Production and characterization of Lemna minor bio-char and its catalytic application for biogas reforming

详细信息    查看全文

• 作者：Nazim Muradov^a ; ^{muradov@fsec.ucf.edu} ; Beatriz Fidalgo^b ; Amit C. Gujar^a ; Nathaniel Garceau^a ; Ali T-Raissi^a
• 关键词：Lemna minor ; Pyrolysis ; Bio-char ; Catalyst ; Biogas reforming
• 刊名：Biomass and Bioenergy
• 出版年：2012
• 出版时间：July, 2012
• 年：2012
• 卷：42
• 期：Complete
• 页码：123-131
• 全文大小：751 K

文摘

Pyrolysis of fast-growing aquatic biomass - Lemna minor (commonly known as duckweed) with the emphasis on production, characterization and catalytic application of bio-char is reported in this paper. The yield of bio-char was determined as a function of L. minor pyrolysis temperature and sweep gas flow rate. It was found that the pore development during L. minor pyrolysis was not significant and the changes in the reaction conditions (temperature and sweep gas flow rate) did not alter markedly the textural characteristics and BET surface area of the bio-char produced. Thermogravimetric/differential thermogravimetric (TG/DTG) analyses of L. minor and different bio-char samples in inert (helium) and oxidative (air) media showed substantial differences in their TG/DTG patterns. A comparison of scanning electron micrographs (SEM) of L. minor, bio-char and ash indicated that the basic structural features of L. minor remained intact and were not affected by thermolysis. The inorganic ash content of L. minor derived bio-char is significantly higher than that of typical terrestrial (plant) biomass. The energy dispersive spectroscopic (EDS) analysis of L. minor ash showed that it mostly consisted of silica, and small quantities of Na, K and Ca compounds. The treatment of bio-char with CO₂ at 800?¡ãC increased its BET surface area. It was found that CO₂-treated bio-char exhibited appreciable initial catalytic activity in biogas reforming.