A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation

A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation

The structural characteristics of oil shale are important to its application. In this work, a deep insight into the structural characteristics of Yilan oil shale kerogen (YLK) was studied using alkali-oxygen oxidation at different times and ruthenium ion catalyzed oxidation (RICO). The results indic...

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Main Authors: Qian Wang, Yucui Hou, Weize Wu, Yupeng Wang, Qing Liu, Shuhang Ren
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2019-12-01
Series:Carbon Resources Conversion
Online Access:http://www.sciencedirect.com/science/article/pii/S2588913319300237
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spelling doaj-70695d0906f24b7b823bfab9ec2f21292021-03-02T07:10:17ZengKeAi Communications Co., Ltd.Carbon Resources Conversion2588-91332019-12-0123182190A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidationQian Wang0Yucui Hou1Weize Wu2Yupeng Wang3Qing Liu4Shuhang Ren5State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, China; College of Environment and Chemical Engineering, Xi’an Polytechnic University, Shaanxi 710048, ChinaDepartment of Chemistry, Taiyuan Normal University, Shanxi 030619, ChinaState Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, China; Corresponding author.State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, ChinaState Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, ChinaState Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing 100029, ChinaThe structural characteristics of oil shale are important to its application. In this work, a deep insight into the structural characteristics of Yilan oil shale kerogen (YLK) was studied using alkali-oxygen oxidation at different times and ruthenium ion catalyzed oxidation (RICO). The results indicate that YLK is gradually converted to humic acids (HAs), water-soluble acids (WSAs), carboxylic acids (CAs), CO2 and H2O. 13C NMR analyses of YLK, residues and HAs indicate that C–O bonds, especially Car–O bonds of YLK, are easily cleaved. The condensed aromatic rings and long alkyl chains are difficult to be oxidized during the oxidation process. With increasing oxidation time, the molar fraction of aromatic bridgehead carbon (Xb) of YLK and the residues increases from 0.174 to 0.201, and that of HAs increases from 0.225 to 0.267. The result indicates that the aromatic structures of YLK are composed of 1-ring aromatic clusters (26.5%), 2-ring aromatic clusters (67.1%) and 3 or more-ring aromatic clusters (6.4%). Also, the average methylene chain (Cn) of YLK and the residues increases from 2.0 to 5.1, and that of HAs increases from 1.3 to 2.7, indicating that the alkyl chain length is not average but has a distribution. 2.5% methylene carbons exist as long n-alkyl chains in the alkyl side chains groups (SCGs) on the aromatic rings in YLK. The carbon number of SCGs ranges from 5 to 22, and C15 and C17 are predominant. 3.8% methylene carbons exist as alkyl bridges linkages (BLs) connecting aromatic rings in YLK. The carbon number of BLs connecting aromatic rings ranges from 6 to 19, and C8 is predominant. Because of the existence of above long n-alkyl chains, 93.7% methylene carbons in YLK exist as alkyl chains with an average length of 1.84. Keywords: Structural characteristics, Oil shale kerogen, Alkali-oxygen oxidation, Ruthenium ion catalyzed oxidation, 13C NMRhttp://www.sciencedirect.com/science/article/pii/S2588913319300237
collection DOAJ
language English
format Article
sources DOAJ
author Qian Wang
Yucui Hou
Weize Wu
Yupeng Wang
Qing Liu
Shuhang Ren
spellingShingle Qian Wang
Yucui Hou
Weize Wu
Yupeng Wang
Qing Liu
Shuhang Ren
A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation
Carbon Resources Conversion
author_facet Qian Wang
Yucui Hou
Weize Wu
Yupeng Wang
Qing Liu
Shuhang Ren
author_sort Qian Wang
title A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation
title_short A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation
title_full A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation
title_fullStr A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation
title_full_unstemmed A deep insight into the structural characteristics of Yilan oil shale kerogen through selective oxidation
title_sort deep insight into the structural characteristics of yilan oil shale kerogen through selective oxidation
publisher KeAi Communications Co., Ltd.
series Carbon Resources Conversion
issn 2588-9133
publishDate 2019-12-01
description The structural characteristics of oil shale are important to its application. In this work, a deep insight into the structural characteristics of Yilan oil shale kerogen (YLK) was studied using alkali-oxygen oxidation at different times and ruthenium ion catalyzed oxidation (RICO). The results indicate that YLK is gradually converted to humic acids (HAs), water-soluble acids (WSAs), carboxylic acids (CAs), CO2 and H2O. 13C NMR analyses of YLK, residues and HAs indicate that C–O bonds, especially Car–O bonds of YLK, are easily cleaved. The condensed aromatic rings and long alkyl chains are difficult to be oxidized during the oxidation process. With increasing oxidation time, the molar fraction of aromatic bridgehead carbon (Xb) of YLK and the residues increases from 0.174 to 0.201, and that of HAs increases from 0.225 to 0.267. The result indicates that the aromatic structures of YLK are composed of 1-ring aromatic clusters (26.5%), 2-ring aromatic clusters (67.1%) and 3 or more-ring aromatic clusters (6.4%). Also, the average methylene chain (Cn) of YLK and the residues increases from 2.0 to 5.1, and that of HAs increases from 1.3 to 2.7, indicating that the alkyl chain length is not average but has a distribution. 2.5% methylene carbons exist as long n-alkyl chains in the alkyl side chains groups (SCGs) on the aromatic rings in YLK. The carbon number of SCGs ranges from 5 to 22, and C15 and C17 are predominant. 3.8% methylene carbons exist as alkyl bridges linkages (BLs) connecting aromatic rings in YLK. The carbon number of BLs connecting aromatic rings ranges from 6 to 19, and C8 is predominant. Because of the existence of above long n-alkyl chains, 93.7% methylene carbons in YLK exist as alkyl chains with an average length of 1.84. Keywords: Structural characteristics, Oil shale kerogen, Alkali-oxygen oxidation, Ruthenium ion catalyzed oxidation, 13C NMR
url http://www.sciencedirect.com/science/article/pii/S2588913319300237
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