17th International Conference on Numerical Combustion - May 6-8, 2019 Aachen, Germany Conference Program
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17th International Conference on Numerical Combustion May 6-8, 2019 Aachen, Germany Conference Program
17th International Conference on Numerical Combustion May 6-8, 2019 Hotel Quellenhof Aachen, Germany Conference Program
Welcome Note
In your hands, you are holding the program of the 17th The NC series looks back on a history of more than thirty
International Conference on Numerical Combustion (NC19), years with the first edition being held in 1985 in Sophia
which takes place this May of 2019 in Aachen, Germany. Antipolis, France. The goal was to create a highly focused
This series of conferences, a well-established landmark in forum, which concentrates on the up and coming field of
the community, and especially the strong program of NC19 numerical combustion. The center of this conference is
reflect the high impact of advances in numerical combus- academic research while also providing a room for the
tion on the general field of combustion science. translation of academic findings into practically relevant
developments. Until now, sixteen NC conferences have
The selection of Aachen as the location for this edition been held over the past 34 years, alternating between
brings you to the heart of Europe – an excellent location, Europe and North America.
which combines a long history with excellent infrastructure
for exchanging new results and connecting to colleagues The organizing committee strived to reach the high stan-
from across the globe. dard of previous editions and expresses the wish that NC19
The program of NC19 offers a broad spectrum of topics will be a valuable branch on the ever continuously growing
including the integration of theory, modeling, and numerical importance of numerical tools in the field of combustion. It
algorithms to perform high-fidelity simulations of funda- is hoped that NC19 will mark the beginning of new contacts
mental combustion physics and technological applications. and collaboration among its participants. Everything is set
NC19 aspires to reflect this mix of research areas and pro- to help strengthen our area of work, engaging a talented
vides presentations and mini-symposia on traditional topics community in the challenges of turbulence modeling, sim-
as well as more recent research areas, such as high-per- ulation, and supporting measurements of relevance to
formance computing, data science, machine learning, and society as a whole.
artificial intelligence.
Greetings, on behalf of the Organizing Committee
Heinz Pitsch and Uwe Riedel
17th International Conference on Numerical Combustion
4
Keynote Speaker – Monday
Evatt Hawkes - The University of New South Wales, Sydney, Australia
Using DNS to Advance Simple Transported Probability Density
Function Models of Turbulent Combustion
Abstract Short Biography
The continuing development of Evatt Hawkes is a Professor at the
supercomputing capability offers sig- University of New South Wales,
nificant opportunity to productively Sydney (UNSW). His group applies
exploit direct numerical simulations high fidelity computational fluid
(DNS) in the development of models dynamics models to turbulent,
for turbulence-chemistry interac- reacting flows that underpin the per-
tions (TCI). Traditional paradigms for formance of combustion and solar
using DNS for these tasks include a energy systems. His work at the
priori tests and a posteriori tests. In nexus of big data and engineering
a priori tests, modelled quantities are applications is usually carried out
evaluated directly from DNS to pro- with the aid of large-scale super-
vide improved model form or deter- computing resources with a view to
mine coefficients. In a posteriori tests, making fundamental and practical
the model is run and outcomes are advances in problems of industrial
compared to DNS. A priori tests are limited by the fact that relevance in transportation, power generation, and other
sensitivities of a posteriori outcomes are unknown; models energy systems. Much of his work involves interaction with
that perform well in a priori tests can fail completely in a industry, with experimental researchers, and with interna-
posteriori tests, and vice versa. A posteriori tests are limited tional collaborators at universities and laboratories around
principally by insufficient scale separation in current DNS the globe.
cases; in LES, the TCI model does little work with typical Prior to joining UNSW in 2007, Professor Hawkes grad-
resolution, while in RANS, low-Re effects cause breakdown uated from University of Cambridge with a Ph.D. in 2001
of turbulence models, which contaminate assessments of and subsequently worked as a post-doc at the Combustion
TCI models. Research Facility of Sandia National Laboratories from
In my talk, I will discuss attempts in our group to partially 2002-2007. Professor Hawkes serves as Associate Editor of
circumvent both problems, by running what I call partial a Proceedings of the Combustion Institute, as Advisory Editor
posteriori tests, in which the model is run and outcomes of Flow, Turbulence and Combustion, and previously served
are assessed, but where DNS provide some inputs that as co-chair for the Turbulent Flames colloquium at the
constrain the model assessment to the TCI aspects. I will 36th International Symposium on Combustion. Professor
focus on simple models of turbulent combustion based on Hawkes’ contributions and leadership in turbulent combus-
the transported probability density function framework. I tion modelling have been recognised most notably by the
will consider three aspects, which are important to engine award of an Australian Research Council Future Fellowship
modelling: molecular micro-mixing of the gas phase via a in 2011, and in 2018 by his election as one of the inaugural
new, simplified multiple mapping conditioning model, the class of Fellows of the Combustion Institute.
distribution of spray source terms, and micro-mixing of
soot.
17th International Conference on Numerical Combustion
Keynote Speaker – Tuesday
Bénédicte Cuenot - CERFACS, Toulouse, France
Large Eddy Simulation of Turbulent Reacting Flows:
Methods and Applications
Abstract Short Biography
Thanks to the development of effi- Dr. Bénédicte Cuenot obtained her
cient massively parallel computing, engineering and master degree from
Large Eddy Simulation (LES) has Ecole Centrale de Paris in 1990. After
emerged in the past decades as one year as research engineer in
a powerful numerical approach to the University of Boulder (CO, USA),
meet the challenge of turbulent she came back to France where she
reacting flow simulation. By solving defended her PhD in 1995 and HdR in
the filtered unsteady problem on 2000, both in the field of numerical
refined grids, LES is able to provide combustion. She is now the leader
reliable predictive solutions of both of the combustion research group
academic configurations and real at CERFACS, developing advanced
industrial systems, and gives new and massively parallel softwares for
insight into the underlying physical the numerical simulation (DNS and
phenomena. LES) of turbulent combustion and
Turbulent combustion involves various interacting physical heat transfer (including thermal radiation) in industrial sys-
phenomena which must be described and coupled. This tems. With these tools, she addresses various topics such
includes turbulence, chemistry, heat transfer, acoustics, as pollutant emissions, ignition and extinction, combustion
but also two-phase flows and phase change to account for efficiency or thermal fatigue of combustion chambers. Dr.
liquid fuel, or solid particle dynamics and heterogeneous Cuenot teaches combustion and fluid mechanics at various
chemistry for soot prediction. Non-linearity, associated to a universities and has authored more than 80 peer-reviewed
wide range of space and time scales, makes the full reso- journal papers. She has participated in many collaborative
lution of turbulent combustion not affordable for practical projects at the national and international level, and is much
applications. Models are therefore required to reduce the experienced in coordinating European projects, mostly
problem complexity and describe the unresolved sub-grid financed by the European Commission where she also acts
scale processes. These models must be efficient, accurate, as an expert evaluator. She has been distinguished as a
reliable, and consider the interactions between the various Fellow of the Combustion Institute in 2018 and is a member
physics. of the Editorial Board of Combustion and Flame since 2018.
In the lecture, an overview of the physical models used for
LES of turbulent reacting flows will be given focusing on
the most recent and successful approaches. The method-
ology based on validation test cases to ensure accuracy
and reliability will be described and discussed. A selection
of applications will be then presented, in the fields of aero-
space propulsion, energy production, as well as chemical
and industrial processes. Comparison with experiments and
results analysis will allow to demonstrate the capacity of
LES to predict the behavior of complex problems. The lec-
ture will conclude with some perspectives on modelling but
also numerical and computational aspects.
6
Keynote Speaker – Wednesday
Alessandro Parente, Université Libre de Bruxelles, Brussels, Belgium
Data-Driven Simulation of Combustion Problems:
Identification of Empirical Manifolds, Classification,
Regression and Reduced-Order Modelling
Abstract Short Biography
There is little doubt that data-driven Alessandro Parente got his Master
science is significantly impacting the Degree in Chemical Engineering at
modeling, prediction, and control the Università di Pisa in 2005. He
of complex systems. We live a new then carried out a PhD at the same
wave of empiricism, enhanced by the University in collaboration with
massive availability of experimental the University of Utah, where he
and computational data, carrying served as Research Associate from
very valuable information. Indeed, November 2007 to December 2009.
mining large data sets can reveal In April 2009, Dr. Parente started
relationships and patterns we did not working at the von Karman Institute
anticipate and advance our current of Fluid Dynamics. In October 2010,
understanding and ability of model- he was appointed Assistant Professor
ling complex phenomena, including at the Aero-Thermo-Mechanical
combustion. In this context, the use Department of Université Libre de
of machine learning algorithms to predict the behaviors Bruxelles. Since October 2014, he is Associate Professor at
of complex systems is booming. However, the key for an the same Institution. In January 2015, Dr. Parente founded
effective use of machine learning tools in multi-physics the BURN joint research group on combustion and robust
problems, including combustion, is to couple them to phys- optimization, involving 7 full time professors and around 40
ical and computer models, to embody in them all the prior researchers. The research interests of Dr. Parente are in the
knowledge and physical constraints that can enhance their fields of turbulent/chemistry interaction in turbulent com-
performances, and to improve them based on the feed- bustion and reduced-order combustion models, non-con-
back coming for the validation experiments. In other words, ventional fuels and pollutant formation in combustion
we need to adapt the scientific method to bring machine systems, novel combustion technologies, numerical simu-
learning into the picture and make the best use of the lation of atmospheric boundary layer flows, and validation
massive amount of data we have produced thanks to the and uncertainty quantification.
advances in numerical computing. The present talk reviews
some of the open opportunities for the application of data-
based reduced-order modelling of combustion systems,
especially for alleviating the cost associated to chemical
kinetics in turbulent combustion simulations. Examples of
feature extraction in turbulent combustion data, empir-
ical low dimensional manifold identification, classification,
regression and reduced-order modelling will be provided.
17th International Conference on Numerical Combustion
Sponsors
We would like to thank the sponsors of the 17th International Conference on Numerical Combustion.
Gold Sponsor
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Silver Sponsor
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8
Committees
Steering Committee
■ Mitchell D. Smooke, Yale University, USA
■ D. Scott Stewart, University of Illinois, Urbana-Champaign, USA
■ Charles K. Westbrook, Lawrence Livermore National Laboratory, USA
■ Stewart R. Cant, University of Cambridge, United Kingdom
■ Jacqueline H. Chen, Sandia National Laboratories, USA
■ Vincent Giovangigli, CNRS, École Polytechnique, France
■ Ulrich Maas, University of Karlsruhe, Germany
■ Elaine S. Oran, University of Maryland, USA
Organizing Committee
■ Heinz Pitsch, Institute for Combustion Technology, RWTH Aachen University
■ Uwe Riedel, Institute of Combustion Technology, German Aerospace Center
and University of Stuttgart
17th International Conference on Numerical Combustion
10
Program Overview
17 th International Conference on Numerical Combustion
Sunday, May 5
Hotel Quellenhof - Kaminhalle
Registration
15:00 - 20:00
Welcome Reception
18:00 - 20:00Program Overview
17th International Conference on Numerical Combustion
Monday, May 6
Plenary, Hotel Quellenhof - Berlin 1-3
08:00 - 08:15
Welcome Remarks
Using DNS to Advance Simple Transported Probability Density Function Models of Turbulent Combustion
08:15 - 09:05
Evatt R. Hawkes
The University of New South Wales, Sydney, Australia
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Modeling 1 Droplets, and Spray Combus- Ignition 1 MS1 Filtered Density Function Reduction Methodology Internal Combustion Engines Numerical Methods 1
09:20 - 10:20
tion 1 (FDF) Methods for Turbulent
Reactive Flows 1
10:20 - 10:50 Coffee Break
Turbulent Flames - Modeling 1 Droplets, and Spray Combus- Ignition 1 MS1 Filtered Density Function Reduction Methodology Internal Combustion Engines Numerical Methods 1
10:50 - 12:10
tion 1 (FDF) Methods for Turbulent
Reactive Flows 1
12:10 - 13:30 Lunch Break
Turbulent Flames - Physics 1 Combustion Dynamics and MS2 Verification and Validation MS3 Numerical Modeling and Ignition, Quenching and Others Internal Combustion Engines Supersonic Combustion
13:30 - 15:30
Instabilities 1 of Combustion DNS Simulation of Combustion in and Stationary Combustion
Porous Media Systems
15:30 - 16:00 Coffee Break
Emissions - Soot Combustion Dynamics and Reduced Mechanisms and MS1 Filtered Density Function Ignition 2 Detonation Numerical Methods 2
16:00 - 18:20
Instabilities 2 Mechanism Evaluation (FDF) Methods for Turbulent
Reactive Flows 2Program Overview
12
Tuesday,
Tuesday, May
May 77
Plenary,
Plenary, Hotel
Hotel Quellenhof
Quellenhof -- Berlin
Berlin 1-3
1-3
Large
Large Eddy Simulation of Turbulent Reacting Flows: Methods and
Eddy Simulation of Turbulent Reacting Flows: Methods and Applications
- 09:05
Applications
08:15- 09:05
Bénédicte Cuenot
Bénédicte Cuenot
CERFACS,
CERFACS, Toulouse,
Toulouse, France
08:15
France
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Modeling 2 Droplets, and Spray Combus- MS4 High Performance Compu- MS1 Filtered Density Function Gas Turbines MS5 Algorithms, Applications Numerical Methods 3
- 10:20
Turbulent Flames - Modeling 2 Droplets, and Spray Combus- MS4 High Performance Compu- MS1 Filtered Density Function Gas Turbines MS5 Algorithms, Applications Numerical Methods 3
09:20- 10:20
tion 2 ting: Towards High Throughput (FDF) Methods for Turbulent and Software for Combustion
tion 2 ting: Towards High Throughput (FDF) Methods for Turbulent and Software for Combustion
Kinetics and Combustion Model Reactive Flows 3 Modeling on GPU and Hybrid
Kinetics and Combustion Model Reactive Flows 3 Modeling on GPU and Hybrid
09:20
Development 1 Architectures
Development 1 Architectures
10:20 - 10:50
10:20 - 10:50
Coffee
Coffee Break
Break
Turbulent Flames - Modeling 2 Droplets, and Spray Combus- MS4 High Performance Compu- MS1 Filtered Density Function Gas Turbines MS5 Algorithms, Applications Numerical Methods 3
Turbulent Flames - Modeling 2 Droplets, and Spray Combus- MS4 High Performance Compu- MS1 Filtered Density Function Gas Turbines MS5 Algorithms, Applications Numerical Methods 3
tion 2 ting: Towards High Throughput (FDF) Methods for Turbulent and Software for Combustion
- 12:10
tion 2 ting: Towards High Throughput (FDF) Methods for Turbulent and Software for Combustion
10:50- 12:10
Kinetics and Combustion Model Reactive Flows 3 Modeling on GPU and Hybrid
Kinetics and Combustion Model Reactive Flows 3 Modeling on GPU and Hybrid
Development 1 Architectures
Development 1 Architectures
10:50
12:10 - 13:30
12:10 - 13:30
Lunch
Lunch Break
Break
Turbulent Flames - Modeling 3 MS6 Modeling Challenges and MS10 Progress and Challenges MS4 High Performance Compu- MS8 Combustion Noise 1 MS9 The Role of Intrinsic MS7 Progress in Radiation Mo-
- 15:30
Turbulent Flames - Modeling 3 MS6 Modeling Challenges and MS10 Progress and Challenges MS4 High Performance Compu- MS8 Combustion Noise 1 MS9 The Role of Intrinsic MS7 Progress in Radiation Mo-
13:30- 15:30
Regime Features in Distributed in Predictive Modeling of Fires 1 ting: Towards High Throughput Instabilities in the Simulation deling in Combustion Systems 1
Regime Features in Distributed in Predictive Modeling of Fires 1 ting: Towards High Throughput Instabilities in the Simulation deling in Combustion Systems 1
Combustion Kinetics and Combustion Model of Premixed Combustion 1
Combustion Kinetics and Combustion Model of Premixed Combustion 1
Development 2
13:30
Development 2
15:30 - 16:00
15:30 - 16:00
Coffee
Coffee Break
Break
Laminar Flames 1 MS13 Untangling Numerics and MS10 Progress and Challenges MS12 Eulerian-Based Moment MS8 Combustion Noise 2 MS9 The Role of Intrinsic MS11 Numerical Modeling and
- 18:00
Laminar Flames 1 MS13 Untangling Numerics and MS10 Progress and Challenges MS12 Eulerian-Based Moment MS8 Combustion Noise 2 MS9 The Role of Intrinsic MS11 Numerical Modeling and
16:00- 18:00
Modeling: Viability of Explicit in Predictive Modeling of Fires 2 Closure Methods for the Nu- Instabilities in the Simulation Simulation of Detonations in
Modeling: Viability of Explicit in Predictive Modeling of Fires 2 Closure Methods for the Nu- Instabilities in the Simulation Simulation of Detonations in
Filtering for Reacting LES merical Modeling of Disperse of Premixed Combustion 2 High-Energy Explosives
Filtering for Reacting LES merical Modeling of Disperse of Premixed Combustion 2 High-Energy Explosives
Sprays
16:00
Sprays
19:00 - 23:00
19:00 - 23:00
Dinner
Dinner -- Historic
Historic City
City Hall
Hall17th International Conference on Numerical Combustion
Program Overview
Wednesday, May 8
Plenary, Hotel Quellenhof - Berlin 1-3
ata ri en Si lation o o tion ro le dentification o irical Mani old la ification e re ion and ed ced rder Modellin
08:15 - 09:05
Alessandro Parente
Université Libre de Bruxelles, Brussels, Belgium
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Physics 2 Droplets, Spray, and Heteroge- MS14 Combustion and Data Reaction Kinetics Modeling Software Engineering and High Detonation and Explosion Numerical Methods 4
09:20 - 10:20
neo o tion Science rtificial ntelli ence Performance Computing
and Machine Learning for
Analyzing Reacting Flows
10:20 - 10:50 Coffee Break
Turbulent Flames - Physics 2 Droplets, Spray, and Heteroge- MS14 Combustion and Data Reaction Kinetics Modeling Software Engineering and High Detonation and Explosion Numerical Methods 4
10:50 - 12:10
neo o tion Science rtificial ntelli ence Performance Computing
and Machine Learning for
Analyzing Reacting Flows
12:10 - 13:30 Lunch Break
Laminar Flames 2 MS15 Numerical Modeling of MS19 Combustion and Data MS16 New Techniques in Com- MS17 Towards Consensus on the MS18 Nano-Particle Synthesis MS7 Progress in Radiation Mo-
13:30 - 15:30
Combustion Instabilities Sciences: Novel Concepts in putational Kinetics 1 Studies of Flame Acceleration from Flames 1 deling in Combustion Systems 2
Data Analysis of Reacting Flows and e a ration to eto-
nation Transition (DDT) 1
15:30 - 16:00 Coffee Break
MS1 Filtered Density Function Heterogeneous Combustion MS20 Combustion and Data MS16 New Techniques in Com- MS17 Towards Consensus on the MS18 Nano-Particle Synthesis Fires, Real Gas Effects and
16:00 - 18:20
(FDF) Methods for Turbulent Sciences: Emerging Opportu- putational Kinetics 2 Studies of Flame Acceleration from Flames 2 Supercritical Combustion
Reactive Flows 4 nities and e a ration to eto-
nation Transition (DDT) 2Monday, May 6
14
Plenary, Hotel Quellenhof - Berlin 1-3
08:15
08:00 -- 08:15
Welcome Remarks
08:00
Using DNS to Advance Simple Transported Probability Density Function Models of Turbulent Combustion
09:05
08:15 -- 09:05
Evatt R. Hawkes
The University of New South Wales, Sydney, Australia
08:15
Chair: Jacqueline H. Chen
Morning Session
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Modeling 1 Droplets and Ignition 1 MS1 Filtered Density Function Reduction Methodology Internal Combustion Engines Numerical Methods 1
10:20
9:20 -- 10:20
Spray Combustion 1 (FDF) Methods for Turbulent
Reactive Flows 1
9:20
Chair: Simon Lapointe Chair: Andreas Kronenburg Chair: Laurent Selle Chair: Chenning Tong Chair: Stelios Rigopoulos Chair: Christian Hasse Chair: Jonathan F. MacArt
Large-eddy simulation of Numerical study of mul- Numerical study of centrifugal LES via FDF: A review RCCE Species Selection Under Zero-dimensional analysis of cceleration o reactin o
premixed turbulent combustion tico onent ra a e effects on premixed ignition Kinetic Uncertainty the end gas processes in SI en- simulation using a hybrid
09:40
using a convolutional neural propagation and a e gines using detailed chemical method based on sparse matrix
9:20 -- 09:40
network kinetics techniques and cell agglome-
ration
9:20
Varun Shastry, Quentin Cazeres, Rafael Meier, Amir Antonio Mar-
Andrea Seltz, Pascale Domingo, Eleonore Riber, Bénédicte Esteban Cisneros, Carlos Panta- tins Oliveira, Fernando Marcelo
Luc Vervisch Cuenot Junjie Miao, Yuxin Fan Zhuyin Ren no, Jonathan Freund Pereira Qing Xie, Zhuyin Ren
Analysis of local extinction and Modeling droplet evaporation Ignition of a premixed metha- n e ficient S a roac Global Quasi-Linearization Application of tabulated rid lattice olt ann fini-
re-ignition in partially-premi- and secondary breakup for si- ne air o o er a t r lent it rid a elet finite rate (GQL) reduced chemistry for chemistry in CFD simulations te-difference solver for com-
10:00
ed a e in an i ro ed mulations of spray combustion backward-facing step by Direct chemistry the auto-ignition process of of different types of internal bustion at low Mach numbers
9:40 -- 10:00
LES/FPV model Numerical Simulation CH4 , C2H2 and C2H4 combus- combustion engines
tion systems
9:40
Ferry Tap, Dmitry Goryntsev,
Xudong Jiang, Junjun Guo, Yan Constantin Sula, Holger Gross- Paul Pouech, Florent Duchaine, Martin Rieth, Jyh-Yuan Chen, Chunkan Yu, Viatcheslav Bykov, Carsten Schmalhorst, Peter Seyed Ali Hosseini, Nasser Dar-
Xiong, Pengfei Li, Zhaohui Liu hans, Miltiadis V. Papalexandris Thierry Poinsot Andreas Kempf Ulrich Maas Priesching abiha, Dominique Thévenin
al ation o t e e tended a- Analysis of multiphase MMC Computation of the ignition Investigation of subgrid-scale Dynamical study of the A numerical investigation on Towards understanding the
melet/progress variable model coupling using DNS of an probability map of a lean spray i in or i ro in filtered plasma-assisted oxidation of the roots of combustion cyclic afterburning of randomly
for NO prediction in pulverized evolving droplet-laden double burner density function approach for diluted hydrocarbons after a variation in a spark-ignited distributed metal particles
10:20
10:00 -- 10:20
coal a e shear layer turbulent combustion nanosecond pulse discharge lean gas engine following the detonation of
using its reduced-order repre- a condensed phase energetic
10:00
Chunguang Zhao, Kun Luo, sentation material
Ruipeng Cai, Jiangkuan Xing, Mahdi Ghaderi Masouleh, Karri
Zhengwei Gao, Haiou Wang, Marvin Sontheimer, Oliver Stein, Lorenzo Palanti, Simone Paccati, Chenning Tong, Wei Li, Mengyu- Aurelie Bellemans, Zak Eckert, Keskinen, Ossi Kaario, Heikki Bohoon Kim, Sanghun Choi,
Jianren Fan Andreas Kronenburg Antonio Andreini an Yuan, Shuaishuai Liu Fabrizio Bisetti Kahila, Ville Vuorinen Jack Yoh
10:50
10:20 -- 10:50
Coffee Break
10:20Morning
Morning Session
Session
17th International Conference on Numerical Combustion
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Modeling 1 Droplets and Ignition 1 MS1 Filtered Density Function Reduction Methodology Internal Combustion Engines Numerical Methods 1
- 12:10
Turbulent Flames - Modeling 1 Droplets and
Spray Combustion 1 Ignition 1 MS1
(FDF)Filtered
Methods Density Function
for Turbulent Reduction Methodology Internal Combustion Engines Numerical Methods 1
10:50- 12:10
Spray Combustion 1 (FDF) Methods
Reactive Flowsfor
1 Turbulent
Reactive Flows 1
10:50
Chair: Simon Lapointe Chair: Andreas Kronenburg Chair: Laurent Selle Chair: Chenning Tong Chair: Stelios Rigopoulos Chair: Christian Hasse Chair: Jonathan F. MacArt
Chair: Simon Lapointe Chair: Andreas Kronenburg Chair: Laurent Selle Chair: Chenning Tong Chair: Stelios Rigopoulos Chair: Christian Hasse Chair: Jonathan F. MacArt
n ence o di erent inetic CFD simulations of bio-slurry Large-Eddy Simulation of Flame PDF/FDF Construction Based on A reduced virtual chemistry An investigation of combustion Molecular level simulations of
n ence o di
mechanisms on erent inetic
the simulation CFD simulations
entrained o aofification
bio-slurry Large-Eddy Simulation
Dynamics during of Flame
the Ignition PDF/FDF ConstructionTurbulen-
the One-Dimensional Based on Amodel
reduced virtual
for soot chemistry
formation An investigation
modes of combustion
in dual-fuel RCCI-like Molecular
combustion level simulations
processes usingof
mechanisms on the simulation
results of a single-injector entrained o a ification Dynamics during
of a Swirling the Ignition
Injector Unit and the One-Dimensional Turbulen-
ce Model model for soot
rediction in aformation
e modes in dual-fuel
conditions RCCI-like
under different combustion processes using
the DSMC method
results
GOX/GCH4of acombustion
single-injector
cham- of a Swirlingwith
Comparison Injector Unit and
Experiments ce Model rediction in a e conditions under different
levels of composition strati- the DSMC method
- 11:10
GOX/GCH4 combustion cham- Comparison with Experiments levels
ficationof composition strati-
10:50- 11:10
ber using the DLR TAU-Code
ber
it using
a a the
eletDLR
co TAU-Code
tion fication
it a a elet co tion
10:50
model Karl Töpperwien, Théa Lancien,
model Quentin Fradet, Niranjan Fer- Karl Töpperwien,
Guillaume Vignat,Théa
KevinLancien,
Prieur, Shervin Karimkashi, Ville Vuori-
Jan van Schyndel, Victor Zhukov, Quentin Fradet,Braun-Unkhoff,
nando, Marina Niranjan Fer- Guillaume Vignat,
Daniel Durox, Kevin Prieur,
Sébastien Candel, Hernando Maldonado Colman, Shervin Karimkashi,
nen, Heikki VilleKaario,
Kahila, Ossi Vuori- Shrey Trivedi, R. Stewart Cant,
Jan van Schyndel,
Oschwald Michael,Victor Zhukov,
Tim Horchler nando, Marina Braun-Unkhoff,
Uwe Riedel Daniel
Ronan Durox, Sébastien Candel,
Vicquelin Tarek Echekki Hernando Maldonado
Nasser Darabiha, Colman,
Benoît Fiorina nen,
MarttiHeikki
LarmiKahila, Ossi Kaario, Shrey
John K.Trivedi,
HarveyR. Stewart Cant,
Oschwald Michael, Tim Horchler Uwe Riedel Ronan Vicquelin Tarek Echekki Nasser Darabiha, Benoît Fiorina Martti Larmi John K. Harvey
A strategy to couple Thickened Evaporation modeled by Three-dimensional numerical Scalar mixing models in LES/ Comparing mechanism reduc- Radiative heat transfer in Numerical Simulation of
AFlame
strategy to couple
Model Thickened
and adaptive Evaporation modeled
multi-component by for
theory Three-dimensional
simulation of FREI innumerical
a micro Scalar
o mixing models
t r lent et ain LES/
e Comparing mechanism
tion methods reduc-
with pyMARS: Radiative heat transfer
large two-stroke marineindiesel Numerical Simulation
One-Dimensional of
Detonations
Flame Model and
e refine ent adaptive
or t e S o multi-component
condensed energetictheory for
materials, simulation
o reactorof FREI
it aincontrolled
a micro o t r lent et a e tion methods with
Python-based pyMARS:
Model Automatic large
enginestwo-stroke marine diesel One-Dimensional Detonations
with Non-Ideal Equations of
- 11:30
e refine
turbulent ent orcombustion
premixed t e So condensed energetic
and the curious materials,
case of water teo reactor
erat re it a controlled
rofile Python-based Model Automatic
Reduction Software engines with
StateNon-Ideal Equations of
11:10- 11:30
turbulent premixed combustion and the curious case of water te erat re rofile Reduction Software State
11:10
Keisuke Akita, Youhi Morii, Hi- Stefan Geringer, Michele Bolla,
Cédric Mehl, Shuaishuai Liu, Yee Keisuke Akita, Youhi
sashi Nakamura, Morii,
Takuya Hi-
Tezuka, Stefan
ChandanGeringer, Michele
Paul, Daniel Bolla,
Haworth, Katherine Pielemeier, Joseph
Cédric Mehl,
Chee See, Shuaishuai
Olivier Colin Liu, Yee D. Scott Stewart, Moshe Matalon sashi
KaoruNakamura,
Maruta Takuya Tezuka, Yue Yang, Jiaping You Phillip Mestas, Kyle Niemeyer Chandan Paul,Boulouchos
Konstantinos Daniel Haworth, Katherine
Powers Pielemeier, Joseph
Chee See, Olivier Colin D. Scott Stewart, Moshe Matalon Kaoru Maruta Yue Yang, Jiaping You Phillip Mestas, Kyle Niemeyer Konstantinos Boulouchos Powers
Computational study of anode Numerical simulation of a A parametric study of the effect Development of Filtered Improvement of ethanol che- Prediction of combustion and Minimum error adaptation of
Computational
baking process study of anode
to reduce NOx Numerical
la inar co simulation
nter o of eroa ene Aofparametric study conditions
thermochemical of the effect Development of Filtered
Density Function for Supercriti- Improvement
mical kinetics of ethanol che-
mechanisms for Prediction of combustion
soot emissions in gasoline,and Minimum error adaptation
One-parameter of
Family of Inte-
baking process to reduce NOx la rro
inarate
coconter otionero
fieldene of thermochemical conditions
on the autoignition of transient Density Function for Supercriti-
cal-Pressure Turbulent Flows mical kinetics mechanisms
predicting high pressure, lowfor soot
direct-injectionin
emissions gasoline,
engines using One-parameter Family of Inte-
gration Formulae for Chemical
rro ate co
employing tion field
a multi-component on the autoignition
methane of transient
jets using axisymme- cal-Pressure Turbulent Flows predicting
temperature high pressure,
thermal low
ignition direct-injection
tabulated kineticsengines
and a using gration Formulae for Chemical
Kinetic ODEs
- 11:50
employing
fuel dropleta evaporation
multi-component
model methane
tric DNS jets using axisymme- temperature thermal ignition tabulated kinetics and a
two-equation semi-empirical Kinetic ODEs
11:30- 11:50
fuel droplet evaporation model tric DNS two-equation
model semi-empirical
model
11:30
Nozomu Hashimoto, Yushin Tommaso Lucchini, Davide
Nozomu Hashimoto,
Naito, Kinya Saito, JunYushin
Hayashi, Miriam Rabacal, George Gian- Tommaso Lucchini,
Paredi, Lorenzo Davide
Sforza, Gianluca
Prajakta Nakate, Domenico Naito,
NoriakiKinya Saito, Jun
Nakatsuka, Hayashi,
Fumiteru Miriam Rabacal,
nakopolous, George
Christos Gian-
Frouzakis, Augusto Pacheco, Amir Oliveira, Paredi,
D'Errico,Lorenzo
MicheleSforza,
Bardi, Gianluca
Xavier Youhi Morii, Eiji Shima, Kaoru
Prajakta Nakate, Domenico
Lahaye, Cornelis Vuik Noriaki Nakatsuka,
Akamatsu, Osamu FujitaFumiteru nakopolous, Christos Frouzakis,
Konstantinos Boulouchos Reza Sheikhi, Fatemeh Hadi Augusto Pacheco, Amir Oliveira,
Leonel Cancino D'Errico,
Gautrot Michele Bardi, Xavier Youhi
MarutaMorii, Eiji Shima, Kaoru
Lahaye, Cornelis Vuik Akamatsu, Osamu Fujita Konstantinos Boulouchos Reza Sheikhi, Fatemeh Hadi Leonel Cancino Gautrot Maruta
e e ect o Ste an o on An exploratory parametric Gasoline Internal combustion n ficient rid
e etran
eat ect oer Ste
coean o oona
ficient An
2-Dexploratory
DNS study ofparametric
prechamber Gasoline Internal combustion
Engine Modelling Validation n ficient
implementation rid
for Time-Im-
eat transpherical
reactive er coe ficient o ina
particle 2-D DNS study of prechamber
ignition Engine
FocusedModelling
on Spark Validation
Ignition implementation
plicit Integrationfor Time-Im-
of Arrhenius
- 12:10
reactive
a o spherical particle in ignition Focused on Spark Ignition plicit Integration of Arrhenius
11:50- 12:10
Combustion Kinetics
a o Combustion Kinetics
11:50
Thamali Rajika Jayawickrama, Sotirios Benekos, George Gian- Gaëtan Desoutter, George
Thamali Rajika Jayawickrama,
Kentaro Umeki, Nils E.L.Haugen, Sotirios Benekos,
nakopoulos, George
Christos Gian-
Frouzakis, Gaëtan Desoutter,
Mallouppas, StefanoGeorge
Duranti, Anne Felden, Marcus Day, John
Kentaro
MatthausUmeki, Nils E.L.Haugen,
U.Babler nakopoulos,
KonstantinosChristos Frouzakis,
Boulouchos Mallouppas,
Rickard SolsjöStefano Duranti, Anne
Bell Felden, Marcus Day, John
Matthaus U.Babler Konstantinos Boulouchos Rickard Solsjö Bell
- 13:30
12:10- 13:30
Lunch Break
Lunch Break
12:1016
Monday, May 6
Afternoon Session 1
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Physics 1 Combustion Dynamics and MS2 Verification and Validation MS3 Numerical Modeling and Ignition, Quenching and Others Internal Combustion Engines Supersonic Combustion
13:30 - 15:30
Instabilities 1 of Combustion DNS Simulation of Combustion in and Stationary Combustion
Porous Media Systems
Chair: Andrew J. Aspden Chair: Luca Magri Chair: Dominique Thévenin Chair: Sadaf Sobhani Chair: Scott Goldsborough Chair: Mohsen Talei Chair: Tomasz Drozda
Regimes of premixed turbulent Computational investigation on Using the Taylor-Green vortex Flame-structure analysis of Impact of dynamic combus- S o lar e a e in a tea Detonation stabilization in
a to i nition and de a ra- the dynamics and stabilization as a benchmark for combustion porous media combustion tion modelling in Large-Eddy cracking furnace with analyti- supersonic combustible mixtu-
tion under gas-turbine reheat o lti le all li e a e at DNS through pore-resolving simu- Simulation of light-round in an cally reduced chemistry res with suction of porous walls
13:30 - 13:50
combustion conditions terrestrial gravity lations annular combustor
Francisco E. Hernandez Perez,
Bruno Savard, Evatt Hawkes, Zhen Zhou, Yuriy Shoshin,
Aditya Konduri, Haiou Wang, Jeroen A. van Oijen, L. Philip H. Sadaf Sobhani, Joseph Ferguson, Stefano Puggelli, Denis Veynan- Sreejith N A, Eleonore Riber,
Jacqueline Chen de Goey, Hong G. Im Dominique Thévenin Matthias Ihme te, Ronan Vicquelin Benedicte Cuenot Xiaodong Cai, Jianhan Liang
Statistical dependence of Si latin field e i ion Methods and algorithms Propagation of premixed Examining Wall Quenching Numerical Simulation of e ect o S onic onfiner
mixture fraction and progress plasma mediation of microcom- used for the benchmark, with dro en a e in a canonical Phenomena Using Non-Adia- Oxyfuel Biomass Combustion in Flow on Detonation Propa-
13:50 - 14:10
variable in partially-premixed bustion emphasis on a high-order porous media batic Physically-Derived Fluidized Bed Boilers gation
combustion. discontinuous Galerkin code Reduced-Order Manifolds
Edward Richardson, Bruno Kyle Mackay, Jonathan Freund, Kihiro Bando, Eric Ching, Michael Francois Muller, Thierry Schuller, Austin Cody Nunno, Michael E. Mark Short, Carlos Chiquete,
Soriano Harley Johnson Sekachev, Matthias Ihme Laurent Selle Mueller Pavel Strachota James Quirk
r lent a e tr ct re deri- Lattice-Boltzmann model for Taylor-Green vortex as a bench- Filtrational Gas Combustion Large Eddy Simulation of Lean Modelling of cyclonic burner Dynamics of Two-Phase Flows
ed ro reaction field rid e lo Mac reacti e o mark of DNS combustion codes: in Porous Media and Micro Blow-Off in a Premixed Swirl through tabulated chemistry in Supersonic Combustion
Results and comparisons for Combustion Stabilized Flame with emphasis on heat transfer
14:10 - 14:30
the non-reacting cases mechanisms
Giuseppe Ceriello, Giancarlo
Sorrentino, Pino Sabia, Mara
Robert Schießl, Viatcheslav Muhammad Tayyab, Yongliang Sergey Minaev, Roman Fursenko, Pier Carlo Nassini, Daniele de Joannon, Antonio Cavaliere,
Bykov Feng, Pierre Boivin Ghislain Lartigue Vladimir Gubernov Pampaloni, Antonio Andreini Raffaele Ragucci Foluso Ladeinde17th International Conference on Numerical Combustion
Afternoon Session 1
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Physics 1 Combustion Dynamics and MS2 Verification and Validation MS3 Numerical Modeling and Ignition, Quenching and Others Internal Combustion Engines Supersonic Combustion
13:30 - 15:30
Instabilities 1 of Combustion DNS Simulation of Combustion in and Stationary Combustion
Porous Media Systems
Chair: Andrew J. Aspden Chair: Luca Magri Chair: Dominique Thévenin Chair: Sadaf Sobhani Chair: Scott Goldsborough Chair: Mohsen Talei Chair: Tomasz Drozda
The ignition process of a premi- Computational Studies of Flui- Taylor-Green vortex as a bench- Prediction of burning velocities enc in and a ac o Performance of a Dump Turbulence-Combustion Inter-
xed reactive jet in hot vitiated dized Bed in Stokes Regime mark of DNS combustion codes: and er adia atic a e dro en a e on er orated Diffuser Combustor at Various action Role in Supersonic Flow
14:30 - 14:50
cro o Results and comparisons for temperatures during the com- plate burners Realistic Inlet Conditions Simulation
Michal Benes, Pavel Strachota, the reacting cases bustion in porous inert media
Miroslav Kolar, Jakub Solovský,
Roberto Solana Pérez, Oliver Jakub Klinkovský, Žák Alexandr, Ilian Dinkov, Jordan Denev, Anna Shiryaeva, Anton Noz-
Schulz, Nicolas Noiray Pavel Eichler Abouelmagd Abdelsamie Henning Bockhorn Nijso Beishuizen, Daniel Mayer Heyu Wang, Kai Hong Luo drachev
Direct Numerical Simulation 3D Computations of Combus- Verification and Validation Determination of dispersion Gradient Trajectory Analysis of A gradient-based approach e in ence o ol o oro
of Multi-Injection Mixing and tion Limit Phenomena of Low of Combustion DNS : Results coe ficient o eat and a Turbulence Induced Extinction to optimal ignition in swirling scale on the wrinkling of turbu-
Combustion at Compression Lewis Number Mixture under and comparisons concerning for porous media by detailed Events a e lent premixed combustion
14:50 - 15:10
Ignition Engine Conditions Gravity-free Condition computing times numerical simulation
Takaki Akiba, Tomoya Okuno,
Hisashi Nakamura, Takuya Tezu-
Martin Rieth, Marc Day, Marco ka, Susume Hasegawa, Roman Christoph Wielnand, Zhou Jian,
Arienti, Hemanth Kolla, Jacque- Fursenko, Sergey Minaev, Masao Benedicte Cuenot, Gabriel Christoph Weis, Peter Habisreut- Dominik Denker, Antonio Attili,
line Chen Kikuchi, Kaoru Maruta Staffelbach her, Dimosthenis Trimis Mathis Bode, Heinz Pitsch Ubaid Ali Qadri Savio Vianna, Tatiele Ferreira
Physics-based turbulence Numerical modelling of the i c ion o Verification and Discussion of Numerical Mirrored continuum and mo-
forcing scheme for simulations hydrogen combustion using Validation of Combustion DNS Modeling and Simulation of lecular dynamics simulations
o t r lent a e e ten ion accurate Potential Energy Combustion in Porous Media o de a ration in a nano la
15:10 - 15:30
to ll co re i le o Surfaces of HMX
Kibaek Lee, D. Scott Stewart,
Guillaume Beardsell, Guillaume João Brandão, César Mogo, Wenli Kaushik Joshi, Santanu Chaud-
Blanquart Wang, Carolina Rio Jacqueline Chen Sadaf Sobhani huri
15:30 - 16:00
Coffee Break18
Monday, May 6
Afternoon Session 2
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Emissions - Soot Combustion Dynamics and Reduced Mechanisms and MS1 Filtered Density Function Ignition 2 Detonation Numerical Methods 2
16:00 - 18:20
Instabilities 2 Mechanism Evaluation (FDF) Methods for Turbulent
Reactive Flows 2
Chair: Michael E. Mueller Chair: Scott Martin Chair: Alessandro Stagni Chair: Shervin Sammak Chair: Tommaso Lucchini Chair: Svjetlana Stekovic Chair: Hemanth Kolla
Quadrature-Based Moment Analysis of premixed swirling Reduction of methane/dime- Deep Learning of PDF/FDF of Numerical study on premixed Numerical simulation of deto- Simulating Multidimensional
Closure Methods for Soot a e d na ic and a o- thyl-ether reaction mechanism Turbulence Closure cool a e initiation and nation initiation in multifocu- Reacting Flow with the Discon-
16:00 - 16:20
Prediction in Laminar Diffusion ciated a e tran er nction by using characteristic time- propagation sed systems tinuous Galerkin Method
Flames at Elevated Pressures modeling scales and entropy production
analyses
Ryan Johnson, Andrew Kercher,
Jacques Yushi Xing, Clinton Fabien Dupuy, Marco Gatti, Lau- Sylvia Porras, Viatcheslav Bykov, Maziar Raissi, Hessam Babaee, Alexander Lopato, Pavel Utkin, Gabriel Goodwin, Andrew Corri-
Groth, John Hu rent Gicquel, Thierry Schuller Ulrich Maas Peyman Givi Yiqing Wang, Zheng Chen Anatoly Vasil'ev gan, David Kessler
Numerical Study of Soot Prediction of self-excited Modellin o entrained o LES-PDF modelling in Compres- Numerical Investigation of Ig- Dynamics of detonation in An hp-adaptive Discontinuous
Formation in Co-Flow Laminar combustion dynamics in gas a ification in et lene sible Turbulent Reacting Flows nition Processes in a Transient condensed-phase explosives Galerkin Ordinary Differential
16:20 - 16:40
Diffusion Flames at Varying turbine model combustors glycol as a surrogate for using the Eulerian Stochastic o nter o onfi ration near the failure limit Equation Solver for Chemical
Pressures using large eddy simulation bio-slurries Fields Method Source Term Integration
Niranjan Fernando, Quentin
Daniel Fredrich, William Jones, Fradet, Marina Braun-Unkhoff, Salvador Navarro-Martinez, Yuri Zhen Sun, Arne Scholtissek, Stephen Voelkel, Carlos Chique- Andrew Kercher, Ryan Johnson,
Amin Mansouri, Seth Dworkin Andrew Marquis Uwe Riedel Almeida Wang Han, Christian Hasse te, Mark Short Andrew Corrigan
Soot Particle Concentration Large Eddy Simulations of Combustion Modeling in Solid On the accuracy of the stochas- Supervised Machine Learning onfine ent e ect on A numerical strategy for un-
Estimator Applied to a Tran- thermoacoustic instability Rocket Motor Plumes tic field et od or e ti atin Dual Fuel Ignition with a Glass condensed-phase, steady-state steady simulation of low Mach
16:40 - 17:00
sient Turbulent Non-premixed mechanisms in swirling spray scalar statistics within the Box - High Dimensional Model detonation propagation n er reactin o ect
Jet Flame a e scope of the LES-transported Representation (HDMR) to electric field
PDF approach
Leonardo Zimmer, Seth Dworkin, Ermanno Lo Schiavo, Davide
Antonio Attili, Heinz Pitsch, Laera, Laurent Gicquel, Thierry Tobias Ecker, Sebastian Karl, Wang Han, Zhen Sun, Arne Carlos Chiquete, Mark Short, Lucas Esclapez, Valentina Ric-
Fabrizio Bisetti Poinsot Klaus Hannemann Fabian Sewerin Scholtissek, Christian Hasse Stephen Voelkel chiuti, John Bell, Marc Day
o lin o t e toc a tic field Large-eddy simulation of Optimization of chemical me- Progress Toward Accurate and Kinetic Model for Studying the e n ence o i t Sti Focusing and dispersion error
PDF method with FGM reduced re i ed irl a e d na ic chanisms for MILD conditions Affordable Combustion Simu- Effect of Higher Hydrocarbons onfinin Material on t e for convection-diffusion-reac-
17:00 - 17:20
mechanisms nder l atin o di t r an- lations with PDF/FDF Methods on the Natural Gas Ignition Detonation of Highly Non-Ideal tion equation
ce ode identification and for Supersonic Combustion Explosives
validation Andrea Bertolino, Magnus Fürst, Applications Snehasish Panigrahy, Ahmed Soumyo Sengupta, Tapan
Alessio Frassoldati, Alessandro Mohamed, Henry Curran, Gilles Eduardo Lozano, Gregory Jack- Sengupta, Jyothi Kumar Puttam,
Max Staufer, Ruud Eggels Jinguo Sun, Shuiqing Li, Wei Cui Parente Tomasz Drozda, Andrew Norris Bourque son, Vilem Petr Vajjala Suman17th International Conference on Numerical Combustion
Afternoon Session 2
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Emissions - Soot Combustion Dynamics and Reduced Mechanisms and MS1 Filtered Density Function Ignition 2 Detonation Numerical Methods 2
16:00 - 18:20
Instabilities 2 Mechanism Evaluation (FDF) Methods for Turbulent
Reactive Flows 2
Chair: Michael E. Mueller Chair: Scott Martin Chair: Alessandro Stagni Chair: Shervin Sammak Chair: Tommaso Lucchini Chair: Svjetlana Stekovic Chair: Hemanth Kolla
Effect of EGR and Radiation Dynamics of laminar premixed Development of Skeletal Spectral Element-hp and Di- Thermal diffusivity effect on Real gas effects on the cellular
on Soot Morphology in ECN a e ected to re re Kinetic Mechanisms at Various scontinuous Galerkin Methods ethanol preignition in a shock structure of gaseous detonati-
17:20 - 17:40
Spray-A Combustion Chamber ct ation t e i ortance o Conditions for Methane for LES-FDF in Complex Flows tube ons at elevated pressures
detailed chemistry Combustion
Minh Bau Luong, Miguel
Figueroa-Labastida, Aliou Sow,
Khaled Mosharraf Mukut, Guillaume Beardsell, Andrei Hossein Janbazi, Kevin Roderigo, Shervin Sammak, Aidyn Aitzhan, ran is o ernánde re , Josue Melguizo-Gavilanes, Said
Somesh Roy Kanavalau, Guillaume Blanquart Andreas Kempf, Irenäus Wlokas Arash Nouri, Peyman Givi Aamir Farooq, Hong Im Taileb, Ashwin Chinnayya
Study of the impact of soot On the occurrence of high-fre- A comprehensive modelling A GPU-Accelerated FDF Mild ignition: experimental Quenching limits of multi-
sub-grid scales in an aero-en- quency thermoacoustic insta- study of ignition delay time Simulator observations and numerical dimensional detonation waves
gine model combustor at bilities in a single jet tubular characteristics of gaseous predictions confined an inert la er
17:40 - 18:00
elevated pressure. combustor hydrocarbons and their blends
over a wide range of working
conditions
Livia Tardelli, Benedetta Mohammadreza Baigmoham- Medet Inkarbekov, Aidyn Aitz-
Franzelli, Nasser Darabiha, Denis a id ari , ris ian e k, madi, Sergio Martinez, Henry han, Shervin Sammak, Aidark- Scott Goldsborough, Jeffrey Said Taileb, Josue Melguizo-Ga-
Veynante Andreas Kempf Curran, Andrzej Pekalski han Kaltayev, Peyman Givi Santner vilanes, Ashwin Chinnayya
Prediction of the soot particle on re ecti e o ndar Detailed computational in- Shock-to-Detonation Transition
size distribution in a turbulent Conditions for Thermoacoustic e ti ation o id ec anical of Submillimeter Nitromethane
18:00 - 18:20
non re i ed a e it t e Simulations behavior in rapid compression Films
LES-PBE-PDF approach machines
Omer Rathore, Salvador Navar- Scott Goldsborough, Christos an oui , Alber o ernánde ,
Binxuan Sun, Stelios Rigopoulos ro-Martinez Frouzakis, Yuri M. Wright D. Scott StewartTuesday,
Tuesday, May
May 77
20
Plenary,
Plenary, Hotel
Hotel Quellenhof
Quellenhof -- Berlin
Berlin 1-3
1-3
ar
ar ee dd
dd Si lation o t r lent reactin o et
et od
od and
and aa lication
- 09:05
Si lation o t r lent reactin o lication
08:15- 09:05
Bénédicte Cuenot
Bénédicte Cuenot
CERFACS,
CERFACS, Toulouse,
Toulouse, France
France
08:15
Chair:
Chair: Pascale Domingo
Pascale Domingo
Morning
Morning Session
Session
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3
Turbulent Flames - Modeling 2 Droplets and MS4 High Performance Compu- MS1 Filtered Density Function Gas Turbines MS5 Algorithms, Applications Numerical Methods 3
Turbulent Flames - Modeling 2 Droplets and MS4 High Performance Compu- MS1 Filtered Density Function Gas Turbines MS5 Algorithms, Applications Numerical Methods 3
- 10:20
Spray Combustion 2 ting: Towards High Throughput (FDF) Methods for Turbulent and Software for Combustion
09:20- 10:20
Spray Combustion 2 ting: Towards High Throughput (FDF) Methods for Turbulent and Software for Combustion
Kinetics and Combustion Model Reactive Flows 3 Modeling on GPU and Hybrid
Kinetics and Combustion Model Reactive Flows 3 Modeling on GPU and Hybrid
Development 1 Architectures
Development 1 Architectures
09:20
Chairs: James Sutherland, Ray
Chairs: James Sutherland, Ray
Chair: Wang Han Chair: Corinna Netzer Chair: Matteo Pelucchi Chair: Gustaaf Jacobs Chair: Fabrizio Bisetti Grout Chair: Temistocle Grenga
Chair: Wang Han Chair: Corinna Netzer Chair: Matteo Pelucchi Chair: Gustaaf Jacobs Chair: Fabrizio Bisetti Grout Chair: Temistocle Grenga
Direct Numerical Simulation S o t r lent ra a e From molecular to applica- Quantifying kinetic uncertainty Investigation of a lean prehea- Combustion Simulation A simulation concept for fast
Direct Numerical Simulation S o t r lent ra a e From molecular to applica- Quantifying kinetic uncertainty Investigation of a lean prehea- Combustion Simulation A simulation concept for fast
and modeling of highly diluted using virtual chemistry tion level: opportunities and in LES/FDF simulations using ted i re re et a e it Software for Extreme-Scale and accurate NOx description
and modeling of highly diluted using virtual chemistry tion level: opportunities and in LES/FDF simulations using ted i re re et a e it Software for Extreme-Scale and accurate NOx description
- 09:40
combustion in spark ignition challenges for a fully integrated active subspaces heat losses using LES Multiphysics Simulations on in shaft furnaces
09:20- 09:40
combustion in spark ignition challenges for a fully integrated active subspaces heat losses using LES Multiphysics Simulations on in shaft furnaces
engines system Emerging Platforms
engines system Emerging Platforms
Werner Rudolf Pollhammer,
Werner Rudolf Pollhammer,
09:20
Pascal Gruhlke, Hossein Janbazi, Christoph Spijker, Michael Koller,
Pascal Gruhlke, Hossein Janbazi, Christoph Spijker, Michael Koller,
douard uillaud, Karine ru n, Constantin Nguyen Van, Renaud Irenäus Wlokas, Christian Beck, James Sutherland, Josh Gernot Hackl, Harald Raupen-
douard uillaud, Karine ru n, Constantin Nguyen Van, Renaud Irenäus Wlokas, Christian Beck, James Sutherland, Josh Gernot Hackl, Harald Raupen-
Olivier Colin, Denis Veynante Mercier, Benoit Fiorina Heinz Pitsch, Liming Cai Zhuyin Ren Andreas Kempf McConnell strauch
Olivier Colin, Denis Veynante Mercier, Benoit Fiorina Heinz Pitsch, Liming Cai Zhuyin Ren Andreas Kempf McConnell strauch
A Filtered Optimized Chemistry Numerical Investigation of Im- Predictive Automated Combus- Simulation of Turbulent Flames LES prediction of soot in gas Balancing CPU and accelerator n ericall e ficient odel
A Filtered Optimized Chemistry Numerical Investigation of Im- Predictive Automated Combus- Simulation of Turbulent Flames LES prediction of soot in gas Balancing CPU and accelerator n ericall e ficient odel
model to account for subgrid pinging Spray Flame-Wall Heat tion Chemistry: A DOE-Exascale using Stochastic Eulerian Field turbines using a sectional soot performance in HPC simulati- or a fired eat roce e
model to account for subgrid pinging Spray Flame-Wall Heat tion Chemistry: A DOE-Exascale using Stochastic Eulerian Field turbines using a sectional soot performance in HPC simulati- or a fired eat roce e
cale a e rin lin in t e Transfer in Compression-Igni- Project TPDF Methods model coupled to a thickened on o lo Mac reactin o
cale a e rin lin in t e Transfer in Compression-Igni- Project TPDF Methods model coupled to a thickened on o lo Mac reactin o
formation of pollutants tion Engine Stephen Klippenstein, Andreas a e co tion odel
formation of pollutants tion Engine Stephen Klippenstein, Andreas a e co tion odel
- 10:00
Copan, Sarah Elliott, Matthew
09:40- 10:00
Copan, Sarah Elliott, Matthew
Johnson, Murat Keceli, Yi-Pei Li,
Johnson, Murat Keceli, Yi-Pei Li,
Kevin Moore, Ruben Van de Viv-
Kevin Moore, Ruben Van de Viv-
09:40
jer, Yunchao Wu, Carlo Cavallotti,
jer, Yunchao Wu, Carlo Cavallotti,
Yuri Georgievskii, Bill Green, Zlatko Raonic, Harald Raupen-
Yuri Georgievskii, Bill Green, Zlatko Raonic, Harald Raupen-
Cédric Mehl, Mélody Cailler, Re- Abhishek L. Pillai, Takuya Mu- Ahren Jasper, Tianfeng Lu, Judit Marc Day, Anne Felden, Steven strauch, Christoph Spijker,
Cédric Mehl, Mélody Cailler, Re- Abhishek L. Pillai, Takuya Mu- Ahren Jasper, Tianfeng Lu, Judit Marc Day, Anne Felden, Steven strauch, Christoph Spijker,
naud Mercier, Vincent Moureau, rata, Takato Ikedo, Ryo Masuda, ádor, a air, Al a ner, Jus in i ael ner, axi ilian Olivier Colin, Damien Aubag- Reeves, Ray Grout, Francois Franz Edler, Werner Rudolf
naud Mercier, Vincent Moureau, rata, Takato Ikedo, Ryo Masuda, ádor, a air, Al a ner, Jus in i ael ner, axi ilian Olivier Colin, Damien Aubag- Reeves, Ray Grout, Francois Franz Edler, Werner Rudolf
Benoît Fiorina Ryoichi Kurose Wozniak, Matteo Pelucchi Hansinger, Julian Zips nac-Karkar, Ahmad El Sayed Hamon Pollhammer
Benoît Fiorina Ryoichi Kurose Wozniak, Matteo Pelucchi Hansinger, Julian Zips nac-Karkar, Ahmad El Sayed Hamon Pollhammer
LES model for CO emissions in LES analysis of ambient Large Eddy Simulation of Hybrid Large Eddy Simula- Detailed kinetic scheme effect Detailed Kinetics Coulped to Faster Simulation Methods
LES model for CO emissions in LES analysis of ambient Large Eddy Simulation of Hybrid Large Eddy Simula- Detailed kinetic scheme effect Detailed Kinetics Coulped to Faster Simulation Methods
stationary gas turbines at part temperature effect on diesel Knocking Combustion in Direct tion/Filtered Density Function on Large-Eddy Simulations of CFD on CPU/GPU Platforms for One-Dimensional Laminar
stationary gas turbines at part temperature effect on diesel Knocking Combustion in Direct tion/Filtered Density Function on Large-Eddy Simulations of CFD on CPU/GPU Platforms for One-Dimensional Laminar
- 10:20
load conditions spray ignition in methane-air Injection Spark Ignited Engines Approaches: Mass Consistency the PRECCINSTA burner Flames
10:00- 10:20
load conditions spray ignition in methane-air Injection Spark Ignited Engines Approaches: Mass Consistency the PRECCINSTA burner Flames
mixtures Issues and Mixing Models
mixtures Issues and Mixing Models
Prospects
Prospects
10:00
Konstantin Kleinheinz, Lukas Pierre Benard, Ghislain Lartigue,
Konstantin Kleinheinz, Lukas Pierre Benard, Ghislain Lartigue,
Berger, Mathis Bode, Antonio Bulut Tekgul, Heikki Kahila, Ossi Marco Günther, Max Mally, Cesar Celis, Luís Fernando Vincent Moureau, Renaud Russell Whitesides, Matthew Simon Lapointe, Russell Whitesi-
Berger, Mathis Bode, Antonio Bulut Tekgul, Heikki Kahila, Ossi Marco Günther, Max Mally, Cesar Celis, Luís Fernando Vincent Moureau, Renaud Russell Whitesides, Matthew Simon Lapointe, Russell Whitesi-
Attili, Heinz Pitsch Kaario, Ville Vuorinen Stefan Pischinger Figueira da Silva Mercier McNenly des, Matthew McNenly
Attili, Heinz Pitsch Kaario, Ville Vuorinen Stefan Pischinger Figueira da Silva Mercier McNenly des, Matthew McNenly
- 10:50
10:20- 10:50
Coffee
Coffee Break
Break
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