Aarhus University Seal / Aarhus Universitets segl

Patrick Biller


Profile photoPatrick Biller
Junior Fellow, Postdoc
Institut for Ingeniørvidenskab - Biological and Chemical Engineering, Hangøvej
Institut for Kemi
Hangøvej 2
8200 Aarhus
Email: pbiller@eng.au.dk
Telefon: +4587153464

Ansættelser og uddannelse

Visiting Academic. Illinois Sustainable Technology Center, University of Illinois at Urbana-Champaign, USA.
Oct. 2014 → Dec. 2014

Post-Doctoral Research Assistent on project.
Jul. 2013 → Sep. 2013

PhD in Process Engineering, Energy Institute, University of Leeds.

Research at the University of Sidney. The School of Chemical and Biomolecular Engineering, Australia. Research placement through the World University Network.
Apr. 2011 → Jun. 2011

Master of Engineering, Energy and Environmental Engineering; University of Leeds, UK., Classification awarded: First Class Honours.
Sep. 2009

ERASMUS Program, Sustainable Energy Engineering, Royal Institute of Technology, Stockholm, Sweden. Two semesters.
Sep. 2007 → Sep. 2008

Undergraduate, Energy and Environmental Engineering Studies, University of Leeds. Part of an integrated 4 year Master of Engineering Degree with exchanges studies in year 3.
Sep. 2005 → Jul. 2007

German Baccalaureate, Friedrich Hecker Gymnasium Radolfzell, Germany. Scientific profile with average mark 2,7.


Screening of common synthetic polymers for depolymerization by subcritical hydrothermal liquefaction

dos Passos, J. S., Glasius, M. & Biller, P., jul. 2020, I : Process Safety and Environmental Protection. 139, s. 371-379 9 s.

Revolutionising the way we manage waste: a Danish researcher is developing a pioneering new technology able to e.g. recover all phosphorus from manure and sludge.

Biller, P., feb. 2020, Profile 2020. Bruun, J. (red.). Aarhus: Aarhus Universitet, Institut for Ingeniørvidenskab , s. 100-103

Continuous Hydrothermal Liquefaction of Biomass in a Novel Pilot Plant with Heat Recovery and Hydraulic Oscillation

Anastasakis, K., Biller, P., Madsen, R. B., Glasius, M. & Johannsen, I., 10 okt. 2018, I : Energies. 11, 10, 23 s., 2695.

Rapid Determination of Water, Total Acid Number, and Phenolic Content in Bio-Crude from Hydrothermal Liquefaction of Biomass using FT-IR

Madsen, R. B., Anastasakis, K., Biller, P. & Glasius, M., 19 jul. 2018, I : Energy & Fuels. 32, 7, s. 7660-7669 10 s.

Detailed Investigation into the Asphaltene Fraction of Hydrothermal Liquefaction Derived Bio-Crude and Hydrotreated Bio-Crudes

Bjelić, S., Yu, J., Iversen, B. B., Glasius, M. & Biller, P., 20 feb. 2018, I : Energy & Fuels. 32, 3, s. 3579-3587 9 s.

Primary sewage sludge filtration using biomass filter aids and subsequent hydrothermal co-liquefaction

Biller, P., Johannsen, I., Souza dos Passos, J. & Ottosen, L. D. M., 2018, I : Water Research. 130, s. 58-68 11 s.

Assessment of agricultural crops and natural vegetation in Scotland for energy production by anaerobic digestion and hydrothermal liquefaction

Biller, P., Lawson, D., Madsen, R. B., Becker, J., Iversen, B. B. & Glasius, M., 6 dec. 2017, I : Biomass Conversion and Biorefinery. 7, 4, s. 467-477 11 s.

Nanoparticles of Pd supported on bacterial biomass for hydroprocessing crude bio-oil

Kunwar, B., Deilami, S. D., Macaskie, L. E., Wood, J., Biller, P. & Sharma, B. K., 1 dec. 2017, I : Fuel. 209, s. 449-456 8 s.

Hydrothermal liquefaction: A promising pathway towards renewable jet fuel

Biller, P. & Roth, A., 9 aug. 2017, Biokerosene: Status and Prospects. Kaltschmitt, M. & Neuling, U. (red.). Springer, s. 607-635 29 s.

Hydrothermal co-liquefaction of biomasses - quantitative analysis of bio-crude and aqueous phase composition

Madsen, R. B., Bernberg, R. Z., Biller, P., Becker, J., Iversen, B. B. & Glasius, M., 12 apr. 2017, I : Sustainable Energy & Fuels. 1, s. 789-805 16 s.

Characterizing Semivolatile Organic Compounds of Biocrude from Hydrothermal Liquefaction of Biomass

Madsen, R. B., Zhang, H., Biller, P., Goldstein, A. H. & Glasius, M., apr. 2017, I : Energy & Fuels. 31, 4, s. 4122-4134 13 s.

The seasonal variation of fucoidan within three species of brown macroalgae

Fletcher, H. R., Biller, P., Ross, A. B. & Adams, J. M. M., 1 mar. 2017, I : Algal Research. 22, s. 79-86 8 s.

Catalytic hydrotreatment of bio-crude produced from hydrothermal liquefaction of aspen wood: A catalyst screening and parameter optimization study

Yu, J., Biller, P., Mamakhel, M. A. H., Klemmer, M., Becker, J., Glasius, M. & Iversen, B. B., 2017, I : Sustainable Energy & Fuels. 1, s. 832-841 12 s.

Predicting the Chemical Composition of Aqueous Phase from Hydrothermal Liquefaction of Model Compounds and Biomasses

Madsen, R. B., Biller, P., Jensen, M. M., Becker, J., Iversen, B. B. & Glasius, M., 15 dec. 2016, I : Energy & Fuels. 30, 12, s. 10470-10483 14 s.

Comparing quantitative analysis of bio-crude and aqueous phase from hydrothermal liquefaction of biomass

Madsen, R. B., Biller, P., Jensen, M. M. & Glasius, M., 3 nov. 2016.

Principal component analysis of bio-crude and aqueous phase from hydrothermal liquefaction of thermally and chemically pretreated Miscanthus x giganteus

Madsen, R. B., Lappa, E., Biller, P., Jensen, M. M., Becker, J., Christensen, P. R., Iversen, B. B. & Glasius, M., 31 maj 2016.

Hydrogen production from the catalytic supercritical water gasification of process water generated from hydrothermal liquefaction of microalgae

Cherad, R., Onwudili, J. A., Biller, P., Williams, P. T. & Ross, A. B., 15 feb. 2016, I : Fuel. 166, February, s. 24-28 5 s.

Effect of hydrothermal liquefaction aqueous phase recycling on bio-crude yields and composition

Biller, P., Madsen, R. B., Klemmer, M., Becker, J., Iversen, B. B. & Glasius, M., 2016, I : Bioresource Technology. 220, s. 190-199 10 s.

Production of biofuels via hydrothermal conversion

Biller, P. & Ross, A., 2016, Handbook of Biofuels Production. Luque, R., Lin, C., Wilson, K. & Clark, J. (red.). 2 udg. Woodhead Publishing, s. 509-547 39 s.

Investigation of the presence of an aliphatic biopolymer in cyanobacteria: Implications for kerogen formation

Biller, P., Ross, A. B. & Skill, S. C., 1 apr. 2015, I : Organic Geochemistry. 81, s. 64-69 6 s.