Characteristics of gas evolution profiles during coal pyrolysis and its relation with the variation of functional groups

Zhang, Lu; Qi, Shi‐Chao; Takeda, Norihiro; Kudo, Shinji; Hayashi, Jun Ichiro; Norinaga, Koyo

doi:10.1007/s40789-017-0175-0

Cited by 21 publications

(6 citation statements)

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“…Various gases were detected during the Geniai shale pyrolysis, including CH 4 , C 2 -C 5 , H 2 , CO and CO 2 . The thermogenic alkanes, such as C 1 -C 5 , originate mainly from the cleavage and polymerization of C−C chains attached to aromatic rings and aliphatic structures [52]. The likely sources of CO 2 mainly include the cracking and reformation of the ether, carbonyl and carboxyl groups from kerogen [24,50,53].…”

Section: Gas Composition Analysismentioning

confidence: 99%

Gas Generation and Its Carbon Isotopic Composition during Pyrite-Catalyzed Pyrolysis of Shale with Different Maturities

et al. 2022

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In this study, two shale samples with different maturities, from Geniai, Lithuania (Ro = 0.7%), and Wenjiaba, China (Ro = 2.7%), were selected for open-system pyrolysis experiments at 400 °C and 500 °C, respectively. The generation of isotopic gases from the shales with different maturities was investigated, and the effects of pyrite catalysis on the carbon isotopic compositions were also studied. It was found that CO2, CH4 and their isotopic gases were the main gaseous products of the pyrolysis of both shales, and more hydrocarbon gases were generated from the low-maturity Geniai shale. The δ13C1 values fluctuated from −40‰ to −38‰, and δ13C2 showed higher values (−38‰~−34‰) for the Geniai shale. In addition, its δ13CCO2 values ranged from −28‰ to −26‰. Compared with the Geniai shale, lower δ13C1 values (−43‰~−42‰) and higher δ13CCO2 values (−19‰~−14‰) were detected for the Wenjiaba shale. As temperature increased, CH4 became isotopically lighter and C2H6 became isotopically heavier, which changes were due to the mass-induced different reaction rates of 12C and 13C radicals. Furthermore, the pyrite made the kinetic isotope effect stronger and thus made the CH4 isotopically lighter for both shales, especially at the lower temperature of 400 °C.

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Section: Gas Composition Analysismentioning

confidence: 99%

Gas Generation and Its Carbon Isotopic Composition during Pyrite-Catalyzed Pyrolysis of Shale with Different Maturities

et al. 2022

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“…The XRD patterns of Ni metal in Ni-loaded lignite char catalysts in this study also correspond to the report by Chaiklangmuang et al 18 The occurrences of Ni metals on all catalysts could be explained by the fact that the Ni ions (Ni 2+ ) that were exchanged with the oxygen-containing functional groups (e.g., hydroxyl, carboxyl and metal-carboxylate groups) in the untreated coal and each treated coal were reduced by H 2 and CO and turned into Ni metal (Ni 0 ). 49,50 The H 2 and CO were generated by the decomposition of the aliphatic hydrocarbons, hydroxyl and carboxylate groups of Ni-loaded coal samples during pyrolysis at 650 C. 51,52 The decomposition of the aliphatic hydrocarbons, hydroxyl and carboxylate groups of Ni-loaded lignite coal samples were conrmed by the FTIR spectra of catalysts. In Fig.…”

Section: Production Of Ni-loaded Lignite Char Catalystmentioning

confidence: 99%

Influence of coal treatments on the Ni loading mechanism of Ni-loaded lignite char catalysts

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Chaichana

Noda³

et al. 2021

RSC Adv.

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“…There are also large pores that facilitate gas diffusion. Zhang et al 14 studied the deformation characteristics caused by CO 2 adsorption on coal under isothermal conditions and established an isothermal adsorption-deformation model. He et al 15 used an isothermal adsorption device and a D - R model to analyze the relationship between the coal volumetric strain and adsorption capacity and studied the influence of coal rank and pressure on CO 2 adsorption capacity.…”

Section: Introductionmentioning

confidence: 99%

Experimental Study on Influencing Factors and Thermal Effects of CO₂ Adsorption by Coal

et al. 2023

ACS Omega

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The utilization of CO2 is extremely important to solve the environmental problems and coal spontaneous combustion in goaf. There are three kinds of CO2 utilization in goaf: adsorption, diffusion, and seepage. Since adsorption will consume CO2 in goaf, the optimization of CO2 injection amount is very critical. A self-developed adsorption experimental device was used to determine the CO2 adsorption capacity of three different particle sizes of lignite coal samples at 30–60 °C and 0.1–0.7 MPa. The factors affecting CO2 adsorption by coal and its thermal effect were studied. In the coal and CO2 system, the CO2 adsorption characteristic curve is not affected by temperature, but there are differences in that with different particle sizes. The adsorption capacity increases with the increase of pressure, while it decreases with the increase of temperature and particle size. Under atmospheric pressure, the adsorption capacity of coal is a logistic function relationship with temperature. Furthermore, the average adsorption heat of CO2 on lignite shows that the interaction force between CO2 molecules has a stronger effect on CO2 adsorption than the effect of heterogeneity and anisotropy on the coal surface. Finally, the existing gas injection equation is improved theoretically with CO2 dissipation, which provides a new idea for the work of CO2 prevention and fire suppression in goaf.

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Characteristics of gas evolution profiles during coal pyrolysis and its relation with the variation of functional groups

Cited by 21 publications

References 50 publications

Gas Generation and Its Carbon Isotopic Composition during Pyrite-Catalyzed Pyrolysis of Shale with Different Maturities

Gas Generation and Its Carbon Isotopic Composition during Pyrite-Catalyzed Pyrolysis of Shale with Different Maturities

Influence of coal treatments on the Ni loading mechanism of Ni-loaded lignite char catalysts

Experimental Study on Influencing Factors and Thermal Effects of CO₂ Adsorption by Coal

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Characteristics of gas evolution profiles during coal pyrolysis and its relation with the variation of functional groups

Cited by 21 publications

References 50 publications

Gas Generation and Its Carbon Isotopic Composition during Pyrite-Catalyzed Pyrolysis of Shale with Different Maturities

Gas Generation and Its Carbon Isotopic Composition during Pyrite-Catalyzed Pyrolysis of Shale with Different Maturities

Influence of coal treatments on the Ni loading mechanism of Ni-loaded lignite char catalysts

Experimental Study on Influencing Factors and Thermal Effects of CO2 Adsorption by Coal

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Experimental Study on Influencing Factors and Thermal Effects of CO₂ Adsorption by Coal