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Details for article 19 of 22 found articles
| Title: |
The Development of Ni/Dolomite Catalyst in Simultaneous Biomass Gasification and Reforming in Fluidized Bed |
| Author: |
Anawat Ketcong Tharapong Vitidsant Kaoru Fujimoto |
| Appeared in: |
American journal of environmental sciences |
| Paging: | Volume 5 (2009) nr. 3 pages 273-277 |
| Year: |
2009 |
| Contents: |
Simultaneous gasification and steam reforming of the biomass on Ni/dolomite catalyst in fluidized bed reactor were studied in the gaseous production in the one stage reactor. Problem statement: The parameters such as temperature, steam flow rate, biomass feed rate, gas flow rate for fluidization, oxygen flow rate and catalyst types were studied to produce the high gaseous products including tar elimination. Approach: The temperature at 780°C, steam flow rate of 222 mmoL h1, gas flow rate for fluidization 450 mL min1 and oxygen input 50 mL min1 were found to be the suitable conditions. The Ni/Dolomite and the developed Ni/Dolomite were studied about their performance. Results: It was confirmed that Ni/Dolomite and newly developed Ni-WO3/Dolomite show high performance in biomass gasification. Conclusion/Recommendations: It was claimed that Ni/Dolomite catalyst was the effective and give best performance for tar cracking. Newly developed Ni-WO3/Dolomite catalyst was investigated to resist sulfur nd coking. Three types of catalyst were used in the biomass gasification, which are Ni/Dolomite, Ni/Dolomite+Silica binder and Ni-WO3/Dolomite. From the XRD analysis, structures of type 1 (Ni/dolomite) and type 2 (Ni/Dolomite+Silica binder) were similar which were in CaCO3, MgNiO2, NiO and MgO forms. Type 3 (Ni-WO3/Dolomite) was CaWO4, MgNiO2, NiO and MgO forms. When the catalytic gasification was operated, newly Ni- WO3/Dolomite catalyst was the best catalyst for bamboo and palm shell biomasses, which could produce the high carbon monoxide and hydrogen but low methane and carbon dioxide were found. Carbon deposition on catalyst was around 0.37 mg according to the TG analysis. |
| Publisher: |
Science Publications (provided by DOAJ) |
| Source file: |
Elektronische Wetenschappelijke Tijdschriften |
Details for article 19 of 22 found articles
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