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Environ Sci Pollut Res Int


Title:Mo-based catalysts for CH(4)/H(2)S reforming to hydrogen production: effect of hydroxyl concentration of the support
Author(s):Li K; Zhu Y; Wang Z; Chen D; Wu W; Luo Y; He D;
Address:"Faculty of Chemical Engineering, Kunming University of Science and Technology, Kunming, 650500, People's Republic of China. The Innovation Team for Volatile Organic Compounds Pollutants Control and Resource Utilization of Yunnan Province, Kunming, 650500, People's Republic of China. The Higher Educational Key Laboratory for Odorous Volatile Organic Compounds Pollutants Control of Yunnan Province, Kunming, 650500, People's Republic of China. Faculty of Chemical Engineering, Kunming University of Science and Technology, Kunming, 650500, People's Republic of China. cdk684983@163.com. The Innovation Team for Volatile Organic Compounds Pollutants Control and Resource Utilization of Yunnan Province, Kunming, 650500, People's Republic of China. cdk684983@163.com. The Higher Educational Key Laboratory for Odorous Volatile Organic Compounds Pollutants Control of Yunnan Province, Kunming, 650500, People's Republic of China. cdk684983@163.com. Yunnan Research Academy of Eco-environmental Sciences, Kunming, 650034, People's Republic of China"
Journal Title:Environ Sci Pollut Res Int
Year:2023
Volume:20230509
Issue:27
Page Number:70884 - 70896
DOI: 10.1007/s11356-023-27222-8
ISSN/ISBN:1614-7499 (Electronic) 0944-1344 (Linking)
Abstract:"High concentration of H(2)S in acidic natural gas will lead to poisoning of catalysts for hydrogen production by methane steam reforming, thus limiting the further use of natural gas. Reforming CH(4) by H(2)S can be considered as an alternative route to hydrogen production from methane. This process not only achieves the removal of H(2)S but also obtains chemical raw material CS(2) and clean energy H(2). By impregnating the Mo source on SiO(2) treated with hydrogen peroxide and then using the catalyst in the CH(4)/H(2)S reforming reaction, we surprisingly found that the conversion rate of CH(4) and H(2)S increased from 28 and 32% to 34% and 43%, respectively, after hydrogen peroxide treatment. The H(2) production rate and the yield of CS(2) increased from 20 mmolH(2)/(g(Mo)*min) and 52% to 30 mmolH(2)/(g(Mo)*min) and 65%, respectively. Combining with characterization methods such as X-ray diffraction (XRD), hydrogen temperature programmed reduction (H(2)-TPR), (1)H-based solid-state nuclear magnetic resonance ((1)H MAS NMR), X-ray photoelectron spectroscopy (XPS), Raman spectra (RS), and transmission electron microscopy (TEM), we found that the hydroxyl concentration of the support increased after hydrogen peroxide treatment, which led to the strengthening of the force between the metal and the support, which was easy to form low-level and small-size MoS(2), exposing more active sites, and further improving the catalytic activity. This method provides a new idea for hydrogen production by CH(4)/H(2)S reforming and the development of high-performance MoS(2)-based catalysts"
Keywords:*Natural Gas *Molybdenum Silicon Dioxide/chemistry Hydrogen Peroxide Hydrogen/chemistry Methane/chemistry H2s Hydrogen sulfide methane reformation MoS2 Silanol;
Notes:"MedlineLi, Ke Zhu, Yuqiu Wang, Zixuan Chen, Dingkai Wu, Wenwei Luo, Yongming He, Dedong eng 21968015/National Natural Science Foundation of China/ 22006059/National Natural Science Foundation of China/ 42030712/National Natural Science Foundation of China/ 21966018/National Natural Science Foundation of China/ 202201AW070007/Excellent Youth Project of Natural Science Foundation of Yunnan Province/ 202205AC160011/Young Academic and Technical Leader Raising Foundation of Yunnan Province/ 202101AS070026/Key Project of Natural Science Foundation of Yunnan Province/ Germany 2023/05/10 Environ Sci Pollut Res Int. 2023 Jun; 30(27):70884-70896. doi: 10.1007/s11356-023-27222-8. Epub 2023 May 9"

 
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