The Catalytic Conversion of 1,2-Propandiol to Propanal on FSM-16 Molded by Wet-Treatment and Pressurization

Sugiyama, Shigeru; Okada, Yasuhiro; Kosaka, Youhei; Nakagawa, Keizo; Katoh, Masahiro; Katou, Yuuki; Akihara, Shuji; Yasukawa, Toshiya; Ninomiya, Wataru

doi:10.1252/jcej.13we059

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ID	109943
Author	Sugiyama, Shigeru Department of Advanced Materials, Institute of Technology and Science, The University of Tokushima\|Department of Resource Circulation Engineering, Center for Frontier Research of Engineering, The University of Tokushima Tokushima University Educator and Researcher Directory KAKEN Search Researchers Okada, Yasuhiro Department of Chemical Science and Technology, The University of Tokushima Kosaka, Youhei Department of Chemical Science and Technology, The University of Tokushima Nakagawa, Keizo Department of Advanced Materials, Institute of Technology and Science, The University of Tokushima\|Department of Resource Circulation Engineering, Center for Frontier Research of Engineering, The University of Tokushima KAKEN Search Researchers Katoh, Masahiro Department of Advanced Materials, Institute of Technology and Science, The University of Tokushima Tokushima University Educator and Researcher Directory KAKEN Search Researchers Katou, Yuuki Otake Research Laboratories, Mitsubishi Rayon Co. Ltd. Akihara, Shuji Otake Research Laboratories, Mitsubishi Rayon Co. Ltd. Yasukawa, Toshiya Otake Research Laboratories, Mitsubishi Rayon Co. Ltd. Ninomiya, Wataru Otake Research Laboratories, Mitsubishi Rayon Co. Ltd.
Keywords	Catalytic Conversion 1,2-Propandiol Propanal FSM-16
Content Type	Journal Article
Description	The catalytic conversion of 1,2-propandiol to propanal is examined using FSM-16 particles (0.85－1.70 mm) molded by wet-treatment and pressurization. When FSM-16 was molded with 0.6 g of pressurization and supplied to the catalytic conversion of 1,2-propandiol at 673 K, this system resulted in a 94.8% conversion of 1,2-propandiol and 90.5% selectivity to propanal at 0.25 h on-stream, which was the maximum amount of activity. However, at 4.50 h on-stream, the activity decreased extremely to deactivation 19.9% conversion of 1,2-propandiol and 84.7% selectivity to propanal. In contrast, when FSM-16 molded with wet-treatment (0.15 g) was used for the conversion at 573 K, activity was greatly increased and stable 98.6% conversion of 1,2-propandiol and 56.2% selectivity to propanal at 0.25 h on-stream followed by 91.9% and 52.5%, respectively, at 4.50 h on-stream. The hexagonal structure of FSM-16 was suggested to have contributed to the suitable conversion of 1,2-propandiol to propanal.
Journal Title	Journal of Chemical Engineering of Japan
ISSN	00219592
NCID	AA00709658
Volume	46
Issue	9
Start Page	620
End Page	624
Sort Key	620
Published Date	2013
Remark	Copyright © 2013 The Society of Chemical Engineers, Japan
EDB ID	263305
DOI (Published Version)	10.1252/jcej.13we059
URL ( Publisher's Version )	https://www.jstage.jst.go.jp/article/jcej/46/9/46_13we059/_article
FullText File	LID201610312003.pdf 296 KB
language	eng
TextVersion	Author
departments	Science and Technology