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Aud M. Bouzga
Researcher at SINTEF
Publications - 21
Citations - 1273
Aud M. Bouzga is an academic researcher from SINTEF. The author has contributed to research in topics: Adsorption & Catalysis. The author has an hindex of 11, co-authored 21 publications receiving 1142 citations.
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Evaluation of various types of Al-MCM-41 materials as catalysts in biomass pyrolysis for the production of bio-fuels and chemicals
TL;DR: In this article, the mesopores of MCM-41 materials have been evaluated as potential catalysts in the catalytic biomass pyrolysis process and it was found that the presence of the MCM41 material alters significantly the quality of the pyrotechnic products.
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In situ catalytic upgrading of biomass derived fast pyrolysis vapours in a fixed bed reactor using mesoporous materials
Judit Adam,E.V. Antonakou,Angelos A. Lappas,Michael Stöcker,Merete Hellner Nilsen,Aud M. Bouzga,Johan E. Hustad,Gisle Øye +7 more
TL;DR: In situ catalytic upgrading of biomass derived fast pyrolysis vapours in a fixed bed reactor using mesoporous materials is described in this article, where a fixed-bed reactor is used.
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Pyrolysis of biomass in the presence of Al-MCM-41 type catalysts
Judit Adam,Marianne Blazsó,Erika Mészáros,Michael Stöcker,Merete Hellner Nilsen,Aud M. Bouzga,Johan E. Hustad,Morten Grønli,Gisle Øye +8 more
TL;DR: In this article, the catalytic properties of Al-MCM-41 type mesoporous catalysts were modified by pore enlargement that allows the processing of larger molecules and by introduction of Cu cations into the structure.
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Investigation of the effect of metal sites in Me–Al-MCM-41 (Me = Fe, Cu or Zn) on the catalytic behavior during the pyrolysis of wooden based biomass
Merete Hellner Nilsen,Merete Hellner Nilsen,E.V. Antonakou,Aud M. Bouzga,Angelos A. Lappas,Karina Mathisen,Michael Stöcker +6 more
TL;DR: In this article, the mesoporous material Al-MCM-41 has been reported to exhibit interesting catalytic properties during the pyrolysis of wooden-based biomass, and the results showed that the type of metal is of more importance than the metal siting.
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Formation of biocompatible nanocapsules with emulsion core and pegylated shell by polyelectrolyte multilayer adsorption
Krzysztof Szczepanowicz,H. J. Hoel,Lilianna Szyk-Warszyńska,E. Bielańska,Aud M. Bouzga,G. Gaudernack,Christian Simon,Piotr Warszyński +7 more
TL;DR: These nanocapsules were biocompatible when tested for cytotoxicity in a cellular coculture assay and demonstrated no or very low nonspecific binding to peripheral blood mononuclear cells when tested by flow cytometry.