.ecoenv.2020.111710 ◽

2021 ◽

Vol 208 ◽

pp. 111710

Author(s):

Aleksandra Strugała-Wilczek ◽

Wioleta Basa ◽

Krzysztof Kapusta ◽

Karel Soukup

Keyword(s):

Experimental Study ◽

Environmental Effects ◽

Coal Gasification ◽

Phenol Removal ◽

Underground Coal Gasification

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Experimental Study on Coal Gasification in a Full-Scale Two-Stage Entrained-Flow Gasifier

Energies ◽

10.3390/en13184937 ◽

2020 ◽

Vol 13 (18) ◽

pp. 4937

Author(s):

Guangyu Li ◽

Luping Wang ◽

Chaowei Wang ◽

Chang’an Wang ◽

Ping Wu ◽

...

Keyword(s):

Experimental Study ◽

Coal Gasification ◽

Full Scale ◽

Input Rate ◽

Two Stage ◽

Entrained Flow ◽

Operation Period ◽

Entrained Flow Gasifier ◽

Coal Resource ◽

First Time

In this paper, coal gasification characteristics in the reductor were investigated in a full-scale two-stage pressurized entrained-flow gasifier, which has been seldom conducted previously. The present study aimed at elucidating the effects of gasifying agent concentration, coal input rate, and operation period under full reductor load on the performance of a utility two-stage pressurized entrained-flow gasifier for the first time. When the steam input in the combustor was raised from 3318 kg/h to 5722 kg/h, the total outputs of H2, CO, and CO2 were increased by 1765 Nm3/h and 2063 Nm3/h, respectively, while the CH4 output was decreased by 49 Nm3/h. The coal conversion rate was minimal at low steam input. In addition, more coal gasified in the reductor could increase the output of CH4, while CH4 could reach 1.24% with the coal input in the range of 8000–10,000 kg/h. The present work can offer a further understanding of the gasification performance in the reductor of the full-scale two-stage pressurized entrained-flow gasifier, and motivates the potential for clean utilization of coal resource.

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