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- 저자 : Hua-Shuai Gao (검색결과 5 건)
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Separation of arenols from a low-temperature coal tar by liquid-liquid extraction
Hua-Shuai Gao,Zhi-Min Zong,Zheng Yang,Dao-Guang Teng,Xiu-Hua Sun,Li Yan,Xian-Yong Wei,Qing-Jie Guo,Tian-Sheng Zhao,Hong-Cun Bai 한국화학공학회 2020 Korean Journal of Chemical Engineering Vol.37 No.5
Low-temperature coal tar (LTCT) is a sticky liquid mixture produced mainly from coal pyrolysis, which contains various value-added chemicals (VACs). Liquid-liquid extraction is considered as one of the green and effective ways to explore the organic composition and separate the VACs from LTCT. Herein, petroleum ether, methanol, and carbon disulfide were used to extract arenols from a LTCT. As a result, the relative content and absolute content of arenols extracted from the LTCT are ca. 96.3% and 85.9%, respectively. Among them, p-cresol is predominant, accounting for 22.2%. The isolated contents of arenols are up to 84.6%. Moreover, a kilogram-scale operation was carried out under the same conditions, which offers a potential application in industrial production.
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Shuai Yang,Wei Xu,Yuanhao Gao,Xiaoyao Chen,Zhu-Hua Luo 한국미생물학회 2020 The journal of microbiology Vol.58 No.10
There are lots of seamounts globally whose primary production is disproportionally greater than the surrounding areas. Compared to other deep-sea environments, however, the seamounts environment is relatively less explored for fungal diversity. In the present study, we explored the fungal community structure in deep-sea sediments from four different stations of the Magellan seamounts environment by using high-throughput sequencing of the ITS1 region. A total of 1,897,618 ITS1 sequences were obtained. Among these sequences, fungal ITS1 sequences could be clustered into 1,662 OTUs. The majority of these sequences belonged to Ascomycota. In the genera level, the most abundant genus was Mortierella (4.79%), which was reported as a common fungal genus in soil and marine sediments, followed by Umbelopsis (3.80%), Cladosporium (2.98%), Saccharomycopsis (2.53%), Aspergillus (2.42%), Hortaea (2.36%), Saitozyma (2.20%), Trichoderma (2.12%), Penicillium (2.11%), Russula (1.86%), and Verticillium (1.40%). Most of these recovered genera belong to Ascomycota. The Bray-Curtis analysis showed that there was 37 to 85% dissimilarity of fungal communities between each two sediment samples. The Principal coordinates analysis clearly showed variations in the fungal community among different sediment samples. These results suggested that there was a difference in fungal community structures not only among four different sampling stations but also for different layers at the same station. The depth and geographical distance significantly affect the fungal community, and the effect of depth and geographical distance on the structure of the fungal community in the Magellan seamounts is basically same. Most of the fungi were more or less related to plants, these plant parasitic/symbiotic/endophytic fungi constitute a unique type of seamounts environmental fungal ecology, different from other marine ecosystems.
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Shuai Wu,Ai-jun Gao,Liang-hua Xu 한국섬유공학회 2018 Fibers and polymers Vol.19 No.6
The effect of in situ thermal stretching during oxidative stabilization on the orientation of cyclized ladder structure was investigated. Based on the structure evolution of PAN fibers with the increasing stabilization temperatures, the stabilization process was classified into three different stages, namely before the onset of cyclization, during cyclization in amorphous region, and during cyclization in crystalline region. The polyacrylonitrile (PAN) precursor fibers were stretched at the three stages with stretching ratios from 0 % to 8 % during continuous stabilization process. The results show that the orientation degree of cyclized ladder structure increases with the increase of stretching ratio at the three stages and the maximum orientation efficiency of cyclized ladder structure is obtained when PAN fibers are stretched at the stage of during cyclization in crystalline region. The orientation of resulting carbon fibers strongly depends on the orientation degree of cyclized ladder structure. The orientation efficiency of turbostratic graphite crystallite also agrees well with that of cyclized ladder structure. Meanwhile, the orientation efficiency of turbostratic graphite crystallite is higher than that of cyclized ladder structure and the difference values between orientation efficiency of the two structures decrease firstly then increase with the increase of degree of cyclization.
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Yu Wang,Tao Yan,Shuai Wu,Yuan-jian Tong,Ai-jun Gao,Liang-hua Xu 한국섬유공학회 2018 Fibers and polymers Vol.19 No.4
In a high-temperature environment, polyacrylonitrile-based carbon fiber (PAN-CF) can be deformed by stretching, where the stretching deformation ability of PAN-CF is enhanced with the increase of the temperature. Further, the hightemperature stretching deformation of PAN-CF directly affects the control of the carbon crystalline orientation. Based on the techniques of high-resolution transmission electron microscopy (HRTEM), Raman spectroscopy, X-ray diffraction and in situ tension testing, the variation regularity and the intrinsic mechanism of high-temperature stretching deformation ability of PAN-CF obtained at different preparation temperatures were systematically studied in a high-temperature environment. The results indicated that the essence of PAN-CF high-temperature deformation was the relative motion of the carbon crystallite. Further, the main structural parameters that affected the high-temperature stretching deformation ability of PAN-CF were the degree of cross-linking between the carbon crystallites, the orientation angle(OA) of the carbon crystallite and the nitrogen content. When the testing temperature was lower than the preparation temperature, only physical structure changes were observed in the PAN-CF. For the PAN-CF tested undergoing physical structure changes, as the degree of cross-linking between the crystallites and the orientation angle decreased, the slipping of crystallites became easier. In the same environment, as the stretching tension decreased, the stretching deformation ability improved. When PAN-CF was tested under temperatures higher than the preparation temperature, the microcrystalline cross-linking in the PAN-CF was prone to fracture and slipping, and the high-temperature stretching deformation ability was enhanced. Also, for PAN-CF of lower preparation temperatures in PAN-CF containing no nitrogen (i.e., <0.15 wt%), the cross-linkages increased and the structures were more unstable, inducing an increase in the fracture of weak bonds and a reduction of the stretching tension. For nitrogen-containing PAN-CF, the removal of nitrogen led to severe shrinkage in the graphite layer and interlayer, and the fiber tension was thus increased, causing the high-temperature stretching deformation ability of the PAN-CF with less nitrogen content to be improved.
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