Sunday, May 4, 2008
3-66
Pretreatment and Fractionation of Corn Stover by S.E.A.A. (Soaking In Ethanol and Aqueous Ammonia)
Tae Hyun Kim1, John Nghiem2, and Kevin, B. Hicks2. (1) Agricultural and Biosystems Engineering, Iowa State University, 3101 NSRIC, Ames, IA 50011, (2) Eastern Regional Research Center, USDA-ARS, 600 E. Mermaid Lane, Wyndmoor, PA 19038
Soaking in Aqueous Ammonia (SAA) has been proven to be an effective pretreatment method for lignocellulosic biomass. SAA is only one of the few methods for pretreatment of biomass in which almost 100% glucan and greater than 80% xylan are retained whereas a significant percentage of lignin is removed. Despite this high efficiency in carbohydrate preservation still about 20% xylan is solubilized together with lignin and hence is not available for conversion to ethanol in the subsequent fermentation step.
We have developed a modification of the SAA method, a Soaking in Ethanol and Aqueous Ammonia method (SEAA), to reduce the loss of xylan due to solubilization. In this method ethanol is added to the aqueous ammonia solution. The presence of ethanol causes re-precipitation of the previously solubilized xylan onto the solid matrix. Thus more xylan is available for conversion to ethanol. The ethanol used in the pretreatment process can be recovered and recycled. In addition to increased availability of the carbohydrates for ethanol production, the solubilized lignin theoretically can be recovered in relatively pure form and converted to high-value products. Re-precipitation of the solubilized xylan does not affect the bioconversion efficiency of the pretreated biomass. The results of pretreatment and fractionation of corn stover will be discussed.
We have developed a modification of the SAA method, a Soaking in Ethanol and Aqueous Ammonia method (SEAA), to reduce the loss of xylan due to solubilization. In this method ethanol is added to the aqueous ammonia solution. The presence of ethanol causes re-precipitation of the previously solubilized xylan onto the solid matrix. Thus more xylan is available for conversion to ethanol. The ethanol used in the pretreatment process can be recovered and recycled. In addition to increased availability of the carbohydrates for ethanol production, the solubilized lignin theoretically can be recovered in relatively pure form and converted to high-value products. Re-precipitation of the solubilized xylan does not affect the bioconversion efficiency of the pretreated biomass. The results of pretreatment and fractionation of corn stover will be discussed.
See more of Poster Session One
See more of General Submissions
See more of The 30th Symposium on Biotechnology for Fuels and Chemicals (May 4 -- 7, 2008)
See more of General Submissions
See more of The 30th Symposium on Biotechnology for Fuels and Chemicals (May 4 -- 7, 2008)