Publikationsliste

Ammonia combustion and emissions in practical applications: a review
Alnajideen, M.; Shi, H.; Northrop, W.; Emberson, D.; Kane, S.; Czyzewski, P.; Alnaeli, M.; Mashruk, S.; Rouwenhorst, K.; Yu, C.; Eckart, S.; Valera-Medina, A.
2024. Carbon Neutrality, 3 (1), Art.-Nr.: 13. doi:10.1007/s43979-024-00088-6

Numerical Analysis of the Reacting Flow in a Spherical Jet Stirred Reactor. Dissertation
Esmaeelzade, G.
2024, November 5. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000175863

Perspectives on NOx Emissions and Impacts from Ammonia Combustion Processes
Mashruk, S.; Shi, H.; Mazzotta, L.; Ustun, C. E.; Aravind, B.; Meloni, R.; Alnasif, A.; Boulet, E.; Jankowski, R.; Yu, C.; Alnajideen, M.; Paykani, A.; Maas, U.; Slefarski, R.; Borello, D.; Valera-Medina, A.
2024. Energy & Fuels, 38 (20), 19253–19292. doi:10.1021/acs.energyfuels.4c03381

An experimental and modeling study on extinction strain rate in C2Hx flames with varied oxygen content
Eckart, S.; Yu, C.; Lin, S.; Maas, U.; Krause, H.; Yang, B.
2024. Journal of the Energy Institute, 116, 101702. doi:10.1016/j.joei.2024.101702

NLO corrections to zero-jettiness soft function
Pikelner, A.; Wang, C.-Y.
2024. Loops and Legs in Quantum Field Theory (LL2024), Wittenberg, 14th-19th April 2024, Art.-Nr.: 63, Scuola Internazionale Superiore di Studi Avanzati (SISSA)

Comprehensive Assessment of STGSA Generated Skeletal Mechanism for the Application in Flame-Wall Interaction and Flame-Flow Interaction
Yu, C.; Yang, B.
2024. Journal of Thermal Science, 33 (5), 1946–1960. doi:10.1007/s11630-024-1993-1

Steady laminar stagnation flow NH3-H2-air flame at a plane wall: Flame extinction limit and its influence on the thermo-mechanical stress and corrosive behavior of wall materials
Yu, C.; Srikanth, S.; Böhlke, T.; Gorr, B.; Maas, U.
2024. Applications in Energy and Combustion Science, 18, 100261. doi:10.1016/j.jaecs.2024.100261

Reaktionskinetische Untersuchungen an oxygenierten Kohlenwasserstoffen und Phosphorverbindungen. Dissertation
Wenz, J.
2024, Mai 6. Cuvillier Verlag

Improved Switchable Heat Pipe Based on Adsorption: Against-Gravity Operation and Enhanced Dynamics
Boda, S.; Winkler, M.; Schießl, R.; Teicht, C.; Schwarz, D.; Schipper, J.; Bartholomé, K.; Schäfer-Welsen, O.; Pappert, S.
2024. Energies, 17 (9), Art.-Nr.: 2088. doi:10.3390/en17092088

Application of Reaction-Diffusion Manifolds (REDIM) for the Simulation of Laminar Diffusion Flames. Dissertation
Li, N.
2024, April 8. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000169704

Ignition characteristics of hydrogen-enriched ammonia/air mixtures
Essmann, S.; Dymke, J.; Höltkemeier-Horstmann, J.; Möckel, D.; Schierding, C.; Hilbert, M.; Yu, C.; Maas, U.; Markus, D.
2024. Applications in Energy and Combustion Science, 17, Art.-Nr.: 100254. doi:10.1016/j.jaecs.2024.100254

Activation Energy of Hydrogen–Methane Mixtures
Moroshkina, A.; Ponomareva, A.; Mislavskii, V.; Sereshchenko, E.; Gubernov, V.; Bykov, V.; Minaev, S.
2024. Fire, 7 (2), Art.-Nr.: 42. doi:10.3390/fire7020042

The performance of reaction mechanism in prediction of the characteristics of the diffusive-thermal oscillatory instability of methane–hydrogen–air burner-stabilized flames
Moroshkina, A.; Yakupov, E.; Mislavskii, V.; Sereshchenko, E.; Polezhaev, A.; Minaev, S.; Gubernov, V.; Bykov, V.
2024. Acta Astronautica, 215, 496 – 504. doi:10.1016/j.actaastro.2023.12.032

Stochastic Modeling of Partially Stirred Reactor (PaSR) for the Investigation of the Turbulence-Chemistry Interaction for the Ammonia-Air Combustion
Yu, C.; Cai, L.; Chen, J.-Y.
2024. Flow, Turbulence and Combustion, 112 (2), 509–536. doi:10.1007/s10494-023-00501-7

Mathematical thermo‐mechanical analysis on flame‐solid interaction: Steady laminar stagnation flow flame stabilized at a plane wall coupled with thermo‐elasticity model
Yu, C.; Malayeri, M. M.; Böhlke, T.; Chen, Z.; Minuzzi, F.
2024. ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, Art.-Nr.: e202400554. doi:10.1002/zamm.202400554

Experimental and numerical investigation of the induced ignition process in ammonia/air and ammonia/hydrogen/air mixtures
Wu, C.; Chen, Y.-R.; Mai, V. T.; Schießl, R.; Shy, S. (.; Yu, C.; Maas, U.
2024. Proceedings of the Combustion Institute, 40 (1-4), 105466. doi:10.1016/j.proci.2024.105466

LES of turbulent partially-premixed flames using reaction–diffusion manifold-reduced chemistry with a consistent gradient estimate determined “on the fly”
Shrotriya, P.; Schießl, R.; Bykov, V.; Maas, U.
2024. Proceedings of the Combustion Institute, 40 (1-4), Art-Nr.: 105273. doi:10.1016/j.proci.2024.105273

Effect of differential diffusion on head-on quenching of premixed NH 3 /H 2 /air flames within turbulent boundary layers
Chi, C.; Yu, C.; Cuenot, B.; Maas, U.; Thévenin, D.
2024. Proceedings of the Combustion Institute, 40 (1-4), 105276. doi:10.1016/j.proci.2024.105276

Numerical Study of Premixed PODE3-4/CH4 Flames at Engine-Relevant Conditions
Leng, Y.; Ji, X.; Zhang, C.; Simms, N.; Dai, L.; Yu, C.
2024. Fuels, 5 (1), 90–106. doi:10.3390/fuels5010006

Relaxational oscillations of burner-stabilized premixed methane–air flames
Volkov, D.; Moroshkina, A.; Mislavskii, V.; Sereshchenko, E.; Gubernov, V.; Bykov, V.; Minaev, S.
2024. Combustion and Flame, 259, 113141. doi:10.1016/j.combustflame.2023.113141

Determining the global activation energy of methane–air premixed flames
Moroshkina, A. D.; Ponomareva, A. A.; Mislavskii, V. V.; Sereshchenko, E. V.; Gubernov, V. V.; Bykov, V. V.; Minaev, S. S.
2023. Combustion Theory and Modelling, 27 (7), 909–924. doi:10.1080/13647830.2023.2245380

Numerical Investigation on the Head-on Quenching (HoQ) of Laminar Premixed Lean to Stoichiometric Ammonia–Hydrogen-Air Flames
Yu, C.; Cai, L.; Chi, C.; Mashruk, S.; Valera-Medina, A.; Maas, U.
2023. Flow, Turbulence and Combustion, 111 (4), 1301–1322. doi:10.1007/s10494-023-00489-0

Influence of the chemical kinetics on the prediction of turbulent non-premixed jet CH flames
Yu, C.; Cai, L.; Chopra, L.; Minuzzi, F.; Maas, U.
2023. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 45 (10), Art.Nr.: 525. doi:10.1007/s40430-023-04444-y

Effects of ozone addition on the kinetics and efficiencies of methane conversion at fuel-rich conditions
Xie, W.; Drost, S.; Schießl, R.; Maas, U.
2023. Applications in Energy and Combustion Science, 15, Art.-Nr.: 100157. doi:10.1016/j.jaecs.2023.100157

GQL-RedChem: A MatLAB-based tool for the model reduction for chemical kinetics based on the Global Quasi-linearisation (GQL) approach
Yu, C.; Bykov, V.
2023. Software impacts, 17, Art.-Nr.: 100555. doi:10.1016/j.simpa.2023.100555

Experimentelle und numerische Untersuchung der kryogenen Kühlung für Fertigungsprozesse. Dissertation
Golda, P.
2023, Juli 6. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000160172

Investigation of spark ignition processes of laminar strained premixed stoichiometric NH₃-H₂-air flames
Yu, C.; Eckart, S.; Essmann, S.; Markus, D.; Valera-Medina, A.; Schießl, R.; Shu, B.; Krause, H.; Maas, U.
2023. Journal of Loss Prevention in the Process Industries, 83, Article no: 105043. doi:10.1016/j.jlp.2023.105043

Numerical study of flow srtucture (mixing process and rectivity) of diluted hydrogen non-premixed supersonic combustion system
Ashirova, G. A.; Beketaeva, A. O.; Naimanova, A. Z.; Bykov, V.
2023. International Journal of Mathematics and Physics, 14 (1), 32–44. doi:10.26577/ijmph.2023.v14.i1.05

Multi compression–expansion process for chemical energy conversion: Transformation of methane to unsaturated hydrocarbons and hydrogen
Drost, S.; Schießl, R.; Maas, U.
2023. Applications in Energy and Combustion Science, 14, Art.-Nr.: 100129. doi:10.1016/j.jaecs.2023.100129

Untersuchungen von Energie- und Stoffumwandlungsprozessen in einer schnellen Kompressions-Expansions-Maschine. Dissertation
Drost, S.
2023, Mai 11. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000158535

Flame–Solid Interaction: Thermomechanical Analysis for a Steady Laminar Stagnation Flow Stoichiometric NH 3 –H 2 Flame at a Plane Wall
Yu, C.; Böhlke, T.; Valera-Medina, A.; Yang, B.; Maas, U.
2023. Energy & Fuels, 37 (4), 3294–3306. doi:10.1021/acs.energyfuels.2c03804

Burner stabilized flames: Towards reliable experiments and modelling of transient combustion
Moroshkina, A.; Mislavskii, V.; Kichatov, B.; Gubernov, V.; Bykov, V.; Maas, U.
2023. Fuel, 332 (2), Art.-Nr.: 125754. doi:10.1016/j.fuel.2022.125754

Autoignition Problem in Homogeneous Combustion Systems: GQL versus QSSA Combined with DRG
Yu, C.; Shashidharan, S.; Wu, S.; Minuzzi, F.; Bykov, V.
2023. Modelling, 4 (4), 470–484. doi:10.3390/modelling4040027

Numerical Study on the Combustion Properties of Ammonia/DME and Ammonia/DMM Mixtures
Zhang, Y.; Wang, Q.; Dai, L.; Zhang, M.; Yu, C.
2023. Energies, 16 (19), Article no: 6929. doi:10.3390/en16196929

An iterative methodology for REDIM reduced chemistry generation and its validation for partially-premixed combustion
Shrotriya, P.; Schießl, R.; Yu, C.; Bykov, V.; Zirwes, T.; Maas, U.
2023. Combustion Theory and Modelling, 1–34. doi:10.1080/13647830.2023.2260350

Combustion Characteristics of a Novel Ammonia Combustor equipped with Stratified Injection for Low Emissions
Mashruk, S.; Alnasif, A.; Yu, C.; Thatcher, J.; Rudman, J.; Peronski, L.; Meng-Choung, C.; Valera-Medina, A.
2023. Journal of Ammonia Energy, 1 (1), 22–32. doi:10.18573/jae.10

Numerical and Experimental Investigations of CH4/H2 Mixtures: Ignition Delay Times, Laminar Burning Velocity and Extinction Limits
Drost, S.; Eckart, S.; Yu, C.; Schießl, R.; Krause, H.; Maas, U.
2023. Energies, 16 (6), 2621. doi:10.3390/en16062621

Reaction-Diffusion Manifolds (REDIM) Method for Ignition by Hot Gas and Spark Ignition Processes in Counterflow Flame Configurations
Yu, C.; Maas, U.
2023. Combustion science and technology, 195 (10), 2400–2422. doi:10.1080/00102202.2021.2019243

Numerical study on spark ignition of laminar lean premixed methane-air flames in counterflow configuration
Yu, C.; Markus, D.; Schießl, R.; Maas, U.
2023. Combustion science and technology, 195 (9), 2085–2109. doi:10.1080/00102202.2021.2008919

Assessing ignitions of explosive gas mixtures by low-energetic electrical discharges using OH-LIF and 1D-simulations
Kummer, J.-R.; Essmann, S.; Markus, D.; Grosshans, H.; Maas, U.
2023. Combustion science and technology, 195 (1), 1–23. doi:10.1080/00102202.2021.1931153

REDIM based model reduction of the decomposition of urea-water-solutions in films and droplets
Berszany, E.; Stein, M.; Bykov, V.; Maas, U.
2022. ECCOMAS Congress 2022 - 8th European Congress on Computational Methods in Applied Sciences and Engineering, International Centre for Numerical Methods in Engineering (CIMNE). doi:10.23967/eccomas.2022.230

The hierarchy of low-dimensional manifolds in the context of multiple mapping conditioning mixing model
Yu, C.; Breda, P.; Pfitzner, M.; Maas, U.
2022. Proceedings of the Combustion Institute, 39 (2), 2299–2308. doi:10.1016/j.proci.2022.10.008

Numerical and experimental studies on minimum ignition energies in primary reference fuel/air mixtures
Wu, C.; Chen, Y.-R.; Schießl, R.; Shy, S. (.; Maas, U.
2022. Proceedings of the Combustion Institute, 39 (2), 1987–1996. doi:10.1016/j.proci.2022.08.043

A manifold-based reduction method for side-wall quenching considering differential diffusion effects and its application to a laminar lean dimethyl ether flame
Luo, Y.; Strassacker, C.; Ferraro, F.; Zentgraf, F.; Dreizler, A.; Maas, U.; Hasse, C.
2022. International Journal of Heat and Fluid Flow, 97, Art.-Nr.: 109042. doi:10.1016/j.ijheatfluidflow.2022.109042

An improved reduced model for the evaporation and decomposition of urea-water solution (UWS) droplets
Berszány, E.; Stein, M.; Bykov, V.; Maas, U.
2022. Proceedings of the Combustion Institute, 39 (4), 4553–4561. doi:10.1016/j.proci.2022.07.041

Modellreduktion für Reaktions-Transport-Systeme im Abgasstrang. Dissertation
Stein, M.
2022, August 24. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000149963

Global Quasi-Linearization (GQL) for Model Reduction of Reaction Diffusion Systems
Bykov, V.; Yu, C.; Gol’dshtein, V.; Maas, U.
2022. ICDERS 2022

CO₂/CH₄ Conversion to synthesis gas (CO/H₂) in an internal combustion engine
Drost, S.; Xie, W.; Schießl, R.; Maas, U.
2022. Proceedings of the Combustion Institute, 39 (4), 4519–4527. doi:10.1016/j.proci.2022.07.033

Improvement of the Global Quasi-Linearisation (GQL) Model Reduction Method
Bykov, V.; Yu, C.; Maas, U.
2022. ICDERS 2022

Sensitivity of Reaction-Diffusion Manifolds (REDIM) for Hydrogen Counter-Diffusion Flames
Bykov, V.; Maas, U.
2022. doi:10.5445/IR/1000158325

Investigation of safety related ignition processes of laminar strained premixed NH-H-air flames
Yu, C.; Eckart, S.; Essmann, S.; Markus, D.; Valera-Medina, A.; Schießl, R.; Shu, B.; Krause, H.; Maas, U.
2022. Proceedings of the 14th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (ISHPMIE 2022)

Ridge-based reaction zone characterisation in non-premixed flames
Schießl, R.; Bykov, V.
2022. Combustion and Flame, 241, Art.-Nr.: 112135. doi:10.1016/j.combustflame.2022.112135

Ignition delay time measurements of methane and methane/ethane/propane mixtures with addition of ozone
Drost, S.; Schießl, R.; Maas, U.
2022. 28th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS 2022), Napoli, Italy, 19. - 24. June, 2022

Hydrogen-oxygen flame acceleration in narrow open ended channels
Bykov, V.; Koksharov, A.; Kuznetsov, M.; Zhukov, V. P.
2022. Combustion and Flame, 238, Art.-Nr.: 111913. doi:10.1016/j.combustflame.2021.111913

Modeling the decomposition of urea-water-solution in films and droplets under SCR conditions with chemistry in the liquid phase
Stein, M.; Bykov, V.; Kuntz, C.; Börnhorst, M.; Deutschmann, O.; Maas, U.
2022. International journal of heat and fluid flow, 94, Art.-Nr.: 108936. doi:10.1016/j.ijheatfluidflow.2022.108936

Parametric analysis of Velocity Conditioned Modified Curl’s Model (VC-MCM) in the PDF method for Turbulent Non-Premixed Flames
Chopra, L.; Yu, C.
2022. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000142526

Three-dimensional structure of freely-propagating flame prior to deflagration-to-detonation transition
Kiverin, A.; Medvedkov, I.; Yakovenko, I.; Bykov, V.
2022. Acta Astronautica, 204, 686–691. doi:10.1016/j.actaastro.2022.10.001

A comprehensive kinetic modeling of oxymethylene ethers (OMEn, n=1–3) oxidation - laminar flame speed and ignition delay time measurements
Shrestha, K. P.; Eckart, S.; Drost, S.; Fritsche, C.; Schießl, R.; Seidel, L.; Maas, U.; Krause, H.; Mauss, F.
2022. Combustion and Flame, 246, Art.-Nr.: 112426. doi:10.1016/j.combustflame.2022.112426

Model reduction on the fly: Simultaneous identification and application of reduced kinetics for the example of flame-wall interactions
Luo, Y.; Strassacker, C.; Maas, U.; Hasse, C.
2022. Proceedings of the Combustion Institute, 39 (4), 5239–5248. doi:10.1016/j.proci.2022.07.227

Reduced modeling of the NOx formation based on the reaction-diffusion manifolds method for counterflow diffusion flames
Yu, C.; Shrotriya, P.; Li, X.; Maas, U.
2022. Proceedings of the Combustion Institute, 39 (2), 1587–1596. doi:10.1016/j.proci.2022.08.010

Study of mechanism of ammonia decomposition and oxidation: From NOx reduction to ammonia auto-ignition problem
Bykov, V.; Stein, M.; Maas, U.
2022. Proceedings of the Combustion Institute, 39 (4), 4267–4275. doi:10.1016/j.proci.2022.07.048

Recent advances in direct air capture by adsorption
Zhu, X.; Xie, W.; Wu, J.; Miao, Y.; Xiang, C.; Chen, C.; Ge, B.; Gan, Z.; Yang, F.; Zhang, M.; O’Hare, D.; Li, J.; Ge, T.; Wang, R.
2022. Chemical Society Reviews, 51 (15), 6574–6651. doi:10.1039/D1CS00970B

Intrinsic Low-Dimensional Manifold (ILDM)-based concept for the coupling of turbulent mixing with manifold-based simplified chemistry for the turbulent flame simulation
Yu, C.; Shrotriya, P.; Maas, U.
2022. Physics of Fluids, 34 (8), Art.Nr. 085101. doi:10.1063/5.0098974

Numerical and Analytical Assessment of Finite Rate Chemistry Models for LES of Turbulent Premixed Flames
Liu, H.; Yin, Z.; Xie, W.; Zhang, B.; Le, J.; Liu, H.
2022. Flow, Turbulence and Combustion, 109 (2), 435–458. doi:10.1007/s10494-022-00329-7

Combustion features of CH₄/NH₃/H₂ ternary blends
Mashruk, S.; Vigueras-Zuniga, M. O.; Tejeda-del-Cueto, M. E.; Xiao, H.; Yu, C.; Maas, U.; Valera-Medina, A.
2022. International Journal of Hydrogen Energy, 47 (70), 30315–30327. doi:10.1016/j.ijhydene.2022.03.254

Extension of the Reaction-Diffusion Manifold method to systems with ionization
Strassacker, C.; Maas, U.
2022. Combustion and Flame, 243, Art.-Nr.: 112066. doi:10.1016/j.combustflame.2022.112066

Reaction-Diffusion Manifolds including differential diffusion applied to methane/air combustion in strong extinction regimes
Breda, P.; Yu, C.; Maas, U.; Pfitzner, M.
2022. Combustion theory and modelling, 26 (3), 451–481. doi:10.1080/13647830.2022.2029947

Sensitivity of reaction–diffusion manifolds (REDIM) method with respect to the gradient estimate
Yu, C.; Maas, U.
2022. Combustion theory and modelling, 26 (3), 482–512. doi:10.1080/13647830.2022.2030494

Model Reduction of Rich Premixed Hydrogen/air Oscillatory Flames by Global Quasi-Linearization (GQL)
Bykov, V.; Shashidharan, S.; Berszany, E.; Gubernov, V.; Maas, U.
2022. Combustion science and technology, 194 (12), 2377–2394. doi:10.1080/00102202.2020.1869729

Experimental investigation of the cryogenic -cooling performance for an impinging jet configuration for different inflow conditions
Golda, P.; Lettner, N.; Schießl, R.; Maas, U.
2021. International journal of heat and mass transfer, 180, Art.-Nr. 121776. doi:10.1016/j.ijheatmasstransfer.2021.121776

Numerical studies on minimum ignition energies in methane/air and iso-octane/air mixtures
Wu, C.; Schießl, R.; Maas, U.
2021. Journal of loss prevention in the process industries, 72, Art. Nr.: 104557. doi:10.1016/j.jlp.2021.104557

Experimental Investigation of Ethanol Oxidation and Development of a Reduced Reaction Mechanism for a Wide Temperature Range
Drost, S.; Kaczmarek, D.; Eckart, S.; Herzler, J.; Schießl, R.; Fritsche, C.; Fikri, M.; Atakan, B.; Kasper, T.; Krause, H.; Schulz, C.; Maas, U.
2021. Energy & fuels, 35 (18), 14780–14792. doi:10.1021/acs.energyfuels.1c01993

Experimental and numerical investigations on extinction strain rates in non-premixed counterflow methane and propane flames in an oxygen reduced environment
Eckart, S.; Yu, C.; Maas, U.; Krause, H.
2021. Fuel, 298, 120781. doi:10.1016/j.fuel.2021.120781

Modelling and Numerical Simulation of Turbulent Reactive Flows (Modellierung und numerische Simulation turbulenter reaktiver Strömungen). Bachelorarbeit
Chopra, L.
2021, Juli 15. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000136300

Ignition delay times of methane/diethyl ether (DEE) blends measured in a rapid compression machine (RCM)
Drost, S.; Werler, M.; Schießl, R.; Maas, U.
2021. Journal of loss prevention in the process industries, 71, Art.-Nr.: 104430. doi:10.1016/j.jlp.2021.104430

Simulation of side-wall quenching of laminar premixed flames with manifold-based reduced kinetic models implemented in generalised coordinates
Luo, Y.; Strassacker, C.; Hasse, C.; Maas, U.
2021. Combustion theory and modelling, 25 (4), 669–694. doi:10.1080/13647830.2021.1933603

Investigation of a multi-phase combustion system with Raman spectroscopy
Zenk, M.; Schießl, R.
2021, April 15. 10th European Combustion Meeting (ECM 2021), Online, 14.–15. April 2021

Experimental and Numerical Investigations on Extinction Strain Rates and Laminar Burning Velocities in C2 Hydrocarbon Flames in Laminar Flat Flames
Eckart, S.; Yu, C.; Maas, U.; Krause, H.
2021, April 14. 10th European Combustion Meeting (ECM 2021), Online, 14.–15. April 2021

Plug-flow reactor and shock-tube study of the oxidation of very fuel-rich natural gas/DME/O₂ mixtures
Kaczmarek, D.; Herzler, J.; Porras, S.; Shaqiri, S.; Fikri, M.; Schulz, C.; Atakan, B.; Maas, U.; Kasper, T.
2021. Combustion and flame, 225, 86–103. doi:10.1016/j.combustflame.2020.10.004

A novel model for incorporation of differential diffusion effects in PDF simulations of non-premixed turbulent flames based on reaction-diffusion manifolds (REDIM)
Yu, C.; Breda, P.; Minuzzi, F.; Pfitzner, M.; Maas, U.
2021. Physics of fluids, 33 (2), Article: 025110. doi:10.1063/5.0039160

Entwicklung von Reaktionsmechanismen für Systeme bei der Polygeneration. Dissertation
Porras Seyler, S. C.
2021, Januar 13. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000128084

Entwicklung und Erprobung eines elektrisch beheizten Hochtemperaturspeichers im Rahmen des Projekts Energy Lab 2.0
Belik, S.; Dreißigacker, V.
2021. Kraftwerkstechnisches Kolloquium, 2021-10-05 - 2021-10-06, Dresden, Deutschland

RCEM Studies: Conversion of CH4 into unsaturated hydrocarbons and hydrogen
Drost, S.; Schießl, R.; Maas, U.
2021. 743rd WE-Heraeus-Seminar : Process Integration, Chemical and Thermal Energy Storage for the Energy Transformation (2021), Online, 22.–24. März 2021

Modelling CO2 conversion by dry reforming in a piston engine
Drost, S.; Schießl, R.; Maas, U.
2021. 30. Deutscher Flammentag (2021), Hannover, Deutschland, 28.–29. September 2021

Implementation of the Scalar Dissipation Rate in the REDIM Concept and its Validation for the Piloted Non-Premixed Turbulent Jet Flames
Yu, C.; Maas, U.
2021. Eurasian chemico-technological journal, 23 (3), 169 179. doi:10.18321/ectj1100

Parametrical investigation for the optimization of spherical jet-stirred reactors design using large eddy simulations
Esmaeelzade, G.; Moshammer, K.; Markus, D.; Maas, U.; Grosshans, H.
2021. SN Applied Sciences, 3 (9), Article: 766. doi:10.1007/s42452-021-04743-w

Conventional spark versus nanosecond repetitively pulsed discharge for a turbulence facilitated ignition phenomenon
Nguyen, M. T.; Shy, S. S.; Chen, Y. R.; Lin, B. L.; Huang, S. Y.; Liu, C. C.
2021. Proceedings of the Combustion Institute, 38 (2), 2801–2808. doi:10.1016/j.proci.2020.06.020

Application of reaction-diffusion manifolds (REDIM) for the simulation of two-dimensional axisymmetric laminar diffusion flames
Li, N.; Yu, C.; Zirwes, T.; Maas, U.
2021. 10th European Combustion Meeting (ECM 2021), April 14-15, 2021, Virtual Edition. Proceedings Volume, MCM

Validation of an Eulerian Stochastic Fields Solver Coupled with Reaction–Diffusion Manifolds on LES of Methane/Air Non-premixed Flames
Breda, P.; Yu, C.; Maas, U.; Pfitzner, M.
2021. Flow, turbulence and combustion, 107, 441–477. doi:10.1007/s10494-020-00235-w

Reduced reaction mechanism for natural gas combustion in novel power cycles
Drost, S.; Aznar, M. S.; Schießl, R.; Ebert, M.; Chen, J.-Y.; Maas, U.
2021. Combustion and flame, 223, 486–494. doi:10.1016/j.combustflame.2020.09.029

Experimental determination of the cooling performance of liquid nitrogen for machining conditions
Golda, P.; Schießl, R.; Stampfer, B.; Schulze, V.; Maas, U.
2021. International journal of heat and mass transfer, 164, Art.-Nr.: 120588. doi:10.1016/j.ijheatmasstransfer.2020.120588

Reduced modeling of Flame-Wall-Interactions of premixed isooctane-air systems including detailed transport and surface reactions
Straßacker, C.; Bykov, V.; Maas, U.
2021. Proceedings of the Combustion Institute, 38 (1), 1063–1070. doi:10.1016/j.proci.2020.07.040

Strain Rate Effects on Head-on Quenching of Laminar Premixed Methane-air flames
Luo, Y.; Straßacker, C.; Wen, X.; Sun, Z.; Maas, U.; Hasse, C.
2021. Flow, turbulence and combustion, 106, 631–647. doi:10.1007/s10494-020-00179-1

Coupling of mixing models with manifold based simplified chemistry in PDF modeling of turbulent reacting flows
Yu, C.; Breda, P.; Pfitzner, M.; Maas, U.
2021. Proceedings of the Combustion Institute, 38 (2), 2645–2653. doi:10.1016/j.proci.2020.06.132

Reduced simulation of the evaporation and decomposition of droplets and films of urea-water solution in exhaust gas environment
Stein, M.; Bykov, V.; Maas, U.
2021. Proceedings of the Combustion Institute, 38 (4), 6687–6694. doi:10.1016/j.proci.2020.06.032

Comparative analysis of Reaction-Diffusion Manifold based reduced models for Head-On- and Side-Wall-Quenching flames
Straßacker, C.; Bykov, V.; Maas, U.
2021. Proceedings of the Combustion Institute, 38 (1), 1025–1032. doi:10.1016/j.proci.2020.06.130

Numerical Investigation of Local Heat-Release Rates and Thermo-Chemical States in Side-Wall Quenching of Laminar Methane and Dimethyl Ether Flames
Steinhausen, M.; Luo, Y.; Popp, S.; Straßacker, C.; Zirwes, T.; Kosaka, H.; Zentgraf, F.; Maas, U.; Sadiki, A.; Dreizler, A.; Hasse, C.
2021. Flow, turbulence and combustion, 106, 681–700. doi:10.1007/s10494-020-00146-w

Cryogenic orthogonal turning of Ti-6Al-4V – Analysis of nitrogen supply pressure variation and subcooler usage
Stampfer, B.; Golda, P.; Schießl, R.; Maas, U.; Schulze, V.
2020. The international journal of advanced manufacturing technology, 111 (1-2), 359–369. doi:10.1007/s00170-020-06105-z

Flexible energy conversion and storage via high-temperature gas-phase reactions: The piston engine as a polygeneration reactor
Atakan, B.; Kaiser, S. A.; Herzler, J.; Porras, S.; Banke, K.; Deutschmann, O.; Kasper, T.; Fikri, M.; Schießl, R.; Schröder, D.; Rudolph, C.; Kaczmarek, D.; Gossler, H.; Drost, S.; Bykov, V.; Maas, U.; Schulz, C.
2020. Renewable & sustainable energy reviews, 133, Art. Nr.: 110264. doi:10.1016/j.rser.2020.110264

Numerical Simulation of Turbulent Flames based on Reaction-Diffusion Manifolds (REDIM) Reduced Chemistry. Dissertation
Yu, C.
2020, Oktober 22. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000124958

Reaktions-Diffusions-Mannigfaltigkeiten für Verbrennungsprozesse in Wandnähe. Dissertation
Straßacker, C.
2020, Oktober 20. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000124642

Ignition delay times of methane/diethyl ether (DEE) blends measured in a rapid compression machine (RCM)
Drost, S.; Werler, M.; Schießl, R.; Maas, U.
2020. Proceedings of the 13th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (ISHPMIE 2020), Braunschweig, Germany, July 27–31, 2020. Ed.: Physikalisch-Technische Bundesanstalt, 960–969, Physikalisch-Technische Bundesanstalt (PTB)

Numerical Studies on Minimum Ignition Energies in Methane/Air and Isooctane/Air Mixtures
Wu, C.; Schießl, R.; Maas, U.
2020. Proceedings of the 13th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (ISHPMIE 2020), Braunschweig, Germany, July 27–31, 2020. Ed.: Physikalisch-Technische Bundesanstalt, 994–1004, Physikalisch-Technische Bundesanstalt (PTB)

Numerical Studies on Minimum Ignition Energies in Methane/Air and Isooctane/Air Mixtures
Wu, C.; Schießl, R.; Maas, U.
2020, Juli. 13th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (ISHPMIE 2020), Braunschweig, Deutschland, 27.–31. Juli 2020

Ignition delay times of methane/diethyl ether (DEE) blends measured in a rapid compression machine (RCM)
Drost, S.; Werler, M.; Schießl, R.; Maas, U.
2020, Juli. 13th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (ISHPMIE 2020), Braunschweig, Deutschland, 27.–31. Juli 2020

Combustion of rich hydrogen–air mixture stabilised near a cylindrical porous burner
Kichatov, B.; Kolobov, A.; Gubernov, V.; Bykov, V.; Maas, U.
2020. Combustion theory and modelling, 24 (4), 650–665. doi:10.1080/13647830.2020.1734238

REDIM reduced chemistry for the simulation of counterflow diffusion flames with oscillating strain rates
Yu, C.; Minuzzi, F.; Maas, U.
2020. Combustion theory and modelling, 24 (4), 682–704. doi:10.1080/13647830.2020.1739336

Experimentelle Untersuchung des Wärmeüberganges bei kryogener Abkühlung einer Ti-6Al-4V-Probe für eine Prallstrahlanordnung. Bachelorarbeit
Lettner, N.
2020, Mai 31. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000126290

Implementation problems of manifolds-based model reduction and their generic solution
Golda, P.; Blattmann, A.; Neagos, A.; Bykov, V.; Maas, U.
2020. Combustion theory and modelling, 24 (3), 377–406. doi:10.1080/13647830.2019.1682198

Characterization of the re-ignition process by hot free jets with the focus on mixing. Dissertation
Seitz, F.
2020, März 5. Shaker Verlag

Some Aspects of Time-Reversal in Chemical Kinetics
Maas, U.
2020. Entropy, 22 (12), Article no: 1386. doi:10.3390/e22121386

RCM studies on CO2utilization by dry reforming
Drost, S.; Goßler, H.; Ebert, M.; Schießl, R.; Deutschmann, O.; Maas, U.
2020. Low-Carbon Combustion (2020), Lille, Frankreich, 5.–6. November 2020

Automatic Construction of REDIM Reduced Chemistry with a Detailed Transport and Its Application to CH4 Counterflow Flames
Yu, C.; Li, X.; Wu, C.; Neagos, A.; Maas, U.
2020. Energy & fuels, 34 (12), 16572–16584. doi:10.1021/acs.energyfuels.0c02539

Numerical Simulation of Laminar and Turbulent Methane/Air Flames Based on a DRG-Derived Skeletal Mechanism
Minuzzi, F. C.; Yu, C.; Maas, U.
2020. Eurasian chemico-technological journal, 22 (2), 69–80. doi:10.18321/ectj953

DNS-studies on flame front markers for turbulent premixed combustion
Schieβl R.; Denev, J. A.
2020. Combustion theory and modelling, 24 (6), 983–1001. doi:10.1080/13647830.2020.1800102

Fast-slow vector fields of reaction-diffusion systems
Bykov, V.; Cherkinsky, Y.; Gol’dshtein, V.; Krapivnik, N.; Maas, U.
2020. IMA journal of applied mathematics, 85 (1), 67–86. doi:10.1093/imamat/hxz035

Experimental observation of diffusive-thermal oscillations of burner stabilized methane-air flames
Nechipurenko, S.; Miroshnichenko, T.; Pestovskii, N.; Tskhai, S.; Kichatov, B.; Gubernov, V.; Bykov, V.; Maas, U.
2020. Combustion and flame, 213, 202–210. doi:10.1016/j.combustflame.2019.12.016

Experimental investigation of the stochastic early flame propagation after ignition by a low-energy electrical discharge
Essmann, S.; Markus, D.; Grosshans, H.; Maas, U.
2020. Combustion and flame, 211, 44–53. doi:10.1016/j.combustflame.2019.09.021

An experimental and modeling study on the reactivity of extremely fuel-rich methane/dimethyl ether mixtures
Porras, S.; Kaczmarek, D.; Herzler, J.; Drost, S.; Werler, M.; Kasper, T.; Fikri, M.; Schießl, R.; Atakan, B.; Schulz, C.; Maas, U.
2020. Combustion and flame, 212, 107–122. doi:10.1016/j.combustflame.2019.09.036

Heat transfer simulation of a cryogenic cooling stream in machining operation
Golda, P.; Schießl, R.; Maas, U.
2019. International journal of heat and mass transfer, 144, Art.-Nr. 118616. doi:10.1016/j.ijheatmasstransfer.2019.118616

Numerical and Experimental Investigation of the Channel Expansion of a Low-Energy Spark in the Air
Korytchenko, K. V.; Essmann, S.; Markus, D.; Maas, U.; Poklonskii, E. V.
2019. Combustion science and technology, 191 (12), 2136–2161. doi:10.1080/00102202.2018.1548441

Analysis of transient combustion with the use of contemporary CFD techniques
Bykov, V.; Kiverin, A.; Koksharov, A.; Yakovenko, I.
2019. Computers & fluids, 194, Art. Nr.: 104310. doi:10.1016/j.compfluid.2019.104310

Feasibility of natural gas pyrolysis for production of unsaturated hydrocarbons: An RCM study
Drost, S.; Schießl, R.; Maas, U.
2019, April. 9th European Combustion Meeting (ECM 2019), Lissabon, Portugal, 14.–17. April 2019

Preface to the 26th ICDERS Special Issue
Dunn-Rankin, D.; Maas, U.
2019. Combustion science and technology, 191 (4), 605–606. doi:10.1080/00102202.2018.1540231

CFD-Simulation zur Bestimmung des Wärmeüberganges bei der kryogenen Zerspanen mit flüssigem Stickstoff. Masterarbeit
Emmendörfer, F.
2019, März 1. doi:10.5445/IR/1000131087

Effects of nozzle geometry on the reignition by hot gas jets
Seitz, F.; Markus, D.; Grosshans, H.; Schießl, R.
2019. Combustion science and technology, 191 (2), 296–310. doi:10.1080/00102202.2018.1459586

REDIM reduced modeling of flame quenching at a cold wall – The influence of detailed transport models and detailed mechanisms
Straßacker, C.; Bykov, V.; Maas, U.
2019. Combustion science and technology, 191 (2), 208–222. doi:10.1080/00102202.2018.1440216

Untersuchung mehrphasiger Verbrennungsvorgänge mittels Raman-Spektroskopie
Zenk, M.; Schießl, R.; Maas, U.
2019. 29. Deutscher Flammentag (2019), Bochum, Deutschland, 17.–18. September 2019

Reduced simulation of the evaporation and decomposition of droplets and films of urea-water solution in exhaust gas
Stein, M.; Bykov, V.; Maas, U.
2019. 29. Deutscher Flammentag (2019), Bochum, Deutschland, 17.–18. September 2019

Kinetische Untersuchung der Partiellen Oxidation von Methan/DME Gemischen in einer Rapid Compression Expansion Machine
Porras, S.; Drost, S.; Schießl, R.; Maas, U.
2019. 29. Deutscher Flammentag (2019), Bochum, Deutschland, 17.–18. September 2019

Untersuchung der Zündeigenschaften von Erdgasmischungen in einer schnellen Kompressionsmaschine
Drost, S.; Schießl, R.; Maas, U.
2019. 29. Deutscher Flammentag (2019), Bochum, Deutschland, 17.–18. September 2019

Rapid compression machine (RCM) studies on the production of unsaturated hydrocarbons from methane
Drost, S.; Schießl, R.; Maas, U.
2019. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS 2019), Peking, China, 28. Juli–2. August 2019

Experimental and simulation studies on the influence of hydrogen addition on the lean flammability limits of methane/air mixtures
Wu, C.; Yu, C.; Schießl, R.
2019. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS 2019), Peking, China, 28. Juli–2. August 2019

REDIM simplified chemistry for the simulation of counterflow diffusion flames with oscillating strain rates
Yu, C.; Minuzzi, F.; Maas, U.
2019. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS 2019), Peking, China, 28. Juli–2. August 2019

Study of synthesis gas auto-ignition process by using GQL and QSSA model reduction approaches
Yu, C.; Bykov, V.; Maas, U.
2019. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS 2019), Peking, China, 28. Juli–2. August 2019

REDIM reduced modeling of Flame-Wall-Interactions of premixed Isooctane-Air Systems
Straßacker, C.; Bykov, V.; Maas, lrich
2019. 29. Deutscher Flammentag, Bochum

Multi-dimensional transport phenomena of flame-wall-interactions and the REDIM method
Straßacker, C.; Bykov, V.; Ganter, S.; Janicka, J.; Maas, U.
2019. 9th European Combustion Meeting, Lisboa, Portugal

Reaction-Diffusion-Maniolds for Flame-Wall-Interactions of Stratified Flames
Straßacker, C.; Bykov, V.; Maas, U.
2019. Proceedings. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS), Bejing, China, July 28 - August 2, 2019

Model reduction and mechanism comparison of hydrogen/oxygen auto-ignition
Bykov, V.; Yu, C.; Gol’dshtein, V.; Maas, U.
2019. Proceedings of the Combustion Institute, 37 (1), 781–787. doi:10.1016/j.proci.2018.06.189

Parametrization and projection strategies for manifold based reduced kinetic models
Straßacker, C.; Bykov, V.; Maas, U.
2019. Proceedings of the Combustion Institute, 37 (1), 763–770. doi:10.1016/j.proci.2018.06.186

Coupling of simplified chemistry with mixing processes in PDF simulations of turbulent flames
Yu, C.; Bykov, V.; Maas, U.
2019. Proceedings of the Combustion Institute, 37 (2), 2183–2190. doi:10.1016/j.proci.2018.05.126

Simulation of methane/air non-premixed turbulent flames based on REDIM simplified chemistry
Minuzzi, F.; Yu, C.; Maas, U.
2019. Flow, turbulence and combustion, 103, 963–984. doi:10.1007/s10494-019-00059-3

Ignition delay times of polyoxymethylene dimethyl ether fuels (OME₂ and OME₃) and air: Measurements in a rapid compression machine
Drost, S.; Schießl, R.; Werler, M.; Sommerer, J.; Maas, U.
2019. Fuel, 258, 116070. doi:10.1016/j.fuel.2019.116070

Thermomechanically coupled numerical simulation of cryogenic orthogonal cutting
Stampfer, B.; Golda, P.; Zanger, F.; Schießl, R.; Maas, U.; Schulze, V.
2019. Procedia CIRP, 82, 438–443. doi:10.1016/j.procir.2019.04.036

Thermal Decomposition of a Single AdBlue® Droplet Including Wall–Film Formation in Turbulent Cross-Flow in an SCR System
Nishad, K.; Stein, M.; Ries, F.; Bykov, V.; Maas, U.; Deutschmann, O.; Janicka, J.; Sadiki, A.
2019. Energies, 12 (13), 2600. doi:10.3390/en12132600

Methane/Air Auto-Ignition Based on Global Quasi-Linearization (GQL) and Directed Relation Graph (DRG): Implementation and Comparison
Yu, C.; Minuzzi, F.; Bykov, V.; Maas, U.
2019. Combustion science and technology, 192 (9), 1802–1824. doi:10.1080/00102202.2019.1625337

The internal combustion engine as a CO2 reformer
Gossler, H.; Drost, S.; Porras, S.; Schießl, R.; Maas, U.; Deutschmann, O.
2019. Combustion and flame, 207, 186–195. doi:10.1016/j.combustflame.2019.05.031

OH planar laser-induced fluorescence measurements with high spatio-temporal resolution for the study of auto-ignition
Arndt, C. M.; Schiebl, R.; Meier, W.
2019. Applied optics, 58 (10), C14-C22. doi:10.1364/AO.58.000C14

The effect of dilution on the diffusive-thermal instability of the rich premixed hydrogen deflagration
Gubernov, V. V.; Bykov, V.; Maas, U.
2019. International journal of hydrogen energy, 44 (21), 11153–11160. doi:10.1016/j.ijhydene.2019.02.185

Experimentelle Untersuchung der Zündung durch elektrostatische Entladungen geringer Energie. Dissertation
Essmann, S.
2019. Fachverlag NW in der Carl Schünemann Verlag GmbH

The influence of selected aromatic fluorescence tracers on the combustion kinetics of iso-octane
Sommerer, J.; Fikri, M.; Herzler, J.; Maas, U.; Schießl, R.; Schulz, C.
2019. Fuel, 244, 559–568. doi:10.1016/j.fuel.2019.01.190

Detailed mathematical modelling of transient combustion processes. Dissertation
Koksharov, A.
2019. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000091931

Wärmeübertrager auf der ACHEMA 2018
Reiser, S.
2018. Chemie - Ingenieur - Technik, 90 (12), 2019–2021. doi:10.1002/cite.201800124

Modeling binary mixtures of n-alkanes and water using PC-SAFT
Haarmann, N.; Enders, S.; Sadowski, G.
2018. Fluid phase equilibria, 470, 203–211. doi:10.1016/j.fluid.2017.11.015

Large Eddy Simulations of the Darmstadt Turbulent Stratified Flames with REDIM Reduced Kinetics
Wang, P.; Hou, T.- zeng; Wang, C.- jun; Steinhilber, G.; Maas, U.
2018. Flow, turbulence and combustion, 101 (1), 219–245. doi:10.1007/s10494-018-9899-1

Quasi-Spectral Method for the Solution of the Master Equation for Unimolecular Reaction Systems
Koksharov, A.; Yu, C.; Bykov, V.; Maas, U.; Pfeifle, M.; Olzmann, M.
2018. International journal of chemical kinetics, 50 (5), 357–369. doi:10.1002/kin.21165

Laminar near-wall combustion: Analysis of tabulated chemistry simulations by means of detailed kinetics
Ganter, S.; Straßacker, C.; Kuenne, G.; Meier, T.; Heinrich, A.; Maas, U.; Janicka, J.
2018. International journal of heat and fluid flow, 70, 259–270. doi:10.1016/j.ijheatfluidflow.2018.02.015

Singularly perturbed profiles
Bykov, V.; Cherkinsky, Y.; Gol’dshtein, V.; Krapivnik, N.; Maas, U.
2018. IMA journal of applied mathematics, 83 (2), 323–346. doi:10.1093/imamat/hxy003

A reduced model for the evaporation and decomposition of urea-water solution droplets
Stein, M.; Bykov, V.; Bertótiné Abai, A.; Janzer, C.; Maas, U.; Deutschmann, O.; Olzmann, M.
2018. International journal of heat and fluid flow, 70, 216–225. doi:10.1016/j.ijheatfluidflow.2018.02.005

REDIM reduced modeling of quenching at a cold wall including heterogeneous wall reactions
Straßacker, C.; Bykov, V.; Maas, U.
2018. International journal of heat and fluid flow, 69, 185–193. doi:10.1016/j.ijheatfluidflow.2017.12.011

Global quasi-linearization (GQL) versus QSSA for a hydrogen–air auto-ignition problem
Yu, C.; Bykov, V.; Maas, U.
2018. Physical chemistry, chemical physics, 20 (16), 10770–10779. doi:10.1039/C7CP07213A

Reaction zone description based on ridge analysis
Bykov, V.; Schießl, R.
2018. Joint Meeting of the German and Italian Sections of the Combustion Institute (2018), Sorrent, Italien, 23.–26. Mai 2018

Adjustement of cryogenic cooling in titanium machining by controlling the nitrogen flow
Stampfer, B.; Golda, P.; Zanger, F.; Schießl, R.; Maas, U.; Schulze, V.
2018. 68th CIRP General Assembly, International Academy for Production Engineering (2018), Tokio, Japan, 19.–25. August 2018

Simulation of methane/air non-premixed turbulent flames based on REDIM simplified chemistry
Minuzzi, F.; Yu, C.; Maas, U.
2018. 9th International Symposium on Turbulence, Heat and Mass Transfer (THMT 2018), Rio de Janeiro, Brasilien, 10.–13. Juli 2018

DRG and GQL reduction methods for a H2/Air auto-ignition problem
Yu, C.; Minuzzi, F.; Bykov, V.; Maas, U.
2018. Joint Meeting of the German and Italian Sections of the Combustion Institute (2018), Sorrent, Italien, 23.–26. Mai 2018

Study of internal flame front structure of accelerating hydrogen/oxygen flames with detailed chemical kinetics and diffusion models
Bykov, V.; Koksharov, A.
2018. Mathematical modelling of natural phenomena, 13 (6), Art.-Nr.: 53. doi:10.1051/mmnp/2018079

Mechanisms performance and pressure dependence of hydrogen/air burner-stabilized flames
Bykov, V.; Gubernov, V. V.; Maas, U.
2018. Mathematical modelling of natural phenomena, 13 (6), Art.-Nr.: 51. doi:10.1051/mmnp/2018046

Optimization of new fuel characterization in a jet stirred reactor
Esmaeelzade, G.; Moshammer, K.; Fernandes, R.; Markus, D.; Maas, U.; Großhans H.
2018. Kraftstoffe für die Mobilität von morgen : 3. Tagung der Fuels Joint Research Group am 20. und 21. September 2018 in Braunschweig. Ed.: J. Krahl, 146–147, Cuvillier Verlag

Experimental and Simulative Modeling of Drilling Processes for the Compensation of Thermal Effects
Bollig, P.; Michna, J.; Faltin, C.; Schneider, J.; Zanger, F.; Schießl, R.; Maas, U.; Schulze, V.
2018. Thermal Effects in Complex Machining Processes. Hrsg.: D. Biermann, F. Hollmann, 145–180, Springer International Publishing. doi:10.1007/978-3-319-57120-1_9

Investigation on the optimal dimension of reaction-diffusion manifold for flame-wall-interactions
Straßacker, C.; Bykov, V.; Maas, U.
2018. 12th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements, Montpellier, F

Ignition by Capacitance Sparks and Non-Thermal Plasmas
Kummer, J.-R.; Essmann, S.; Markus, D.; Grosshans, H.; Maas, U.
2018. Ignition Systems for Gasoline Engines : 4th International Conference, December 6 - 7, 2018, Berlin, Germany. Ed.: M. Günther, 26–39, expert-Verlag

Deflagration-to-detonation transition in an unconfined space
Koksharov, A.; Bykov, V.; Kagan, L.; Sivashinsky, G.
2018. Combustion and flame, 195, 163–169. doi:10.1016/j.combustflame.2018.03.006

Numerical simulation of turbulent flames based on a hybrid RANS/transported-PDF method and REDIM method
Yu, C.; Minuzzi, F. C.; Maas, U.
2018. Eurasian chemico-technological journal, 20 (1), 23–31. doi:10.18321/ectj705

A comprehensive approach to find the performance map of a heat pump using experiment and soft computing methods
Moradi, M. H.; Sohani, A.; Zabihigivi, M.; Wirbser, H.
2017. Energy conversion and management, 153, 224–242. doi:10.1016/j.enconman.2017.09.070

The Effect of Evaporation Models on Urea Decomposition from Urea-Water-Solution Droplets in SCR Conditions
Stein, M.; Bykov, V.; Maas, U.
2017. Emission control science and technology, 3 (4), 263–274. doi:10.1007/s40825-017-0075-1

Temperature Measurements and Heat Partitioning in Machining Processes
Sölter, J.; Frohmüller, R.; Wirbser, H.
2017. Thermal Effects in Complex Machining Processes : Final Report of the DFG Priority Programme 1480. Ed.: D. Biermann, 5–21, Springer International Publishing. doi:10.1007/978-3-319-57120-1_2

REDIM reduced modeling of quenching at a cold inert wall with detailed transport and different mechanisms
Straßacker, C.; Bykov, V.; Maas, U.
2017. Proceedings. 26th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS), Boston, USA, July 30, 2017 - August 16, 2017

Methane pyrolysis in piston engines - A novel approach to exergy storage
Hegner, R.; Drost, S.; Werler, M.; Schießl, R.; Maas, U.; Atakan, B.
2017. 30th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, ECOS 2017, San Diego, United States; 2 July 2017 through 6 July 2017

Analysis of transient supersonic hydrogen release, dispersion and combustion
Breitung, W.; Halmer, G.; Xiao, J.; Kuznetsov, M.; Jordan, T.
2017. 7th International Conference on Hydrogen Safety (ICHS-2017), Hamburg, September 11-13, 2017

Fuel-Rich HCCI Engines as Chemical Reactors for Polygeneration: A Modeling and Experimental Study on Product Species and Thermodynamics
Hegner, R.; Werler, M.; Schießl, R.; Maas, U.; Atakan, B.
2017. Energy & fuels, 31 (12), 14079–14088. doi:10.1021/acs.energyfuels.7b02150

Entwicklung eines Fortschrittsvariablenmodells zur 3D-CFD-Simulation dieselmotorischer Zündung und Verbrennung. Dissertation
Wenzel, P.
2017. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000076986

PDF Simulations of the Ignition of Hydrogen/Air, Ethylene/Air and Propane/Air Mixtures by Hot Transient Jets
Fischer, S.; Markus, D.; Ghorbani, A.; Maas, U.
2017. Zeitschrift für physikalische Chemie, 231 (10), 1773–1796. doi:10.1515/zpch-2016-0904

Safety-Relevant Ignition Processes
Maas, U.; Markus, D.; Olzmann, M.
2017. Zeitschrift für physikalische Chemie, 231 (10), 1599–1602. doi:10.1515/zpch-2017-5001

Ignition by Hot Free Jets
Seitz, F.; Schießl, R.; Markus, D.
2017. Zeitschrift für physikalische Chemie, 231 (10), 1737–1771. doi:10.1515/zpch-2016-0914

Ignition by Electrical Discharges
Markus, D.; Essmann, S.; Kummer, J.-R.; Shekhar, R.; Uber, C.; Gerlach, U.; Maas, U.
2017. Zeitschrift für physikalische Chemie, 231 (10), 1655–1682. doi:10.1515/zpch-2016-0903

Numerische Untersuchung unkontrollierter vorzeitiger Selbstzündprozesse unter motorrelevanten Bedingungen. Dissertation
Magar, M.
2017. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000073576

Numerical Simulation of the Ignition of Fuel/Air Gas Mixtures Around Small Hot Particles
Häber, T.; Zirwes, T.; Roth, D.; Zhang, F.; Bockhorn, H.; Maas, U.
2017. Zeitschrift für physikalische Chemie, 231 (10), 1625–1654. doi:10.1515/zpch-2016-0933

Hydrogen/air burner-stabilized flames at elevated pressures
Gubernov, V. V.; Bykov, V.; Maas, U.
2017. Combustion and flame, 185, 44–52. doi:10.1016/j.combustflame.2017.07.001

Joint characteristic timescales and entropy production analyses for model reduction of combustion systems
Porras, S.; Bykov, V.; Gol’dshtein, V.; Maas, U.
2017. Entropy, 19 (6), 264. doi:10.3390/e19060264

Adaptive Generierung von Reaktions-Diffusions-Mannigfaltigkeiten für die reduzierte Beschreibung chemisch reagierender Strömungen. Dissertation
Neagos, A.
2017. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000070004

Numerical investigation of the ignition of diethyl ether/air and propane/air mixtures by hot jets
Fischer, S.; Markus, D.; Maas, U.
2017. Journal of loss prevention in the process industries, 49 (Part B), 832–838. doi:10.1016/j.jlp.2017.03.010

REDIM reduced modeling of flame-wall-interactions: Quenching of a premixed methane/air flame at a cold inert wall
Steinhilber, G.; Bykov, V.; Maas, U.
2017. Proceedings of the Combustion Institute, 36 (1), 655–661. doi:10.1016/j.proci.2016.08.057

Adaptive hierarchical construction of Reaction-Diffusion Manifolds for simplified chemical kinetics
Neagos, A.; Bykov, V.; Maas, U.
2017. Proceedings of the Combustion Institute, 36 (1), 663–672. doi:10.1016/j.proci.2016.07.101

A versatile coupled progress variable/REDIM model for auto-ignition and combustion
Benzinger, M.-S.; Schießl, R.; Maas, U.
2017. Proceedings of the Combustion Institute, 36 (3), 3613–3621. doi:10.1016/j.proci.2016.07.073

Ignition delay times of Jet A-1 fuel: Measurements in a high-pressure shock tube and a rapid compression machine
De Toni, A. R.; Werler, M.; Hartmann, R. M.; Cancino, L. R.; Schießl, R.; Fikri, M.; Schulz, C.; Oliveira, A. A. M.; Oliveira, E. J.; Rocha, M. I.
2016. Proceedings of the Combustion Institute, 36 (3), 3695–3703. doi:10.1016/j.proci.2016.07.024

A quantum chemical and kinetics modeling study on the autoignition mechanism of diethyl ether
Sakai, Y.; Herzler, J.; Werler, M.; Schulz, C.; Fikri, M.
2016. Proceedings of the Combustion Institute, 36 (1), 195–202. doi:10.1016/j.proci.2016.06.037

Implementing multi-directional molecular diffusion terms into Reaction Diffusion Manifolds (REDIMs)
Schießl, R.; Bykov, V.; Maas, U.; Abdelsamie, A.; Thévenin, D.
2016. Proceedings of the Combustion Institute, 36 (1), 673–679. doi:10.1016/j.proci.2016.07.089

Stability of rich laminar hydrogen-air flames in a model with detailed transport and kinetic mechanisms
Korsakova, A. I.; Gubernov, V. V.; Kolobov, A. V.; Bykov, V.; Maas, U.
2016. Combustion and flame, 163, 478–486. doi:10.1016/j.combustflame.2015.10.024

A detailed comparison of two sub-grid scale combustion models via large eddy simulation of the PRECCINSTA gas turbine model combustor
Wang, P.; Fröhlich, J.; Maas, U.; He, Z.- xia; Wang, C.- jun
2016. Combustion and flame, 164, 329–345. doi:10.1016/j.combustflame.2015.11.031

Combustion control based on flame ionization and its applicaton in condensing heating appliances. Dissertation
Kiefer, M.
2016. Verlag Dr. Hut

Untersuchungen der Niedertemperaturoxidation von Kohlenwasserstoffen in einer schnellen Kompressions-Expansions-Maschine. Dissertation
Werler, M.
2016. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000061848

The effect of Soret diffusion on stability of rich premixed hydrogen–air flames
Korsakova, A. I.; Gubernov, V. V.; Bykov, V.; Maas, U.
2016. International journal of hydrogen energy, 41 (39), 17670–17675. doi:10.1016/j.ijhydene.2016.07.141

Model reduction of the intracellular-signaling subsystem of apoptosis
Bykov, V.; Gol’dshtein, V.
2016. Mathematical biosciences, 275, 39–50. doi:10.1016/j.mbs.2016.01.007

Entwicklung eines reduzierten Modells zur Beschreibung der Zündung und Flammenausbreitung in kompressionsgezündeten Motoren. Dissertation
Benzinger, M.-S.
2016. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000055800

Investigation of rich hydrogen-air deflagrations in models with detailed and reduced kinetic mechanisms
Gubernov, V. V.; Kolobov, A. V.; Bykov, V. V.; Maas, U.
2016. Combustion and Flame, 168, 32–38. doi:10.1016/j.combustflame.2016.03.017

Experimentelle und numerische Untersuchung der Bildung von Aceton unter motorischen Bedingungen. Dissertation
Tröndle, P.
2016. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000054886

A numerical approach to investigate the maximum permissible nozzle diameter in explosion by hot turbulent jets
Ghorbani, A.; Markus, D.; Steinhilber, G.; Maas, U.
2015. Journal of loss prevention in the process industries, 36, 539–543. doi:10.1016/j.jlp.2015.03.021

Hierarchical structure of slow manifolds of reacting flows
Bykov, V.; Neagos, A.; Klimenko, A.; Maas, U.
2015. Zeitschrift für physikalische Chemie, 229 (6), 833–856. doi:10.1515/zpch-2014-0599

Numerische Simulation turbulenter Verbrennungsprozesse mittels statistischer Verfahren und REDIM reduzierter Kinetik. Dissertation
Steinhilber, G.
2015. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000049996

A stand alone PDF method for unsteady reacting turbulent flows: Ignition by hot jets. Dissertation
Ghorbani, A.
2015. Shaker Verlag

Inter-cycle variability of ignition delay in an ethanol fumigated common rail diesel engine
Bodisco, T.; Tröndle, P.; Brown, R. J.
2015. Energy. doi:10.1016/j.energy.2015.02.107

A PDF projection method: A pressure algorithm for stand-alone transported PDFs
Ghorbani, A.; Steinhilber, G.; Markus, D.; Maas, U.
2015. Combustion Theory and Modelling, 19 (2), 188–222. doi:10.1080/13647830.2014.999129

Prediction of NOx in Premixed High-Pressure Lean Methane Flames with a MMC-Partially Stirred Reactor
Sundaram, B.; Klimenko, A. Y.; Cleary, M. J.; Maas, U.
2015. Proceedings of the Combustion Institute, 35 (2), 1517–1525. doi:10.1016/j.proci.2014.07.069

Ignition delay times of diethyl ether measured in a high-pressure shock tube and a rapid compression machine
Werler, M.; Cancino, L. R.; Schießl, R.; Maas, U.; Schulz. C.; Fikri, M.
2015. Proceedings of the Combustion Institute, 35 (1), 259–266. doi:10.1016/j.proci.2014.06.143

Validation of a novel numerical model for the electric currents in burner-stabilized methane-air flames
Speelman, N.; Kiefer, M.; Markus, D.; Maas, U.; L.P.H. de Goey; J.A. van Oijen
2015. Proceedings of the Combustion Institute, 35 (1), 847–854. doi:10.1016/j.proci.2014.05.067

Ignition by transient hot turbulent jets: an investigation of ignition mechanisms by means of a PDF/REDIM method
Ghorbani, A.; Steinhilber, G.; Markus, D.; Maas, U.
2015. Proceedings of the Combustion Institute, 35 (2), 2191–2198. doi:10.1016/j.proci.2014.06.104

A DNS-based study on the gradient estimates for the Reaction-Diffusion Manifold (REDIM) model
Bykov, V.; Schießl, R.
2014. Flame Structure 2014, 8th International Seminar on Flame Structure, Berlin Institute of Technology, September 21st-24th, 1–4

Investigation of turbulent pre mixed lean combustion using combination of Raman scattering and OH LIF
Goldman, A.; Marathe, S.; Schießl, R.; Maas, U.
2014. Flame Structure 2014, 8th International Seminar on Flame Structure, Berlin Institute of Technology, September 21st-24th

A Unified Reduced Model for Auto-Ignition and Combustion in Premixed Systems
Benzinger, M.-S.; Schießl, R.; Maas, U.
2014. Eurasian chemico-technological journal, 16 (2-3), 107–116

Numerical investigation of ignition events initiated by a hot turbulent jet using a PDF method
Ghorbani, A.; Markus, D.; Steinhilber, G.; Maas, U.
2014. 10th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions, June 2014

Study of Extinction Limits of Diluted Hydrogen-Air Counter-Flow Diffusion Flames with the Redim Method
Neagos, A.; Bykov, V.; Maas, U.
2014. Combustion science and technology, 186 (10-11), 1502–1516. doi:10.1080/00102202.2014.935125

Numerical Investigation of Ignition in a Transient Turbulent Jet by Means of a PDF Method
Ghorbani, A.; Steinhilber, G.; Markus, D.; Maas, U.
2014. Combustion Science and Technology, 186 (10-11), 1582–1596. doi:10.1080/00102202.2014.936762

Untersuchung von Dimethylether als Zündbeschleuniger für Methan-Luft Gemische in einer schnellen Kompressionsmaschine
Werler, M.; Indlekofer, T.; Zor, A.; Ruiz, R.; Wirbser, H.; Schießl, R.; Maas, U.
2014. Thermodynamik-Kolloquium 2014, 22.-24. September Universität Stuttgart

Theoretical analysis of coal stockpile self-heating
Hooman, K.; Maas, U.
2014. Fire Safety Journal, 67, 107–112. doi:10.1016/j.firesaf.2014.05.011

One antimatter - two possible thermodynamics
Klimenko, A.; Maas, U.
2014. Entropy, 16 (3), 1191–1210. doi:10.3390/e16031191

Mathematische Reduktion der detaillierten chemischen Kinetik von Verbrennungsprozessen mittels eines Fortschrittsvariablen-Ansatzes. Dissertation
Hofrath, C.
2014. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000046879

Influence of cutting parameters, tool coatings and friction on the process heat in cutting processes and phase transformations in workpiece surface layers∗
Schulze, V.; Michna, J.; Zanger, F.; Faltin, C.; Maas, U.; Schneider, J.
2013. HTM - journal of heat treatment and materials, 68 (1), 22–31. doi:10.3139/105.110177

Numerische Simulation und Validierung der Benzinselbstzündung (Abschlussbericht über Vorhaben Nr. 1022)
Janicka, J.; Benzinger, S.; Maas, U.; Breitenberger, T.; Schild, M.; Schulz, C.; Fuhrmann, N.; Dreizler, A.; Dahnz, C.; Spicher, U.
2013. Informationstagung Motoren, Abschluss- und Zwischenberichte der Forschungsstellen, Leipzig, 11. - 12. April 2013, FVV

Prediction of NOx in Premixed High-Pressure Lean Methane Flames with a MMC-Partially Stirred Reactor
Sundaram, B.; Klimenko, A. Y.; Cleary, M. J.; Maas, U.
2013. Proc. 35th International Symposium on Combustion, August 3-8, 2014, San Francisco, California, USA

Ignition delay times of diethyl ether measured in a high-pressure shock tube and a rapid compression machine
Werler, M.; Cancino, L. R.; Schießl, R.; Maas, U.; Schulz, C.; Fikri, M.
2013. Proc. 35th International Symposium on Combustion, August 3-8, 2014, San Francisco, California, USA

Large Eddy Simulation of Auto-Ignition in a Four-Stroke CAI Engine using a Progress Variable Approach
Breitenberger, T.; Benzinger, M.-S.; Schießl, R.; Janicka, J.
2013. Proc. 35th International Symposium on Combustion, August 3-8, 2014, San Francisco, California, USA

Validation of a novel numerical model for the electric currents in burner-stabilized methane-air flames
Speelman, N.; Kiefer, M.; Markus, D.; Maas, U.; Goey, L. P. H. de; Oijen, J. A. van
2013. Proc. 35th International Symposium on Combustion, August 3-8, 2014, San Francisco, California, USA

An integral reduced model for auto-ignition and combustion in premixed systems
Benzinger, M.-S.; Schießl, R.; Maas, U.
2013. Proc. 35th International Symposium on Combustion, August 3-8, 2014, San Francisco, California, USA

Ignition by transient hot turbulent jets: an investigation of ignition mechanisms by means of a PDF/REDIM method
Ghorbani, A.; Steinhilber, G.; Markus, D.; Maas, U.
2013. Proc. 35th International Symposium on Combustion, August 3-8, 2014, San Francisco, California, USA

Hierarchical Concepts for Model Reduction for Reacting Flows Based on Low-Dimensional Manifolds
Maas, U.; Klimenko, A. Y.
2013. 12th Joint European Thermodynamics Conference, Brescia, July 1-5, 2013, 2013

CPT Invariance and its Implications for Thermodynamics and Kinetics
Klimenko, A. Y.; Maas, U.
2013. 12th Joint European Thermodynamics Conference, Brescia, July 1-5, 2013, 2013

Temperature measurements inside repetitive streamer discharges and comparison with numerical simulations
Markus, D.; Langer, T.; Maas, U.
2013. 44th AIAA Plasmadynamics and Lasers Conference. American Institute of Aeronautics and Astronautics, 2013

Experimentelle und numerische Untersuchungen von Zünddurchschlägen
Seitz, F.; Ghorbani, A.; Markus, D.; Schießl, R.; Maas, U.
2013. 13. BAM-PTB-Kolloquium zur chemischen und physikaalischen Sicherheitstechnik, Braunschweig, 2013, 2013

Numerical Simulations on the Influence of Equivalence Ratio and Unburned Gas Temperature on Ionization in Laminar Flat Flames
Kiefer, M.; Markus, D.; Maas, U.
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

Reduction of a detailed chemical reaction mechanism for Chemical Vapor Deposition (CVD)
Bykov, V.; Maas, U.
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

Sudden acceleration of flames in open channels driven by hydraulic resistance
Yanez, J.; Kuznetsov, M.; Bykov, V.
2013. Proceedings. 24th International Colloquium on the Dynamics of Explosions and Reactive Systems, July 28 - August 2, 2013, Taipei, TWN, 2013

Ignition by Mechanical Sparks Ignition Temperatures of Hydrogen/Air-Mixtures Ignited by Small Metal/Ceramic Particles
Roth, D.; Sharma, P.; Haeber, T.; Schießl, R.; Bockhorn, H.; Maas, U.
2013. Proc. 24th International Colloquium on the Dynamics of Explosions and Reactive Systems, July 28 - August 2, 2013, Taipei, Taiwan, 2013

Untersuchungen zum Vorentflammungsphänomen in Ottomotoren
Werler, M.; Magar, M.; Schießl, R.; Palaveev, S.; Spicher, U.; Maas, U.
2013. 26. Deutscher Flammentag, Verbrennung und Feuerung, 14.-15. September, 2013, Duisburg, 2013

Analysis of transient processes in the context of REDIM
Maas, U.; Bykov, V.; Neagos, A.
2013. Proc. 4th International Workshop on Model Reduction in Reacting Flows (IWMRRF), June 19 - June 21, 2013, San Francisco, California, USA, 2013

The dimension of low dimensional manifolds in state space: a study using DNS data
Zistl, C.; Schießl, R.; Fru, G.; Thevenin, D.
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

Experimental and Numerical Investigation of Transient Variable-density Free Jets
Seitz, F.; Ghorbani, A.; Schießl, R.; Markus, D.; Maas, U.
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

On the Numerical Solution of the Chemical Master Equation
Koksharov, A.; Pfeifle, M.; Bykov, V.; Maas, U.; M. Olzmann
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

Tabulation Strategies for simplified Chemistry in Combustion: Adaptively refined and equidistant Approach
Benzinger, M.-S.; Schießl, R.; Maas, U.
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

Study on the influence of lubricant on auto-ignition in fuel/air mixtures
Werler, M.; Magar, M.; Schießl, R.; Maas, U.
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

Experimental investigation on auto-ignition of acetone
Werler, M.; Goldman, A.; Wirbser, H.; Schießl, R.; Maas, U.
2013. Proc. 6th European Combustion Meeting, June 25 - June 28, 2013, Lund, Sweden, 2013

Study of extinguishing limits of diluted hydrogen-air counter-flow diffusion flames with the REDIM method
Neagos, A.; Bykov, V.; Maas, U.
2013. Proc. 24th International Colloquium on the Dynamics of Explosions and Reactive Systems, July 28 - August 2, 2013, Taipei, Taiwan, 2013

Application of a PDF Method to Transient Reactive Jets
Ghorbani, A.; Steinhilber, G.; Markus, D.; Maas, U.
2013. Proc. 24th International Colloquium on the Dynamics of Explosions and Reactive Systems, July 28 - August 2, 2013, Taipei, Taiwan, 2013

A Rapid Compression Machine Study of Diethyl Ether Autoignition
Werler, M.; Wirbser, H.; Schießl, R.; Maas, U.
2013. Proc. 24th International Colloquium on the Dynamics of Explosions and Reactive Systems, July 28 - August 2, 2013, Taipei, Taiwan, 2013

Fast and Slow Invariant Manifolds for Chemical Kinetics
Bykov, V.; Goldshtein, V.
2013. Computers and Mathematics with Applications, 65 (10), 1502–1515. doi:10.1016/j.camwa.2013.01.040

The application of the Global Quasi-Linearisation technique to the analysis of the cyclohexane/air mixture autoignition
Bykov, V.; Griffiths, J.; Piazzesi, R.; Sazhin, S. S.; Sazhina, E. M.
2013. Applied Mathematics and Computation, 219 (14), 7338–7347. doi:10.1016/j.amc.2012.12.042

Numerical investigation of the flow inside the combustion chamber of a plant oil stove
Pritz, B.; Werler, M.; Wirbser, H.; Gabi, M.
2013. Journal of Thermal Science, 22 (5), 491–496. doi:10.1007/s11630-013-0653-7

Numerical simulation and validation of fuel auto-ignition
Maas, U.; Schießl, R.; Benzinger, M.-S.; Janicka, J.; Breitenberger, T.; Schulz, C.; Kaiser, S.; Schild, M.; Dreizler, A.; Fuhrman, N.; Spicher, U.; Kubach, H.; C. Dahnz
2013. Proceedings Aachen Colloquium Automobile and Engine Technology, 07-09.10.2013, Aachen, 1099–1144

Large Eddy Simulation of the PRECCINSTA burner
Wang, P.; Platova, N. A.; Fröhlich, J.; Maas, U.
2013. International Journal of Heat and Mass Transfer, 70, 486–495. doi:10.1016/j.ijheatmasstransfer.2013.11.025

PDF Simulations of Auto-Ignition in Internal Combustion Engines. Dissertation
Zoweil, A.
2013. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000038520

Modelling and diagnostics of reacting flows
Maas, U.
2013. Physical chemistry at the Karlsruhe Institute of Technology. Bunsentagung 2013 [112th Bunsentagung (Annual German Conference on Physical Chemistry), Karlsruhe Institute of Technology (KIT), from May 9 - 11, 2013], 54–55, Inst. für Physikal. Chemie

Zündung von Wasserstoff/Luft-Gemischen durch repetierende Teilentladungen. Dissertation
Langer, T.
2013. Verlag Dr. Hut

Innovation für die Energiewende in Entwicklungs- und Schwellenländern: Kochen mit Pflanzenöl
Werler, M.; Wirbser, H.; Maas, U.
2013. Chancen der Energiewende : wissenschaftliche Beiträge des KIT zur 1. Jahrestagung des KIT-Zentrums Energie, 19.06.2012. Hrsg.: W. Breh, 243–248, KIT Scientific Publishing

Umfassendes Modell für den Einfluss des Aerosols auf die Vorgänge in der Atmosphäre von Ballungsgebieten. Dissertation
Halmer, G.
2012. Karlsruher Institut für Technologie (KIT). doi:10.5445/IR/1000029874

Unerwünschte Zündungen : Beitrag bei Radio KIT am 02.12.2010
Böseke, J.; Maas, U.; Radio KIT
2011. doi:10.5445/DIVA/2011-27

Verdunstung mit Kristallisation von Einzelpartikeln aus AdBlue
Kontin, S.; Höfler, A.; Koch, R.; Bauer, H.-J.
2011. Motorische Verbrennung - aktuelle Probleme und moderne Lösungsansätze: X. Tagung, München, 24.-25. März 2011. Hrsg.: A. Leipertz, 187–198, ESYTEC

Simplified description of auto-ignition around a single fuel Droplet
Sharma, P.; Schießl, R.; Maas, U.
2011. Verbrennung und Feuerungen: 25. Deutscher Flammentag. Fachtagung, Karlsruhe, 14.-15. September 2011, 659–666, VDI Fachmedien

Untersuchungen zur chemischen Kinetik des Zerfalls von Fluoreszenztracern
Gushterova, I.; Hartmann, M.; Schießl, R.; Fikri, M.; Maas, U.; Schulz, C.
2011. Verbrennung und Feuerungen: 25. Deutscher Flammentag. Fachtagung, Karlsruhe, 14.-15. September 2011, 133–140, VDI Fachmedien

Untersuchungen zur Fluoreszenz intermediärer Stoffe in Verbrennungsmotoren: Interferenz zu Tracer-LIF
Tröndle, P.; Schießl, R.; Maas, U.
2011. Motorische Verbrennung - aktuelle Probleme und moderne Lösungsansätze (X. Tagung). Tagung im Haus der Technik, München, 24./25. März 2011. Hrsg.: A. Leipertz, 267–278, ESYTEC

PDF model for NO calculations with radiation and consistent NO-NO2 chemistry in non-premixed turbulent flames
Zoller, B. T.; Allegrini, J. M.; Maas, U.; Jenny, P.
2011. Combustion and Flame, 158 (8), 1591–1601. doi:10.1016/j.combustflame.2010.12.026

Hierarchy System Analysis and Reduction of Reacting Flow Models
Bykov, V.; Maas, U.
2011. Computational Science and High Performance Computing IV - The 4th Russian-German Advanced Research Workshop, Freiburg, Germany, October 12 to 16, 2009. Ed.: E. Krause, 233–252, Springer-Verlag. doi:10.1007/978-3-642-17770-5_18

On transformation to the singularly perturbed system
Bykov, V.
2011. Journal of physics / Conference Series, 268 (1), 012003/1–12. doi:10.1088/1742-6596/268/1/012003

Auto-ignition of toluene-doped n-heptane and iso-octane/air mixtures: High-pressure shock-tube experiments and kinetics modeling
Hartmann, M.; Gushterova, I.; Fikri, M.; Schulz, C.; Schießl, R.; Maas, U.
2011. Combustion and Flame, 158 (1), 172–178. doi:10.1016/J.COMBUSTFLAME.2010.08.005

Hybrid Rans/PDF calculations of a swirling bluff body flame (SM’1): Influence of the mixing model
De Meester, R.; Naud, B.; Maas, U.; Merci, B.
2011. Proceedings of the 7th Mediterranean Combustion Symposium (MCS’11), Sardinia, Italy, September 11-15, 2011, 1 CD-Rom, ICHMT

Influence of Non-equilibrium Plasma on the Ignition Process due to Repetitive Streamer Discharges
Langer, T.; Markus, D.; Maas, U.
2011. 42nd AIAA Plasmadynamics and Lasers Conference 2011 in Conjunction with the 18th International Conference on MHD Energy Conversion, Honolulu, Hawaii, USA, June 27-30, 2011; Vol. 1, 318–331, Curran

2D Mixture Fraction Studies in a Hot-Jet Ignition Configuration Using NO-LIF and Correlation Analysis
Sadanandan, R.; Schießl, R. A.; Markus, D.; Maas, U.
2011. Flow, Turbulence and Combustion, 86 (1), 45–62. doi:10.1007/s10494-010-9285-0

Laser ignition in DI gasoline engines
Banzhaf, G.; Kubach, H.; Spicher, U.; Groß, V.; Schießl, R.; Maas, U.
2011. Automotive and engine technology: 11th Stuttgart International Symposium, Stuttgart, Germany, February 22-23, 2011; Vol. 2, 445–468, ATZlive

The Extension of the Reaction/Diffusion Manifold Concept to Systems with Detailed Transport Models
Maas, U.; Bykov, V.
2011. Proceedings of the Combustion Institute, 33 (1), 1253–1259

Hierarchy Analysis and Reduction of Reacting Flow Systems
Bykov, V.; Maas, U.
2011. Computational Science and High Performance Computing IV. The 4th Russian-German Advanced Research Workshop, Freiburg, Germany, October 12 to 16, 2009. Ed.: E. Krause, 233–252, Springer-Verlag

Repetitive streamer discharges leading to Ignition of hydrogen/air mixtures
Langer, T.; Markus, D.; Maas, U.
2011. Science and Technology of Energetic Materials, 72 (2), 51–56

Implementation of REDIM reduced chemistry to Model an Axisymmetric Laminar Diffusion Methane/Air Flame
Konzen, P.; Richter, T.; Riedel, U.; Maas, U.
2011. Combustion Theory and Modelling, 15 (3), 299–323

Influence of Non-equilibrium Plasma in Streamer Discharges on the Ignition Process of Hydrogen/Air Mixtures
Langer, T.; Markus, D.; Maas, U.
2011. Proceedings of the Combustion Institute, volume 33. 33rd International Symposium on Combustion, Tsinghua University, Beijing, August 1 - 6, 2010. Ed.: P. Dagaut, Combustion Institute

Numerische und experimentelle Untersuchungen zum Einfluss von Fluktuationen bei der HCCI-Verbrennung. Dissertation
Schubert, A.
2011. KIT Scientific Publishing. doi:10.5445/KSP/1000023974

Numerische Simulation turbulenter reaktiver Strömungen mit einem hybriden CFD/transported PDF Modell. Dissertation
Lipp, S.
2011. KIT Scientific Publishing. doi:10.5445/KSP/1000023054

"Kleiner Funken - dramatische Wirkung" : Forschungsverbund am KIT untersucht unerwünschte Zündungen
Maas, U.; Radio Regenbogen
2010. (S. Fuchs, Hrsg.). doi:10.5445/DIVA/2010-399

Reaction-Diffusion Manifolds and Global Quasi-linearization: Two Complementary Methods for Mechanism Reduction
Bykov, V.; Maas, U.
2010. The open thermodynamics journal, 4 (2), 92–100. doi:10.2174/1874396X01004010092

Repetitive Streamer Discharges Leading to Ignition of Hydrogen/Air Mixtures
Langer, T.; Markus, D.; Maas, U.
2010. 8th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions, Yokohama (Japan)

Experimentelle und numerische Untersuchung von Zündprozessen in Folge von elektrischen Entladungen
Langer, T.; Simon, L. H.; Lienesch, F.; Paul, M.; Markus, D.; Maas, U.
2010. 12. Kolloquium zu Fragen der chemischen und physikalischen Sicherheitstechnik: 15. bis 16. Juni 2010 in Berlin, BAM/PTB, BAM

Transients Reducing the Breakdown Voltage and Leading to Icendive Predischarges
Langer, T.; Lienesch, F.; Markus, D.; Maas, U.
2010. Loss prevention and safety promotion in the process industries: proceedings of the 13th International Symposium, Brugge, Belgium, June 6 - 9, 2010; 676th Event of the EFCE Working Party on Loss Prevention. Ed.: G. Suter, Technologisch Instituut vzw

Investigations on Pre-Ignition in Highly Supercharged SI Engines
Dahnz, C.; Han, K.-M.; Spicher, U.; Magar, M.; Schiessl, R.; Maas, U.
2010. SAE International journal of engines, 3 (1), 214–224. doi:10.4271/2010-01-0355

A probabilistic model of thermal explosion in polydisperse fuel spray
Nave, O.; Bykov, V.; Goldstein, V.
2010. Applied Mathematics and Computation, 217 (6), 2698–2709. doi:10.1016/j.amc.2010.07.078

Scaling Invariant Interpolation for Singularly Perturbed Vector Fields (SPVF)
Bykov, V.; Goldstein, V.; Maas, U.
2010. Coping with Complexity. Ed.: T. J. Barth, 106–130, Springer-Verlag

Streamer Discharges Caused by High-Frequency Voltage Leading to Ignition of Hydrogen/Air Mixtures
Langer, T.; Markus, D.; Lienesch, F.; Maas, U.
2010. Combustion Science and Technology, 182 (11-12), 1718–1734. doi:10.1080/00102202.2010.497374

Impact of location and flow rate oscillation of the pilot jet on the flow structures in swirling premixed flames
Wang, P.; Fröhlich, J.; Maas, U.
2010. Journal of Turbulence, 11 (11), 1–19. doi:10.1080/14685241003789412

Laserzündung und Verbrennung im Ottomotor mit Direkteinspritzung
Groß, V.; Kubach, H.; Spicher, U.; Schießl, R.; Maas, U.
2010. Motortechnische Zeitschrift, 71 (7-8), 532–539

Untersuchung von Zündung und Verbrennung bei einem DIOtto Motor mit strahlgeführtem Brennverfahren und Laserzündung. [Bamberg]
Banzhaf, G.; Groß, V.; Kubach, H.; Spicher, U.; Schießl, R.; Maas, U.
2010. Informationstagung Motoren: Herbsttagung 2010; Abschluss- und Zwischenberichte der Forschungsstellen, gehalten auf der Informationstagung der FVV am 16. September 2010 in Bamberg, FVV

Untersuchung von Zündung und Verbrennung bei einem DIOtto Motor mit strahlgeführtem Brennverfahren und Laserzündung. [Aachen]
Banzhaf, G.; Groß, V.; Kubach, H.; Spicher, U.; Schießl, R.; Maas, U.
2010. Fahrzeug- und Motorentechnik: 19. Aachener Kolloquium; 4. - 6. Oktober 2010, Eurogress Aachen = Automobile and engine technology, fka

Laserdiagnostische Untersuchung der Tröpfchenverbrennung an einer turbulenten Freistrahlflamme mittels Raman-Spektroskopie. Dissertation
Malcherek, D.
2010. Cuvillier Verlag

OA Hybrid Finite-Volume/Transported PDF Model for Simulations of Turbulent Flames on Vector Machines
Lipp, S.; Lammers, P.; Maas, U.
2009. High performance computing in science and engineering ’ 08. Ed.: W. E. Nagel, 137–152, Springer-Verlag

Ignition of Hydrogen/Air Mixtures by Streamer Discharges
Langer, T.; Markus, D.; Lienesch, F.; Maas, U.
2009. Proceedings / 4th European Combustion Meeting : Vienna University of Technology: 14th - 17th April 2009, Vienna, Austria, Vienna

Analyse magerer turbulenter Verbrennungsprozesse mit Laser-Raman-Diagnostik und mathematischer Modellierung
Zieker, F.; Schießl, R.; Maas, U.
2009. Verbrennung und Feuerung: 24. Deutscher Flammentag; Tagung Bochum, 16. und 17. September 2009, 319–324, VDI Verlag

Simulation tools in order to assist the development of future gasoline engines
Schießl, R.; Maas, U.
2009. The Spark Ignition Engine of the Future: Proceedings of the International Conference and Exhibition, Straßburg, France, December 2-3, 2009, 1 CD-Rom, SIA

Influence of Laser-induced Ignition on Spray-guided Combustion - Experimental Results and Numerical Simulation of Ignition Processes
Groß, V.; Kubach, H.; Spicher, U.; Schießl, R.; Maas, U.
2009. SAE Paper. doi:10.4271/2009-01-2623

Elimination of fast modes in the coupled process of chemistry and diffusion in turbulent nonpremixed flames: an application of the REDIM approach
Roekaerts, D.; Merci, B.; Naud, B.; Maas, U.
2009. International Journal for Multiscale Computational Engineering, 7 (6), 487–508

Streamer Discharges Caused by High-Frequency Voltage Leading to Ignition of Hydrogen/Air Mixtures
Langer, T.; Lienesch, F.; Markus, D.; Maas, U.
2009. Proceedings. 22nd International Colloquium on the Dynamics of Explosions and Reactive Systems, July 27 - 31, 2009, Minsk, Belarus, Minsk

Global analysis of chemical kinetic mechanisms
Bykov, V.; Maas, U.
2009. Proceedings. 22nd International Colloquium on the Dynamics of Explosions and Reactive Systems (22nd ICDERS), July 27 - 31, 2009, Minsk, Belarus, Minsk

From Detailed Kinetics to Simplified Kinetics: Hierarchical Models for Combustion Chemistry
Bykov, V.; Maas, U.
2009. Proceedings of the Australian Combustion Symposium 2009: The University of Queensland December 2-4, 2009

Reaction-Diffusion Manifolds and Global Quasi-linearization: Two Complementary Methods for Mechanism Reduction
Bykov, V.; Maas, U.
2009. Proceedings of the Australian Combustion Symposium 2009: The University of Queensland December 2-4, 2009

Numerical simulations of combustion induced vortex breakdown in lean premixed flames using a hybrid CFD/transported PDF model
Lipp, S.; Maas, U.
2009. Verbrennung und Feuerung: 24. Deutscher Flammentag; Tagung Bochum, 16. und 17. September 2009, 187–192, VDI Verlag

Numerical simulations of flashback in lean premixed combustion systems using probability density function methods
Lipp, S.; Maas, U.
2009. Proceedings / 22nd International Colloquium on the Dynamics of Explosions and Reactive Systems, July 27 - 31, 2009, Minsk, Belarus, Minsk

Transient detailed numerical simulation of the combustion of carbon particles
Stauch, R.; Maas, U.
2009. International Journal of Heat and Mass Transfer, 52 (19-20), 4584–4591

Investigation of turbulent premixed combustion near extinction by Raman scattering
Zieker, F.; Schießl, R.; Maas, U.
2009. Proceedings / 4th European Combustion Meeting : Vienna University of Technology: 14th - 17th April 2009, Vienna, Austria, Vienna

Hierarchical Modeling of Combustion Processes
Maas, U.; Bykov, V.; Rybakov, A.; Stauch, R.
2009. High Performance Computing on Vector Systems 2008. Ed.: M. Resch, 111–127, Springer-Verlag

A hybrid transported PDF/CFD model for turbulent flames using REDIM
Lipp, S.; Magagnato, F.; Maas, U.
2009. Proceedings / 4th European Combustion Meeting : Vienna University of Technology: 14th - 17th April 2009, Vienna, Austria, Vienna

Numerical study on the impact of stable intermediates on engine combustion
Magar, M.; Wirbser, H.; Schießl, R.; Maas, U.
2009. Proceedings / 4th European Combustion Meeting : Vienna University of Technology: 14th - 17th April 2009, Vienna, Austria, Vienna

Auto-ignition of toluene doped n-heptane and isooctane/air mixtures: High-pressure shock-tube experiments and kinetic modeling
Hartmann, M.; Gushterova, I.; Schießl, R.; Maas, U.; Schulz, C.
2009. Proceedings / 4th European Combustion Meeting : Vienna University of Technology: 14th - 17th April 2009, Vienna, Austria, Vienna

Experiments and modeling of ignition delay times, flame structure and intermediate species of EHN-doped stoichiometric n-heptane/air combustion
Hartmann, M.; Tian, K.; Hofrath, C.; Fikri, M.; Schubert, A.; Schießl, R.; Starke, R.; Atakan, B.; Schulz, C.; Maas, U.
2009. Proceedings of the Combustion Institute, 32 (1), 197–204

Global and comparative analysis of chemical kinetics models in the self-ignition problem
Bykov, V.; Maas, U.
2009. Proceedings 4th European Combustion Meeting: Vienna University of Technology: 14th - 17th April 2009, Vienna, Austria, Vienna

Low pressure premixed CH4/air flames with forced periodic mixture fraction oscillations: experimental approach
Ax, H.; Kutne, P.; Meier, W.; König, K.; Maas, U.; Class, A.; Aigner, M.
2009. Applied Physics B: Lasers and Optics, 94 (4), 705–714

Auto-ignition during instationary jet evolution of dimethyl ether (DME) in a high-pressure atmosphere
Fast, G.; Kuhn, D.; Class, A. G.; Maas, U.
2009. Combustion and Flame, 156 (1), 200–213

Application of Reduced State Spaces to Laser-Based Measurements in Combustion
Schießl, R.; Kaiser, S.; Long, M.; Maas, U.
2009. Proceedings of the Combustion Institute, 32 (1), 887–894

Low pressure premixed CH4/air flames with forced periodic mixture fraction oscillations: experimental approach
Ax, H.; Kutne, P.; Meier, W.; König, K.; Maas, U.; Class A.; Aigner M.
2009. Applied Physics B, 94, 705–714

Investigation of the hierarchical structure of kinetic models in ignition problems
Bykov, V.; Maas, U.
2009. Zeitschrift für physikalische Chemie, 223 (4-5), 461–479. doi:10.1524/zpch.2009.6039

Problem adapted reduced models based on Reaction-Diffusion Manifolds (REDIMs)
Bykov, V.; Maas, U.
2009. Proceedings of the Combustion Institute, 32, 561–568. doi:10.1016/j.proci.2008.06.186

Auto-ignition during instationary jet evolution of dimethyl ether (DMR) in a high-pressure atmosphere
Fast, G.; Kuhn, D.; Class, A. G.
2009. Combustion and flame, 156 (1), 200–213. doi:10.1016/j.combustflame.2008.07.015

Investigation of the Dynamical Response of Methane/Air Counterflow Flames to Inflow Mixture Composition and Flow Field Perturbations
König, K.; Bykov, V.; Maas, U.
2009. Flow Turbulence and Combustion, 83 (1), 105–129

On-demand generation of reduced mechanisms based on hierarchically extended intrinsic low-dimensional manifolds in generalized coordinates
König, K.; Maas, U.
2009. Proceedings of the Combustion Institute, 32, 553–560. doi:10.1016/j.proci.2008.05.039

Manifold-Based Reduction of Large Kinetic Mechanisms
Maas, U.; Bykov, V.
2008. 46th AIAA Aerospace Sciences Meeting and Exhibit 2008, Reno, Nevada, January 7-10 2008, Curran

Simple global reduction technique based on decomposition approach
Bykov, V.; Goldshtein, V.; Maas, U.
2008. Combustion Theory and Modelling, 12 (2), 389–405

Numerical Analyses of the Effects of Mixture Quality on the Controlled Autoignition in Gasoline Engines
Hensel, S.; Sauter, S.; Sarikoc, F.; Kubach, H.; Spicher, U.; Schubert, A.; Schießl, R.; Maas, U.
2008. 7th International Conference on Modeling and Diagnostics for Advanced Engine systems, Sapporo 2008

Controlled Auto-Ignition - Reduction of Engine Emissions by Controlled Auto-Ignition in Gasoline Engines
Sauter, W.; Hensel, S.; Spicher, U.; Schubert, A.; Schießl, R.; Maas, U.
2008. MTZ - Motortechnische Zeitschrift, 69 (1), 60–67

Reduzierung der Motoremissionen durch kontrollierte Selbstzündung im Ottomotor
Sauter, W.; Hensel, S.; Spicher, U.; Schubert, A.; Schießl, R.; Maas, U.
2008. Motortechnische Zeitschrift, 69 (1), 60–67. doi:10.1007/BF03227277

Investigation of the dynamical response of methane-air counterflow flames to inflow mixture composition and flow field perturbations
König, K.; Bykov, B.; Maas, U.
2008. Flow, Turbulence and Combustions, Springer

A Hybrid Finite-Volume/Transported PDF Model for Simulations of Turbulent Flames on Vector Machines
Lipp, S.; Lammers, P.; Maas, U.
2008. High Performance Computing in Science and Engineering. Ed.: W.E. Nagel, 137–152, Springer

On-demand Generation of Reduced Mechanisms based on Hierarchically Extended Intrinsic Low-Dimensional Manifolds in Generalized coordinates
König, K.; Maas, U.
2008. Proceedings of the Combustion Institute, 32 (553-560)

New Modeling Approaches Using Detailed Kinetics for Advanced Engines
Meeks, E.; Ando, H.; Chou, C.-P.; Dean, A. M.; Hodgson, D.; Koshi, M.; Lengyel, I.; Maas, U.; Naik, C. V.; Puduppakkam, K. V.; Reitz, R.; Wang, C.; Westbrook, C. K.
2008. 7th International Conference on Modeling and Diagnostics for Advanced Engine Systems, (COMODIA 2008), July 28-31, 2008, Sapporo, Japan

The ignition of methanol droplets in a laminar convective environment
Stauch, R.; Maas, U.
2008. Combustion and Flame, 153, 45–57

Effects of Mixture Quality on Controlled Auto-Ignition
Sauter, W.; Hensel, S.; Spicher, U.; Schubert, A.; Schiessl, R.; Maas, U.
2008. atzautotechnology, 8 (3), 48–53

Simple global reduction technique based on decomposition approach
Bykov, V.; Gol’dshtein, V.; Maas, U.
2008. Combustion theory and modelling, 12 (2), 389–405. doi:10.1080/13647830701830251

Hierarchische Implementierungsstrategien für reduzierte Reaktionsmechanismen basierend auf Intrinsischen Niedrigdimensionalen Mannigfaltigkeiten. Dissertation
König, K.
2008. Universitätsverlag Karlsruhe. doi:10.5445/KSP/1000009610

Numerische Simulation des Reaktionsfortschrittes in einem Ottomotor mit kompressionsgezünderter Verbrennung = Numerical Simulation of the progress of chemical reactions in a HCCI engine
Hensel, S.; Sauter, W.; Kubach, H.; Velji, A.; Spicher, U.; Schubert, A.; Hofrath, C.; Schießl, R.; Maas, U.
2007. 11. Tagung Der Arbeitsprozess des Verbrennungsmotors, Graz, Österreich, 20. - 21. September 2007, 1–23

Joint Scalar and Velocity-Scalar PDF Modelling of a Bluff-Body Stabilised Flame
Merci, B.; Naud, B.; Roekaerts, D.; Maas, U.
2007. Proceedings of the European Combustion Meeting, Chania, Crete, Greece, 11-13 April, 2007

3D-CDF simulation of DI-Diesel combustion applying a progress variable approach accounting for complex chemistry
Steiner, R.; Bauer, C.; Krüger, C.; Otto, F.; Maas, U.
2007. SAE International

3D-CDF Simulation of DI-Diesel Combustion applying a Progress Variable Approach accounting for detailed Chemistry
Wenzel, P.; Steiner, R.; Krüger, C.; Schießl, R.; Hofrath, C.; Maas, U.
2007. Society of Automotive Engineers

Experimentelle und numerische Untersuchung der Selbstzündungsmechanismen für einen HCCI-Benzinbetrieb
Sauter, W.; Hensel, S.; Spicher, U.; Schubert, A.; Schießl, R.; Maas, U.
2007. 16. Kolloquium Fahrzeug- und Motorentechnik, Aachen, 8.-10 Oktober 2007

Numerische Simulation des Reaktionsfortschrittes in einem Ottomotor mit kompressionsgezündeter Verbrennung
Hensel, S.; Sauter, W.; Kubach, H.; Velji, A.; Spicher, U.; Schubert, A.; Hofrath, C.; Schießl, R.; Maas, U.
2007. 11. Tagung "Der Arbeitsprozess des Verbrennungsmotors" Graz, 20./21. September 2007

Laser-optische Untersuchung der Selbstentzündung von Sprays in Vormischzonen
Hinkeldey, O.; Schober, P.; Schießl, R.; Cano-Wolff, M.; Koch, R.; Bauer, H.-J.; Maas, U.
2007. 23. Deutscher Flammentag, Berlin, 12. und 13. Sept. 2007

Different Ignition Modes of n-Heptane Droplets in Air
Stauch, R.; Maas, U.
2007. Proceedings of the European Combustion Meeting, Chania, Crete, Greece, 11-13 April

Laser based study of auto-ignition of sprays in a continuous flow reactor
Hinkeldey, O.; Schießl, R.; Cano-Wolff, M.; Koch, R.; Bauer, H.-J.; Maas, U.
2007. Proceedings of the European Combustion Meeting, Chania, Crete, Greece, 11-13 April, 2007

A study of head-on quenching of premixed laminar flames: prediction of flame quenching distances for H2-Air and Methane-Air mixtures
Tanfour, M.; Hochgreb, S.; Maas, U.
2007. Proceedings of the European Combustion Meeting, Chania, Crete, Greece, 11-13 April, 2007

Ignition of Droplets in a Laminar Convective Environment
Stauch, R.; Maas, U.
2007. High Performance Computing in Science and Engineering 07. Ed.: W.E. Nagel, 241–253, Springer-Verlag

Reduction of reacting flow models by the REDIM method
Bykov, V.; Maas, U.
2007. 21st ICDERS - July 23-27, 2007 - Poitiers

Application of Model Fuels to Engine Simulation
Puduppakkam, K. V.; Deur, J. M.; Hodgson, D.; Meeks, E.; Miller, S. F.; Petrova, M. V.; Wang, C.; Westbrook, C. K.; Dean, A. M.; Green, W. H.; Koshi, M.; Maas, U.
2007. 5th US Combustion Meeting Organized by the Western States Section of the Combustion Institute and Hosted by the University of California at San Diego, March 25-28, 2007

The extension of the ILDM concept to reaction-diffusion manifolds
Bykov, V.; Maas, U.
2007. Combustion Theory and Modelling, 11 (6), 839–862

Von Elementarreaktionen zum technischen Verbrennungssystem
Schießl, R.; Maas, U.
2007. Fridericiana, 67, 25–28

Charakterisierung des Selbstentzündungsverhaltens höherer Kohlenwasserstoffe in einer Rapid Compression Machine
Schießl, R.; Wirbser, H.; Maas, U.
2007. Motorische Verbrennung, Tagung im Haus der Technik e.V., München, 15/16 März, 221–230

2D Mixture Fraction Studies In A Hot-jet Ignition Configuration Using NO-LIF and Correlation Analysis
Sadanandan, R.; Markus, D.; Schießl, R.; Maas, U.
2007. 21st ICDERS - July 23-27, 2007 - Poitiers

The auto-ignition of single n-heptane/iso-octane droplets
Stauch, R.; Maas, U.
2007. International Journal of Heat and Mass Transfer, 50, 3047–3053

Simulation of Premixed Swirling Flames Using a Hybrid Finite-Volume/Transported PDF Approach
Lipp, S.; Maas, U.
2007. High Performance Computing on Vector Systems 2007. Ed.: M. Resch, 181–193, Springer-Verlag

Joint Scalar vs. Joint Velocity-Scalar PDF Modelling of a Bluff-Body Stabilised Flames with REDIM
Merci, B.; Naud, B.; Roekaerts, D.; Maas, U.
2007. 5th International Symposium on Turbulence and Shear Flow Phenomena, München 2007

Global Quasi Linearization (GQL) for the automatic reduction of chemical kinetics
Bykov, V.; Gol’dshtein, V.; Maas, U.
2007. Proceedings of the European Combustion Meeting, Chania, Crete, Greece, 11-13 April, 2007

Extension of the ILDM method to the domain of slow chemistry
Bykov, V.; Maas, U.
2007. Proceedings of the Combustion Institute, 31 (1), 465–472

Detailed investigation of ignition by hot gas jets
Sadanandan, R.; Markus, D.; Schießl, R.; Maas, U.; Olofsson, J.; Seyfried, H.; Richter, M.; Aldenc, M.
2007. Proceedings of the Combustion Institute, 31 (1), 719–726

Detaillierte Simulation von Verbrennungsprozessen in Mehrphasensystemen. Dissertation
Stauch, R.
2007. dissertation.de. doi:10.5445/IR/1000007374

Selektive katalytische Reduktion von Stickoxiden in Kraftfahrzeugen: Untersuchung der Einspritzung von Harnstoffwasserlösung. Dissertation
Birkhold, F.
2007. Shaker Verlag

Ignition By Hot Gas Jets - A Detailed Investigation Using 2D Time Resolved Laser Techniques And Numerical Simulations. Dissertation
Sadanandan, R.
2007. dissertation.de

Effiziente Implementierung reduzierter Reaktionsmechanismen basierend auf intrinsischen niedrig-dimensionalen Mannigfaltigkeiten. Dissertation
Bauer, J.
2007. Cuvillier Verlag

Knock Behavior of SI-Engines: Thermodynamic Analysis of Knock Onset Locations and Knock Intensities
Rothe, M.; Heidenreich, T.; Spicher, U.; Schubert, A.
2006. SAE International. doi:10.4271/2006-01-0225

Thermodynamic Approach for the Assessment of the Knock Behavior of SI-Engines under Full Load Conditions
Rothe, M.; Schubert, A.; Spicher, U.
2006. Beiträge. 7. Internationales Symposium für Verbrennungsdiagnostik, 18./19. Mai 2006, Kurhaus Baden-Baden. Hrsg.: P. Ziegler, 145–165, AVL Deutschland

"Ghost’’ ILDM-Manifolds and their Identification
Borok, S.; Goldfarb, I.; Gol’dshtein, V.; Maas, U.
2006. Model Reduction and Coarse-Graining Approaches for Multiscale Phenomena. Ed.: A.N. Gorban, Springer-Verlag

On a modified version of ILDM approach: asymptotic analysis based on integral manifolds
Bykov, V.; Goldfarb, I.; Gol’dshtein, V.; Maas, U.
2006. IMA Journal of Applied Mathematics, 71, 359–382

Implementation of ILDMs based on a representation in generalized coordinates
Bauer, J.; Bykov, V.; Maas, U.
2006. Proceedings ECCOMAS CFD 2006. European Conference on Computational Fluid Dynamics, Egmond aan Zee, The Netherlands, September 5-8, 2006. Ed.: P. Wesseling, TU

Temperature fluctuations in the unburned mixture: Indirect visualisation based on LIF and numerical simulations
Schießl, R.; Schubert, A.; Maas, U.
2006. SAE International

Detailed numerical simulation of the auto-ignition of liquid fuel droplets
Stauch, R.; Lipp, S.; Maas, U.
2006. Advances in High Performance Computing and Computational Sciences. Ed.: Y. Shokin, 127–137, Springer-Verlag

Scalar PDF and velocity-scalar PDF modelling of the bluff-body stabilised flame HM1 using ILDM
Naud, B.; Merci, B.; Roekaerts, D.; Schmidt, D.; Maas, U.
2006. Turbulence, heat and mass transfer 5. Proceedings of the Fifth International Symposium on Turbulence, Heat and Mass Transfer Dubrovnik, Croatia, 25 - 29 September, 2006. Ed.: K. Hanjali, Begell House

A statistical model for the quantitative description of combustion in an HCCI engine
Schubert, A.; Schießl, R.; Maas, U.
2006. Beiträge. 7. Internationales Symposium für Verbrennungsdiagnostik, 18/19 May 2006. Kurhaus Baden-Baden. Hrsg.: P. Ziegler, 131–142, AVL Deutschland

Detailed numerical simulations of the autoignition of single -hephtane droplets in air
Stauch, R.; Lipp, S.; Maas, U.
2006. Combustion and Flame, 145, 533–542

Detailed numerical simulations of the autoignition of single n-heptane droplets in air
Stauch, R.; Lipp, S.; Maas, U.
2006. Combustion and Flame, 145, 533–542

Sensivity of intrinsic low-dimensional manifolds with respect to kinetic data
König, K.; Maas, U.
2005. Proceedings of the Combustion Institute, 30, 1317–1323

Sensitivity of intrinsic low-dimensional manifolds with respect to kinetic data
König, K.; Maas, U.
2005. Proceedings of the Combustion Institute, 30 (1), 1317–1323

Detailed numerical simulations of the auto-ignition and combustion of n-heptane droplets
Stauch, R.; Lipp, S.; Maas, U.
2005. Verbrennung und Feuerungen. 22. Deutscher Flammentag, Braunschweig, 21. und 22. September 2005, 217–223, VDI Verlag

Mixture Fraction Measurements During The Hot-Jet Ignition Of Hydrogen/Air Mixtures
Sadanandan, R.; Markus, D.; Schießl, R.; Maas, U.
2005. Proceedings of the European Combustion Meeting, Louvain-la-Neuve, Belgium, 2005

Implementation of ILDMs Based on Represantation in Generalized Coordinates
Bauer, J.; Maas, U.
2005. 20th ICDERS July 31 - August 5, Montreal, Canada

Generation of reduced models by decoupling of chemical kinetics and convection/diffusion processes
Bykov, V.; Maas, U.
2005. Proceedings of the 20th International Colloquium on the Dynamics of Explosions and Reactive Systems, 31 July - August 5 2005, Montreal, Canada

Numerische Simulation zur Regelung der Selbstzündung in CAI Motoren
Schiessl, R.; Schubert, A.; Maas, U.
2005. Kontrollierte Selbstzündung, Tagung im Haus der Technik e.V., Essen, 20/21 Oktober

Detailed investigation of pollutant formation in Wood Combustion
Klingel, T.; Maas, U.
2005. Proceedings of the European Combustion Meeting, 3 to 6 of April 2005, Louvain-la-Neuve, Belgium

An approach to the efficient modelling of lean, premixed HCCI-operation
Schubert, A.; Maiwald, O.; König, K.; Schiessl, R.; Maas, U.
2005. Proceedings of the European Combustion Meeting, 3 to 6 of April 2005, Louvain-la-Neuve, Belgium

Instantaneous and quantitative two-dimensional measurements of multiple scalars by Rayleigh/depolarized Rayleigh scattering in turbulent nonpremixed flames
Schießl, R.; Kaiser, S.; Long, M. B.; Maas, U.
2005. Proceedings of the European Combustion Meeting, 3 to 6 of April 2005, Louvain-la-Neuve, Belgium

Detailed Numerical Simulation of Droplet Combustion
Stauch, R.; Lipp, S.; Maas, U.
2005. Proceedings of the European Combustion Meeting, 3 to 6 of April 2005, Louvain-la-Neuve, Belgium

Investigation of the dynamics of periodically perturbed counterflow flames
König, K.; Maas, U.
2005. Proceedings of the European Combustion Meeting, Louvain-la-Neuve, Belgium 2005. ECM 2005. Ed.: V. Dias, Combustion Institute

Detailed numerical simulation of droplet combustion
Stauch, R.; Lipp, S.; Maas, U.
2005. Proceedings of the European Combustion Meeting, Louvain-la-Neuve, Belgium 2005. ECM 2005. Ed.: V. Dias, Combustion Institute

Detailed numerical simulations of the auto-ignition and combustion of n-heptane droplets
Stauch, R.; Lipp, S.; Maas, U.
2005. Verbrennung und Feuerungen. 22. Deutscher Flammentag, Braunschweig 2005, 217–223, VDI Verlag

Untersuchung der Oxidation von Propan bei Temperaturen von 700 bis 1200 Kelvin. Dissertation
Wagner, D.
2005. Cuvillier Verlag

Method for absolute OH--concentration measurements in premixed flames by LIF and numerical simulations
Schießl, R.; Maas, U.
2004. Applied Physics B, 79, 759–766

Laserdiagnostic investigation and detailed numerical modelling of ignition in a HCCI-engine
Schießl, R.; Maiwald, O.; König, K.; Maas, U.
2004. Proceedings. 6. Internationales Symposium für Verbrennungstechnik, Baden-Baden, Deutschland

Observation of the transmission of gas explosions through narrow gaps using time-resolved laser/Schlieren techniques
Sadanandan, R.; Markus, D.; Spilling, M.; Schießl, R.; Maas, U.; Olofsson, J.; Seyfried, H.; Richter, M.; Aldén, M.
2004. Proceedings of the 11th International Symposium on Loss Prevention and Safety Promotion, 31May-3 June 2004, Prague

Comparative Analysis of Two Assymptotic Approaches Based on Integral Manifolds
Goldfarb, I.; Goldstein, V.; Maas, U.
2004. IMA J. Applied Mathematics, 69, 353–374

Die Berechnung von Explosiosgrenzen mit detaillierter Reaktionskinetik
Markus, D.; Maas, U.
2004. Chemie Ingenieur Technik, 76 (3), 289–292

Sensitivity of intrinsic low-dimensional manifolds with respect to kinetic data
König, K.; Maas, U.
2004. Proceedings of the Combustion Institute, 30 (1), 1317–1323

Development and Systematic Optimization of a Small Scale Plant Oil Burner
Stumpf, E.; Mühlbauer, W.; Schießl, R.; Maas, U.
2003. Third European Conference on Small Burner Technology and Heating Equipment. Ed.: H. Köhne, 185–192, Shaker Verlag

Hierarchical Generation of ILDMs of Higher Hydrocarbons
Nafe, J.; Maas, U.
2003. Combustion and Flame, 135, 17–26

Räumliche Temperaturfluktuationen im Endgas von HCCI-Motoren: Nachweis und Einfluss auf Charakteristika der Verbrennung
Maiwald, O.; Schießl, R.; Maas, U.
2003. Verbrennung und Feuerungen. 21. Deutscher Flammentag, Cottbus, 9. und 10. September 2003, 267–274, VDI Verlag

Three-dimensional measurement of OH-concentration gradients in a turbulent flame by simultaneous measurements of laser-induced fluorscence and Raman scattering
Hoffmann, A.; Zimmermann, F.; Schulz, C.; Ruckwied, J.; Malcherek, D.; Dreier, T.; Schießl, R.; Maas, U.
2003. Combustion and Atmospheric Pollution. Ed.: G.D. Roy, 119–122, Torus Press

Indirect Measurements of Flames based on a coupling of laser-dignostics and mathematical analysis
Schiessl, R.; Maas, U.
2003. Combustion and Atmospheric Pollution. Ed.: G.D. Roy, 104–107, Torus Press

Laser-diagnostic measurements and modeling of combustion in HCCI engines
Maiwald, O.; Schießl, R.; Maas, U.
2003. Combustion and Atmospheric Pollution. Ed.: G.D. Roy, 123–126, Torus Press

Visualisierung von Temperaturfluktuaionen in einem Ottomotor mit laserinduzierter Fluoreszenz
Maiwald, O.; Schießl, R.; Maas, U.
2003. Motorische Verbrennung. VI. Tagung, im Haus der Technik e.V., München, 18./19. März 2003. Hrsg.: A. Leipertz, 209–217, ESYTEC Energie- und Systemtechnik

Analysis of Endgas Temperature Inhomogeneities in an SI Engine by Laser-Induced Fluorescence
Schießl, R.; Maas, U.
2003. Combustion and Flame, 133, 19–27

Flammability Limits of Premixed Methane/Methanol/Air Flames
Markus, D.; Schildberg, H.-P.; Wildner, W.; Krdzalic, G.; Maas, U.
2003. Combustion Science and Technology, 175, 2095–2112

Time resolved spray characterisation in a common rail direct injection production type diesel engine using combined Mie/LIF Diagnostics
Uhl, M.; Schießl, R.; Maas, U.; Dreizler, A.
2003. SAE International

Nebelschwaden von Hybridkühltürmen. Dissertation
Necker, J.
2003. Düsseldorf 2003. (Fortschritt-Berichte VDI. Reihe 15, Nr. 248.) Fak. f. Maschinenbau, Diss. v. 21.7.2003., Universität Karlsruhe (TH)