Pyrolysis and copyrolysis of three lignocellulosic biomass residues from the agro-food industry: A comparative study

CÓRDOBA, AGOSTINA; PIERELLA, LILIANA BEATRIZ; FERMANELLI, CARLA SOLEDAD; SAUX, CLARA

WASTE MANAGEMENT (ELMSFORD)

PERGAMON-ELSEVIER SCIENCE LTD

Año: 2020 vol. 102 p. 362 - 370

0956-053X

In this study, pyrolysis of residual biomass from the agro-alimentary industry of Argentina was investigated. The studied biomasses were rice husk, peanut shell and wheat straw. The effect of pyrolysis temperatura over solid (bio-char), liquid (bio-oil) and gas (bio-gas) fractions weight yields were evaluated for each biomass, in the range of 350?650 _C. The maximum yield of bio-oil was obtained at 550 _C for rice husk (45 wt%) and wheat straw (58 wt%), and at 500 _C for peanut shells (51 wt%). At those temperatures, the data recorded the smallest spread around the mean. Different characterization techniques of raw biomass were reported, namely, thermal behavior; proximate and ultimate analysis; content of Ca, Al, K, Si and Fe; and hemicellulose, cellulose and lignin composition. Bio-oils characterization included wáter content and chemical compounds identification. Furthermore, bio-char HHV and BET surface area weremeasured. Rice husk bio-oil showed 21% selectivity towards furans of which 75% corresponded to furfural and 5-HMF. Peanut shell bio-char presented the highest Higher Heating Value (7250 kcal/kg) and BET surface area (215 m2/g). In addition, co-pyrolysis reactions and the synergistic effects over obtained products completed this study. Co-pyrolysis bio-oils yields varied between 41 and 46 wt%, for all the mixtures.Bio-oil water content decreased up to 15% for rice husk mixed with peanut shell or wheat straw. Moreover, 5-HMF was detected in all bio-oils, and furfural selectivity was higher than 5% in the three mixtures investigated.