Hydrothermal liquefaction(HTL)and pyrolysis(Py)of Loktak lake biomass mixture of water hyacinth(WH)and para grass(PG)were carried out at 260-300℃ and 300-500℃ to compare the products yield and chemical characteristi...Hydrothermal liquefaction(HTL)and pyrolysis(Py)of Loktak lake biomass mixture of water hyacinth(WH)and para grass(PG)were carried out at 260-300℃ and 300-500℃ to compare the products yield and chemical characteristics of the products.In case of HTL,the maximum bio-oil yield was obtained 13.34 wt.%at 280℃ while for Py,the maximum bio-oil yield was observed 38.8 wt.%at 350℃.The obtained bio-oils and bio-chars were analyzed using GC-MS,FT-IR,NMR,TGA,TOC,and SEM.GC-MS analysis of the bio-oils were showed that the HTL bio-oil majorly contains of nitrogen containing compounds whereas the Py bio-oil contains majority of phenolic compounds.Other compounds like ketones,alcohols,acids were also observed in bio-oil.Higher intensity broad band at 3300-3500 cm^(−1) was observed in the Py bio-oil compared to HTL bio-oil.TGA and proximate analysis of bio-char revealed the higher devolatilization occured during the HTL compared to Py process.The surface morphology of the HTL bio-char was found to be rough and fragmented as compared to the pyrolysis bio-char,clearly showing the biomass macromolecules breakdown differently in HTL and Py process.展开更多
Due to abundant availability,biofuel production from bamboo residues is gaining popularity.Bamboo biomass and its residues are widely available in the north-eastern part of India,which can be sustainably exploited for...Due to abundant availability,biofuel production from bamboo residues is gaining popularity.Bamboo biomass and its residues are widely available in the north-eastern part of India,which can be sustainably exploited for green energy production.The aim of the present study was to evaluate the pretreatments of dewaxed bamboo residues with dilute alkali(NaOH),and dilute acid,and the effect of pretreatment on biomass hydrolysis was performed with a commercial enzyme(Zytex).Results showed that maximum fermentable sugars were 490 mg/g obtained from 10%biomass with 0.6%(w/v)of alkali,and acid pretreated biomass produced 320 mg/g of sugars from 2%(w/v)acid with 10%biomass.Changes in biomass structure during the pretreatment process are correlated with FTIR,SEM,and component analysis for lignin,cellulose,and hemicelluloses.Fermentation studies of the hydrolysate showed that the yield of ethanol was 77%of the theoretical maximum at 36 h.Results indicate the scope of utilization of bamboo residues as substrates for biofuels,and alkaline pretreatment is an effective pretreatment process for bioethanol production.展开更多
文摘Hydrothermal liquefaction(HTL)and pyrolysis(Py)of Loktak lake biomass mixture of water hyacinth(WH)and para grass(PG)were carried out at 260-300℃ and 300-500℃ to compare the products yield and chemical characteristics of the products.In case of HTL,the maximum bio-oil yield was obtained 13.34 wt.%at 280℃ while for Py,the maximum bio-oil yield was observed 38.8 wt.%at 350℃.The obtained bio-oils and bio-chars were analyzed using GC-MS,FT-IR,NMR,TGA,TOC,and SEM.GC-MS analysis of the bio-oils were showed that the HTL bio-oil majorly contains of nitrogen containing compounds whereas the Py bio-oil contains majority of phenolic compounds.Other compounds like ketones,alcohols,acids were also observed in bio-oil.Higher intensity broad band at 3300-3500 cm^(−1) was observed in the Py bio-oil compared to HTL bio-oil.TGA and proximate analysis of bio-char revealed the higher devolatilization occured during the HTL compared to Py process.The surface morphology of the HTL bio-char was found to be rough and fragmented as compared to the pyrolysis bio-char,clearly showing the biomass macromolecules breakdown differently in HTL and Py process.
基金The authors would like to thank Dr.Rajeev K.Sukumaran and his group,Microbial Process and Technology Division,CSIR-National Institute for Interdisciplinary Science and Technology,for their extensive help with the characterization of biomass and the Director,IBSD,for his motivation and support(IBSD Manuscript No.IBSD/2020/01/061).
文摘Due to abundant availability,biofuel production from bamboo residues is gaining popularity.Bamboo biomass and its residues are widely available in the north-eastern part of India,which can be sustainably exploited for green energy production.The aim of the present study was to evaluate the pretreatments of dewaxed bamboo residues with dilute alkali(NaOH),and dilute acid,and the effect of pretreatment on biomass hydrolysis was performed with a commercial enzyme(Zytex).Results showed that maximum fermentable sugars were 490 mg/g obtained from 10%biomass with 0.6%(w/v)of alkali,and acid pretreated biomass produced 320 mg/g of sugars from 2%(w/v)acid with 10%biomass.Changes in biomass structure during the pretreatment process are correlated with FTIR,SEM,and component analysis for lignin,cellulose,and hemicelluloses.Fermentation studies of the hydrolysate showed that the yield of ethanol was 77%of the theoretical maximum at 36 h.Results indicate the scope of utilization of bamboo residues as substrates for biofuels,and alkaline pretreatment is an effective pretreatment process for bioethanol production.