In this study the characteristics of Turkish lignite for underground coal gasification process was experimentally investigated in a laboratory scale ex situ reactor. A rectangular prism shaped ex ...
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Underground coal gasification (UCG) hydrogen production (UCGH 2) can convert deep coal resources difficult to mine into hydrogen, its economic performance needs to be investigated so the application prospect can be paper take hydrogen production with capacity of billion Nm 3 /a as objective, based on simulation results, comparative technoeconomic analysis was conducted ...
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The Controlled Retracting Injection Point (CRIP) process for underground coal gasification (UCG) was successfully demonstrated during the Rocky Mountain I (RM I) field test conducted in the winter of 198788 near Hanna, Wyoming. The basic features for the CRIP process are its ability to maintain oxidant injection low in the coal seam by ...
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Underground Coal Gasification (UCG) requires monitoring of the gasification area because the gasification process is invisible and the reaction temperature exceeds 1000 °C. Many fracturing events that occurred due to coal heating can be captured with Acoustic Emission (AE) monitoring technique during UCG.
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Research on hydrogen production from coal gasification is mainly focused on the formation of CO and H 2 from coal and water vapor in hightemperature environments. However, in the process of underground coal gasification, the water gas shift reaction of lowtemperature steam will absorb a lot of heat, which makes it difficult to maintain the combustion of coal seams in the process of ...
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Underground coal gasification (UCG) is an alternative way to convert underground coal reserves into a synthesis gas (syngas), such as methane, hydrogen, and carbon monoxide, in situ, where it is infeasible or uneconomical for traditional mining methods [1,2,3,4].UCG has the potential to be a more environmentally friendly and costeffective way to extract energy from coal, as it can reduce the ...
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The coal is converted into syngas during the underground coal gasification process in the coal seam (, in situ). The gas is produced and extracted by a well drilled into the gasified coal seam. The injection well is used to inject oxidants,, air, oxygen, vapor, or their mixture. The injection well also serves to ignite the coal seam at ...
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The underground coal gasification (UCG) process represents a modern and effective coal mining technology that enables coal energy extraction through thermic decomposition. The coal is transformed into syngas by oxidizers (, air, technical oxygen, or water steam) and is injected into a georeactor. The produced syngas is exhausted on the surface, where it is transformed into the desired form ...
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With underground coal gasification (UCG), the actual process takes place underground, generally below 1,200 feet. The underground setting provides both the feedstock source as well as pressures comparable to that in an aboveground gasifier. With most UCG facilities, two wells are drilled on either side of an underground coal seam.
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Underground coal gasification (UCG) ... The notable products in a coal pyrolysis process encompass CO, H 2, CH 4, CO 2, H 2 O, char, and to a lesser amount tar and hydrocarbons. It is thus evident that the generation of H 2 occurs principally in the reduction and pyrolysis categories.
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Underground coal gasification (UCG) is an industrial gasification process, which is carried out in nonmined coal seams. It involves injection of a gaseous oxidizing agent, usually oxygen or air, and bringing the resulting product gas to the surface through production wells drilled from the surface.
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During underground coal gasification, the process gas will tend to escape from the cavity if there is an outward pressure gradient. In order to prevent this, a common practice is to ensure that the fluid flow from the strata surrounding the cavity must be towards it [46]. However, under specific conditions where coal acts as a confined aquifer ...
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Underground coal gasification (UCG) has its own reaction characteristics with the growth of the combustion cavity because the coal seam is fixed while the gasification face moves. The theoretical understanding of UCG requires continuous and deep research. In order to explain the UCG mechanism by means of simulation calculation, based on the analysis of the reaction process of UCG, radial and ...
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Geological Model of the Gasifier. The gasifier mainly consists of two parts: a coal seam and the surrounding rock. The temperature distribution in the gasifier, the nonuniformity and instability of the gasification reaction, and the heterogeneity and anisotropy of the surrounding rock determine that the geological model of the gasifier must be threedimensional rather than simply two ...
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Increasing global energy demand is a central challenge of the 21st century. Apart from renewable energy concepts, sustainable bridging and buffering technologies are needed which simultaneously offer longterm energy supply guarantees. Underground coal gasification (UCG) shows a promising potential to meet these requirements of future energy markets by in situ conversion of coal to a valuable ...
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Coal gasification is a promising option for the future use of coal. Similarly to gasification in industrial reactors, underground coal gasification (UCG) produces syngas, which can be used for power generation or for the production of liquid hydrocarbon fuels and other valuable chemical products. As compared with conventional mining and surface gasification, UCG promises lower capital ...
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The growth state of the combustion cavity during underground coal gasification (UCG) affects the gasification process's efficiency, stability, and accurate monitoring and control. In this study, a simulation experiment of UCG was performed, and a horizontal coaxial gasification channel was drilled based on the constructed artificial coal seam.
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1Introduction. Underground coal gasification (UCG) is the process in which air, steam and oxygen are injected into the insitu coal seams. Then the coal is ignited and converted into syngas (such as H 2, CO, CH 4, and CO 2) [[1], [2], [3]].During the UCG process, the temperature in the gasification face and cavity can normally reach °C [[1], [2]].
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The Controlled Retracting Injection Point (CRIP) process for underground coal gasification (UCG) was successfully demonstrated during the Rocky Mountain I (RM I) field test conducted in the winter of 198788 near Hanna, Wyoming. The basic features for the CRIP process are its ability to maintain oxidant injection low in the coal seam by ...
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article{osti_, title = {Underground coal gasification: An overview of groundwater contamination hazards and mitigation strategies}, author = {Camp, David W. and White, Joshua A.}, abstractNote = {Underground coal gasification is the in situ conversion of coal into an energyrich product gas. It takes place deep underground, using chemical reactions to consume the coal and grow a cavity.
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The Underground Coal Gasification (UCG) process is a complex and multiphysics phenomenon, thus making it difficult to develop a mathematical model that encapsulates all dynamical aspects. In this regard, datadriven modeling techniques offer a reliable alternative for prediction, control, and optimization of dynamical systems, but their ...
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Underground coal gasification (UCG) has been shown to be a promising method for deep coal resources. A series of complicated chemical reactions can induce a considerable change in the pore structure of coal and thus promote the UCG process in turn. Currently, most studies on the effect of elevated temperature on the pore structure of coal were not involved in an air atmosphere, bringing a ...
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Underground coal gasification (UCG) is a clean coal mining technology without significant environmental impacts. This technology can also be used in deep, hardtoreach seams or deposits affected by tectonic disturbances, where conventional mining is impossible. Several techniques and methods have been investigated worldwide to support the process control of UCG. Global research focuses on the ...
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Underground coal gasification (UCG) is a complex process as it depends on many factors such as geological and geohydrological analysis of strata, physical and chemical properties of coal, operational process parameters, seismic events, analysis of produced gases in realtime.
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The cavity is formed in the coal seam by converting coal to synthetic gas during the underground coal gasification process. The cavity growth rate and the gasification queue's moving velocity are affected by controllable variables,, the operation pressure, the gasification agent, and the laboratory coal seam geometry. ...
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Underground coal gasification (UCG) is just an industrialised gasification process that takes place in coal seams that haven't been mined. It entails injecting a gaseous oxidising agent, often oxygen or air, and transporting the resultant product gas to the surface via production gas wells drilled from the surface.
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