282501 Thermal Conversion of Lignin to Transportation Fuels and Chemicals Through Formate Assisted Fast Pyrolysis

Monday, October 29, 2012: 2:18 PM
322 (Convention Center )
Saikrishna Mukkamala, William J. DeSisto, M. Clayton Wheeler and Adriaan van Heiningen, Chemical engineering, University of maine, orono, ME

Thermal conversion of lignin to transportation fuels and chemicals through formate assisted fast pyrolysis

Biomass currently supplies 14% of the world’s energy need. Forest biomass is comprised of cellulose, hemicellulose and lignin. Cellulose and hemicellulose are used in pulping industries, however lignin is essentially considered as a waste product, which is burned for energy. We are introducing a novel green process, Formate Assisted Fast Pyrolysis (FAFP) that is very effective in producing liquid fuels and value-added chemicals from lignin. In this method, lignin is mixed with formate salts and pyrolyzed at 500°C in a fluidized bed reactor. The addition of calcium formate to lignin prior to fast pyrolysis results in deoxyhydrogenation of the lignin during pyrolysis. The calcium formate thermally decomposes in the inert atmosphere to hydrogen and carbon monoxide that facilitates the chemical transformation in-situ. The process occurs at atmospheric pressure and without catalysts. There are several immediate benefits to this method for fast pyrolysis of lignins including improvements in lignin feeding to the pyrolysis reactor, an increase in liquid yield, and an increase in the carbon yield in the oil phase of the liquid product. The primary products of this method are alkylated phenols. GC-MS analysis indicated that methoxy groups were removed from the lignin with the addition of calcium formate. Bio- oils, which were collected, have very low oxygen content, and high heat values of 41MJ/Kg approaching crude oil. Results from this method will be presented and evaluated with respect to the advantages relative to competing technologies.

Extended Abstract: File Not Uploaded
See more of this Session: Biomass Pyrolysis II - Fundamentals and Analysis
See more of this Group/Topical: Fuels and Petrochemicals Division