Invention Grant
US09259727B2 Method of modifying nano-porous gas-reforming catalyst with high-temperature stability
有权
具有高温稳定性的纳米多孔气体重整催化剂改性方法
- Patent Title: Method of modifying nano-porous gas-reforming catalyst with high-temperature stability
- Patent Title (中): 具有高温稳定性的纳米多孔气体重整催化剂改性方法
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Application No.: US13657996Application Date: 2012-10-23
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Publication No.: US09259727B2Publication Date: 2016-02-16
- Inventor: Ning-Yih Hsu , King-Tsai Jeng , Shean-Du Chiou , Su-Hsine Lin , Hwa-Yuan Tzeng , Wan-Min Huang , Yuan-Ming Chang , Ruey-Yi Lee
- Applicant: Atomic Energy Council-Institute of Nuclear Research
- Applicant Address: TW Lungtan, Taoyuan
- Assignee: Institute of Nuclear Energy Research, Atomic Energy Council, Executive Yuan, R.O.C.
- Current Assignee: Institute of Nuclear Energy Research, Atomic Energy Council, Executive Yuan, R.O.C.
- Current Assignee Address: TW Lungtan, Taoyuan
- Agency: Jackson IPG PLLC
- Agent Demian K. Jackson
- Main IPC: B01J23/10
- IPC: B01J23/10 ; B01J23/42 ; B01J23/44 ; B01J37/00 ; B01J23/63 ; B01J21/04 ; B01J21/18 ; B01J35/02 ; B01J35/10 ; B01J37/02 ; B82Y40/00
Abstract:
A gas-reforming catalyst is modified to obtain stability in high temperature. The catalyst uses α-Al2O3 as a carrier and is nano-porous. Hence, reaction surface is greatly broadened; and platinum contained inside does not become bigger after times of use. The catalyst does not deposit carbon and has long life. The stability of the catalyst can be still remained even at a temperature higher than 800° C.
Public/Granted literature
- US20140113809A1 Method of Modifying Nano-Porous Gas-Reforming Catalyst with High-Temperature Stability Public/Granted day:2014-04-24
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