Dr. Peter Hintermeier
Alumni
Catalysis Research Center and Chemistry Department
Technische Universität München
Lichtenbergstraße 4
85748 Garching, Germany
Email: peter.hintermeier(at)tum.de
Curriculum
| 11/2013 - 6/2017: | PhD Student, Lehrstuhl für Technische Chemie II (Prof. Dr. J. A. Lercher), Technische Universität München |
| 2011 - 2013: | Master of Science (Chemistry; Subjects: Chemical Engineering and Organic Chemistry), Technische Universität München |
| 2008 - 2011: | Bachelor of Science (Chemistry), Technische Universität München |
Upgrading of bio-oil to transportation fuels
Bio-oil, produced by fast pyrolysis or liquefaction of lignocellulosic biomass, is an aqueous, highly oxofunctionalized (but nearly sulfur-free) mixture of light-to-medium hydrocarbons containing 15–30 wt% water. Although it is considered to be a promising basis for second-generation energy carriers, the corrosive nature, low vapor pressure, high viscosity, and instability of bio-oil limit its direct application. When it is directly burned in diesel engines, bio-oil has ignition difficulties owing to its low heating value, and the thermally unstable components leading to excessive coking. In principle, the production of high-grade transportation fuels from bio-oil is feasible by hydrogenation and hydrodeoxygenation (HDO). As pyrolysis oil contains high concentrations of water along with the reactive oxygen-containing compounds, it is highly beneficial to convert the aqueous mixture under mild conditions with water-tolerant catalysts. The good solubility of hydrogen in water and the phase separation between the aqueous phase and the hydrocarbons produced, are further advantages for this approach.
C. Zhao, J. A. Lercher, Angew. Chem. 2012, 124, 6037 – 6042.
Publications
P. H. Hintermeier, S. Eckstein, D. Mei, M. V. Olarte, D. M. Camaioni, E. Barath, J. A. Lercher, ACS Catal. 2017, 7, 7822 - 7829. "Hydronium-Ion-Catalyzed Elimination Pathways of Substituted Cyclohexanols in Zeolite H-ZSM5".
S. Eckstein, P.H. Hintermeier, M.V. Olarte, Y. Liu, E. Baràth, J.A. Lercher, J. Catal 352 (2017). "Elementary steps and reaction pathways in aqueous phase alkylation of phenol with ethanol"
29. Deutsche Zeolith-Tagung, 2017, Frankfurt am Main. "Zeolite catalyzed dehydration of cyclic alcohols in aqueous phase" P.H. Hintermeier, S. Eckstein, Y. Liu, E. Baráth, J.A. Lercher, oral presentation.
50. Jahrestreffen Deutscher Katalytiker, 2017, Weimar "Aqueous phase dehydration of substituted cyclohexanols" P.H. Hintermeier, S. Eckstein, Y. Liu, E. Baráth, J.A. Lercher, poster (poster prize winner).
49. Jahrestreffen Deutscher Katalytiker, 2016, Weimar "Catalytic upgrading of pyrolysis bio-oil in aqueous phase - Deoxygenation of hydrogenated phenol derivates" P.H. Hintermeier, S. Eckstein, Felix M. Kirchberger, E. Baráth, J.A. Lercher, poster.
27. Deutsche Zeolith-Tagung, 2015, Oldenburg. "Zeolite catalyzed aqueous phase upgrading of pyrolysis oil" P.H. Hintermeier, S. Eckstein, Y. Liu, E. Baráth, J.A. Lercher, poster.