Oxidative torrefaction for cleaner utilization of biomass for soil amendment
Author(s)
Thengane, Sonal K; Kung, Kevin S; Gupta, Ankita; Ateia, Mohamed; Sanchez, Daniel L; Mahajani, Sanjay M; Lim, C Jim; Sokhansanj, Shahabaddine; Ghoniem, Ahmed F; ... Show more Show less
DownloadPublished version (2.547Mb)
Publisher with Creative Commons License
Publisher with Creative Commons License
Creative Commons Attribution
Terms of use
Metadata
Show full item recordAbstract
Growing concerns of emissions from wildfires and burning of crop residues demand cleaner and efficient technologies to convert and utilize this residual biomass. The present study demonstrates a pilot scale moving bed biomass torrefaction reactor operating in oxidative medium to produce biochar for soil amendment. A series of experiments are conducted on pine shavings and rice husk, at conditions corresponding to different values of index of torrefaction (Itorr), ratio of higher heating value of torrefied biomass (i.e. biochar) to that of raw biomass. Air-biomass equivalence ratio dominantly governs the operating temperature and affects torrefaction more than the residence time. Product yields of scaled-up reactor differed from those of a smaller bench-top reactor, primarily because of differences in heat transfer within reactor and losses to the surrounding. A relatively linear relationship of Itorr is observed with biochar properties such as specific surface area, water retention capacity, bulk density, and electrical conductivity. When tested for soil amendment, the raw biomass and biochar treatments reduced soil pH by 0.2–0.3 in a season, with lowest pH values in case of pine shavings. Estimated nitrogen release and organic matter decreased with increasing Itorr, but most amendments had no significant effect on seed germination and the number of green shoots. Comparatively, heavy torrefied biomass treatments showed highest shoot heights and crop yield followed by light torrefied or raw biomass and control. Successful demonstration of a pilot scale reactor and encouraging effects on soil and plant growth suggest that commercial-scale oxidative torrefaction of various residual biomass is possible for soil amendment application.
Date issued
2020Department
Massachusetts Institute of Technology. Department of Mechanical EngineeringJournal
Cleaner Engineering and Technology
Publisher
Elsevier BV
Citation
Thengane, Sonal K, Kung, Kevin S, Gupta, Ankita, Ateia, Mohamed, Sanchez, Daniel L et al. 2020. "Oxidative torrefaction for cleaner utilization of biomass for soil amendment." Cleaner Engineering and Technology, 1.
Version: Final published version