article{osti_, title = {Mathematicalmodeling studies of insitu coal gasification}, author = {Krantz, W B and Gunn, R D}, abstractNote = {Commercialization of the insitu or underground coal gasification (UCG) process has been impeded because of uncertainties with respect to its reliability and predictability. Modeling studies when combined with a welldesigned field test program are ...
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The development of the underground ( insitu) coal gasification (UCG) technique is paving the way to access deep coal seams. Early studies suggest that the use of UCG could potentially increase the world's coal reserves by as much as 600 GT [ 3 ], which represents a 70% increase [ 2 ].
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Abstract. This work presents the results of an experimental study on the properties of tar that originated from underground coal gasification (UCG) trials. Two in situ experiments of UCG were performed using oxygen as the gasification agent under the HUGE and HUGE 2 projects. Trials were conducted using different configurations of the fire ...
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gasifier. (Show more) coal gasification, any process of converting coal into gas for use in illuminating and heating. The first illuminating gas was manufactured from coal in England in the late 18th century by the process of carbonization or destructive distillation, heating coal in the absence of air, leaving a residue of coke as a byproduct.
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The Chinese government has authorized an underground coalgasification project in Lineng of Shandong Province recently. This is a model project combining insitcoal gasification and gasfired power generation., as well as being of interest to the British, the Australians and ourselves, to name but a few.
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In situ combustion (ISC) and in situ gasification (ISG) are enhanced recovery methods to produce hydrocarbons involving the injection of an oxidant into the formation and the production of a hydrocarbon. ISC is a method developed to recover oil resources.
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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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The Process Intensification for Syngas Hydrogen key technology area addresses control of chemical reactions in increasingly modular and intrinsically efficient reactors, allowing for streamlined processes with wellcoordinated unit operations, and with a focus on gasification of biomass and carbonaceous wastes into syngas, s.
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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.
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Aquathermolysis of bitumen occurs when it is thermally cracked in the presence of water. Current in situ technologies for bitumen production, such as Cyclic Steam Stimulation and SteamAssisted Gravity Drainage, inject high pressure, high temperature steam in the reservoir to heat the bitumen which in turn lowers its viscosity enabling flow to a production well.
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As mentioned above, different combinations or concentrations of gasification agents are applied in biomass gasification technologies. The use of one or another gasification agent leads to a different composition of product gas, so the choice among them is made based on a balance between the final product gas specification (for downstream application) and process costs [14].
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Coal and biomass are important feedstocks for carbon energy from thermochemical conversion process. Fully understanding the analytical technology that characterizes the changes in physicochemical properties and structural characteristics of coal and biomass during the thermochemical reactions is a key prerequisite for the realization of appropriate utilization of energy fuels.
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The Underground Coal Gasification (UCG) offers a clean source of energy by converting coal/lignite insitu into syngas that can be used either as a fuel or as a chemical feedstock [2]. The UCG has the potential to utilize coal and lignite resources which are inaccessible due to depth and are uneconomical to extract using the conventional mining ...
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Besides, the CO 2 capture and separation are also easier during gasification process compared with that of the combustion process [3, 4]. However, the development of biomass gasification technology is inhibited by its seasonal nature, low energy density, high tar yield et al. [5, 6]. The concept of the cogasification of biomass and coal is ...
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A 72hour ex situ hard coal gasification test in one large block of coal was carried out. The gasifying agent was oxygen with a constant flow rate of Nm ³ /h.
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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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01 COAL, LIGNITE, AND PEAT; INSITU GASIFICATION; FIELD TESTS; PLANNING; RESEARCH PROGRAMS; ... (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 ...
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The coal face is ignited, and the high temperatures (about 1,200°C) from the combustion and limited oxygen causes nearby coal to partially oxidize into hydrogen, carbon monoxide (CO), carbon dioxide (CO 2 ), and minimal amounts of methane (CH 4) and hydrogen sulfide (H 2 S).
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The challenge for Leigh Creek Energy Limited was to design, build and commission a pilot plant to transform coal from its solid state into a gaseous form and monitor the technical and environmental performance of the process. The insitu gasification process (ISG) produces methane, hydrogen and other valuable components. The synthetic gas ...
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Abstract. The total worldwide resources of oil sands, heavy oil, oil shale and coal far exceed those of conventional light oil. In situ combustion and gasification are techniques that can potentially recover the energy from these unconventional hydrocarbon resources. In situ combustion can be used to produce oil, especially viscous and immobile ...
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A material supplier from Belgium would like to produce limestone powder for his custome...
India is rich in various mineral resources and it is an important mineral processing market
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