Liane Haufe
Ph.D. Student
NameM.Sc. Liane Haufe
Send encrypted email via the SecureMail portal (for TUD external users only).
Research Topic
Investigation of the direct catalytic conversion of methanol and ethanol to propylene
The aim of the project are fundamental mechanistic investigations of direct and highly selective conversion routes of methanol (C1) and ethanol (C2) to propylene (C3). By variation of catalyst material and reaction conditions, the mechanistic background and kinetics of the direct reaction route vs. complex hydrocarbon pool reactions to propylene are examined to conclude suitable process and reaction conditions for industrial application.
Publications
Paper
2024 4 Enhancing Hydrothermal Stability of ZSM-5 Cracking Additives with Aluminum Phosphates; V. Timoshev, L. A. Haufe, M. Seifert, O. Busse, Y. Wu, T. Wiegand, J. J. Weigand; Industrial & Engineering Chemistry Research, 2024, DOI: 10.1021/acs.iecr.4c01852. 3 Recycling of Spent FCC Catalysts: Conversion of Leached Residues to Zeolite ZSM-5; V. Timoshev, L. A. Haufe, O. Busse, H. Hamedi, M. Seifert, J. J. Weigand; ChemSusChem, 2024, DOI: 10.1002/cssc.202301642.
2022 2 Crucial role of silica-alumina binder mixtures for hydrocarbon cracking with ZSM-5 additives; L. A. Haufe, V. Timoshev, M. Seifert, O. Busse, J. J. Weigand; ACS Omega, 2022, 7, 44892.
2021 1 Deactivation kinetics of ZSM-5 by coke in ethanol to hydrocarbons process; M. Seifert, C. Jonscher, L. A. Haufe, J. J. Weigand; Chem.-Ing-Tech., 2021, 93, 747.
Poster
2023 1 Crucial role of silica-alumina binder mixtures for hydrocarbon cracking with ZSM-5 containing catalysts; L.A. Haufe, V. Timoshev, M. Seifert, O. Busse, J. J. Weigand; 56. Jahrestreffen Deutscher Katalytiker; Weimar, 2023.