Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
682221 | Bioresource Technology | 2011 | 8 Pages |
A complete process for the production of bioethanol and fungal biomass from spruce and birch was investigated. The process included milling, pretreatment with N-methylmorpholine-N-oxide (NMMO), washing of the pretreated wood, enzymatic hydrolysis, and cultivation of the zygomycetes fungi Mucor indicus. Investigated factors included wood chip size (0.5–16 mm), pretreatment time (1–5 h), and scale of the process from bench-scale to 2 m high air-lift reactor. Best hydrolysis yields were achieved from wood chips below 2 mm after 5 h of pretreatment. Ethanol yields (mg/g wood) of 195 and 128 for spruce, and 175 and 136 for birch were achieved from bench-scale and airlift, respectively. Fungal biomass yields (mg/g wood) of 103 and 70 for spruce, and 86 and 66 for birch from bench scale and airlift respectively were simultaneously achieved. NMMO pretreatment and cultivation with M. indicus appear to be a good alternative for ethanol production from birch and spruce.
Research highlights► NMMO pretreatment of wood results in high yields of bioethanol and fungal biomass. ► The process works well both in bench-scale and in pilot airlift. ► Wood chip size should be kept below 2 mm. ► Pretreatment with NMMO should be done for 5 h.