<p>Relative changes of typical intermediates (a) and methane generation (b) over reaction time during coal bioconversion.</p
An experimentally based, conceptual model of the devolatilization of a HV bituminous coal is outline...
The quantity of volatiles evolved from a coal at a fast rate of heating has been shown to be a funct...
The reactions involved in the process of carbonization are disproportionate in nature, and are guide...
In situ biodegradation of coal to methane offers an innovative and attractive alternative to the pre...
Coke corresponds to 2/3–3/4 of the reducing agents in BF, and by the partial replacement of coking c...
Addition of organic amendments to coal-containing systems can increase the rate and extent of biogen...
Bioconversion of coal to methane has gained increased attention in recent decades because of its eco...
The yield of volatiles of liquid and gaseous species is a function of operational conditions, includ...
A kinetic model has been developed which predicts the rates of formation of volatile products produc...
The production of biogenic methane from coal has been observed through isotope analysis of coal bed ...
A moving bed was used as the reactor in experiments to produce synthesis gas by coal and natural gas...
A pressurized core flooding experiment was performed to better understand in situ coal bioconversion...
Substitution of coal in coking coal blend with bio-coal is a potential way to reduce fossil CO2 emis...
A pressurized core flooding experiment was performed to better understand in situ coal bioconversion...
Coal mine fire often occurs in lean-oxygen environments caused by methane. To clarify the characteri...
An experimentally based, conceptual model of the devolatilization of a HV bituminous coal is outline...
The quantity of volatiles evolved from a coal at a fast rate of heating has been shown to be a funct...
The reactions involved in the process of carbonization are disproportionate in nature, and are guide...
In situ biodegradation of coal to methane offers an innovative and attractive alternative to the pre...
Coke corresponds to 2/3–3/4 of the reducing agents in BF, and by the partial replacement of coking c...
Addition of organic amendments to coal-containing systems can increase the rate and extent of biogen...
Bioconversion of coal to methane has gained increased attention in recent decades because of its eco...
The yield of volatiles of liquid and gaseous species is a function of operational conditions, includ...
A kinetic model has been developed which predicts the rates of formation of volatile products produc...
The production of biogenic methane from coal has been observed through isotope analysis of coal bed ...
A moving bed was used as the reactor in experiments to produce synthesis gas by coal and natural gas...
A pressurized core flooding experiment was performed to better understand in situ coal bioconversion...
Substitution of coal in coking coal blend with bio-coal is a potential way to reduce fossil CO2 emis...
A pressurized core flooding experiment was performed to better understand in situ coal bioconversion...
Coal mine fire often occurs in lean-oxygen environments caused by methane. To clarify the characteri...
An experimentally based, conceptual model of the devolatilization of a HV bituminous coal is outline...
The quantity of volatiles evolved from a coal at a fast rate of heating has been shown to be a funct...
The reactions involved in the process of carbonization are disproportionate in nature, and are guide...
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