Combustion kinetics of alternative jet fuels, Part-II: Reaction model for fuel surrogate

T Kathrotia, P Oßwald, C Naumann, S Richter… - Fuel, 2021 - Elsevier
Conventional transportation fuels used in aviation (jet fuel) or in ground transportation
(gasoline, diesel) contain multitude of hydrocarbon components and are difficult to be …

Combustion kinetics of alternative jet fuels, Part-I: Experimental flow reactor study

P Osswald, J Zinsmeister, T Kathrotia… - Fuel, 2021 - Elsevier
A comprehensive collection of technical aviation fuels enabled an experimental and
numerical study on detailed combustion chemistry and pollutant formation presented in a …

Combustion kinetics of alternative jet fuels, Part-III: Fuel modeling and surrogate strategy

T Kathrotia, P Oßwald, J Zinsmeister, T Methling… - Fuel, 2021 - Elsevier
In Part III of our study on alternative aviation fuels, we present a comprehensive database of
modeled speciation data consisting of seven hydrocarbons of varying molecular structure …

Soot formation of renewable gasoline: From fuel chemistry to particulate emissions from engines

J Zinsmeister, M Storch, J Melder, S Richter, N Gaiser… - Fuel, 2023 - Elsevier
Renewable fuels are essential to meet climate protection goals, especially for decarbonizing
the existing vehicle fleet. In addition, optimized and specially designed fuels allow emissions …

Assessment of combustion properties of non-hydroprocessed Fischer-Tropsch fuels for aviation

S Jürgens, P Oßwald, M Selinsek, P Piermartini… - Fuel Processing …, 2019 - Elsevier
A demonstrative Fischer-Tropsch fuel without any cost intensive post-processing treatment
has been investigated for its application potential as a synthetic blending component with …

Utilization of CO2 in non-catalytic dry reforming of C1–C4 hydrocarbons

VI Savchenko, YS Zimin, AV Nikitin, IV Sedov… - Journal of CO2 …, 2021 - Elsevier
A kinetic and thermodynamic analysis of CO 2 utilization through non-catalytic dry (carbon
dioxide) reforming of light hydrocarbons C 1–C 4 in the temperature range of 1400–1800 K …

An experimental flow reactor study of the combustion kinetics of terpenoid jet fuel compounds: Farnesane, p-menthane and p-cymene

P Oßwald, R Whitside, J Schäffer, M Köhler - Fuel, 2017 - Elsevier
The combustion kinetics of three bio jet fuel compounds farnesane, p-menthane and p-
cymene, derived from natural terpenoids, have been investigated experimentally by an …

Modeling of aromatics formation in fuel-rich methane oxy-combustion with an automatically generated pressure-dependent mechanism

TC Chu, ZJ Buras, P Oßwald, M Liu… - Physical Chemistry …, 2019 - pubs.rsc.org
With the rise in production of natural gas, there is increased interest in homogeneous partial
oxidation (POX) to convert methane to syngas (CO+ H2), ethene (C2H4) and acetylene …

Experimental and modelling study of 1CH2 in premixed very rich methane flames

A Fomin, T Zavlev, VA Alekseev, I Rahinov… - Combustion and …, 2016 - Elsevier
Abstract Stoichiometric and very rich (1.5≤ ɸ≤ 1.9) laminar flat flames of methane have
been investigated using nonintrusive laser diagnostics. Premixed CH 4+ O 2+ N 2 flames …

An atmospheric pressure high-temperature laminar flow reactor for investigation of combustion and related gas phase reaction systems

P Oßwald, M Köhler - Review of scientific instruments, 2015 - pubs.aip.org
A new high-temperature flow reactor experiment utilizing the powerful molecular beam mass
spectrometry (MBMS) technique for detailed observation of gas phase kinetics in reacting …