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17th International Conference on Numerical Combustion

May 6-8, 2019 Aachen, Germany

Conference Program

17th International Conference on Numerical CombustionMay 6-8, 2019 Hotel QuellenhofAachen, Germany

Conference Program


In your hands, you are holding the program of the 17th International Conference on Numerical Combustion (NC19), which takes place this May of 2019 in Aachen, Germany. This series of conferences, a well-established landmark in the community, and especially the strong program of NC19 reflect the high impact of advances in numerical combus-tion on the general field of combustion science.

The selection of Aachen as the location for this edition brings you to the heart of Europe – an excellent location, which combines a long history with excellent infrastructure for exchanging new results and connecting to colleagues from across the globe.The program of NC19 offers a broad spectrum of topics including the integration of theory, modeling, and numerical algorithms to perform high-fidelity simulations of funda-mental combustion physics and technological applications. NC19 aspires to reflect this mix of research areas and pro-vides presentations and mini-symposia on traditional topics as well as more recent research areas, such as high-per-formance computing, data science, machine learning, and artificial intelligence.

The NC series looks back on a history of more than thirty years with the first edition being held in 1985 in Sophia Antipolis, France. The goal was to create a highly focused forum, which concentrates on the up and coming field of numerical combustion. The center of this conference is academic research while also providing a room for the translation of academic findings into practically relevant developments. Until now, sixteen NC conferences have been held over the past 34 years, alternating between Europe and North America.

The organizing committee strived to reach the high stan-dard of previous editions and expresses the wish that NC19 will be a valuable branch on the ever continuously growing importance of numerical tools in the field of combustion. It is hoped that NC19 will mark the beginning of new contacts and collaboration among its participants. Everything is set to help strengthen our area of work, engaging a talented community in the challenges of turbulence modeling, sim-ulation, and supporting measurements of relevance to society as a whole.

Greetings, on behalf of the Organizing Committee

Heinz Pitsch and Uwe Riedel

Welcome Note


Abstract

The continuing development of supercomputing capability offers sig-nificant opportunity to productively exploit direct numerical simulations (DNS) in the development of models for turbulence-chemistry interac-tions (TCI). Traditional paradigms for using DNS for these tasks include a priori tests and a posteriori tests. In a priori tests, modelled quantities are evaluated directly from DNS to pro-vide improved model form or deter-mine coefficients. In a posteriori tests, the model is run and outcomes are compared to DNS. A priori tests are limited by the fact that sensitivities of a posteriori outcomes are unknown; models that perform well in a priori tests can fail completely in a posteriori tests, and vice versa. A posteriori tests are limited principally by insufficient scale separation in current DNS cases; in LES, the TCI model does little work with typical resolution, while in RANS, low-Re effects cause breakdown of turbulence models, which contaminate assessments of TCI models.In my talk, I will discuss attempts in our group to partially circumvent both problems, by running what I call partial a posteriori tests, in which the model is run and outcomes are assessed, but where DNS provide some inputs that constrain the model assessment to the TCI aspects. I will focus on simple models of turbulent combustion based on the transported probability density function framework. I will consider three aspects, which are important to engine modelling: molecular micro-mixing of the gas phase via a new, simplified multiple mapping conditioning model, the distribution of spray source terms, and micro-mixing of soot.

Short Biography

Evatt Hawkes is a Professor at the University of New South Wales, Sydney (UNSW). His group applies high fidelity computational fluid dynamics models to turbulent, reacting flows that underpin the per-formance of combustion and solar energy systems. His work at the nexus of big data and engineering applications is usually carried out with the aid of large-scale super-computing resources with a view to making fundamental and practical advances in problems of industrial

relevance in transportation, power generation, and other energy systems. Much of his work involves interaction with industry, with experimental researchers, and with interna-tional collaborators at universities and laboratories around the globe.Prior to joining UNSW in 2007, Professor Hawkes grad-uated from University of Cambridge with a Ph.D. in 2001 and subsequently worked as a post-doc at the Combustion Research Facility of Sandia National Laboratories from 2002-2007. Professor Hawkes serves as Associate Editor of Proceedings of the Combustion Institute, as Advisory Editor of Flow, Turbulence and Combustion, and previously served as co-chair for the Turbulent Flames colloquium at the 36th International Symposium on Combustion. Professor Hawkes’ contributions and leadership in turbulent combus-tion modelling have been recognised most notably by the award of an Australian Research Council Future Fellowship in 2011, and in 2018 by his election as one of the inaugural class of Fellows of the Combustion Institute.

Keynote Speaker – MondayEvatt Hawkes - The University of New South Wales, Sydney, Australia

Using DNS to Advance Simple Transported Probability Density Function Models of Turbulent Combustion

6

Abstract

Thanks to the development of effi-cient massively parallel computing, Large Eddy Simulation (LES) has emerged in the past decades as a powerful numerical approach to meet the challenge of turbulent reacting flow simulation. By solving the filtered unsteady problem on refined grids, LES is able to provide reliable predictive solutions of both academic configurations and real industrial systems, and gives new insight into the underlying physical phenomena.Turbulent combustion involves various interacting physical phenomena which must be described and coupled. This includes turbulence, chemistry, heat transfer, acoustics, but also two-phase flows and phase change to account for liquid fuel, or solid particle dynamics and heterogeneous chemistry for soot prediction. Non-linearity, associated to a wide range of space and time scales, makes the full reso-lution of turbulent combustion not affordable for practical applications. Models are therefore required to reduce the problem complexity and describe the unresolved sub-grid scale processes. These models must be efficient, accurate, reliable, and consider the interactions between the various physics.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.

Short Biography

Dr. Bénédicte Cuenot obtained her engineering and master degree from Ecole Centrale de Paris in 1990. After one year as research engineer in the University of Boulder (CO, USA), she came back to France where she defended her PhD in 1995 and HdR in 2000, both in the field of numerical combustion. She is now the leader of the combustion research group at CERFACS, developing advanced and massively parallel softwares for the numerical simulation (DNS and LES) of turbulent combustion and

heat transfer (including thermal radiation) in industrial sys-tems. With these tools, she addresses various topics such as pollutant emissions, ignition and extinction, combustion efficiency or thermal fatigue of combustion chambers. Dr. Cuenot teaches combustion and fluid mechanics at various universities and has authored more than 80 peer-reviewed journal papers. She has participated in many collaborative projects at the national and international level, and is much experienced in coordinating European projects, mostly financed by the European Commission where she also acts as an expert evaluator. She has been distinguished as a Fellow of the Combustion Institute in 2018 and is a member of the Editorial Board of Combustion and Flame since 2018.

Keynote Speaker – TuesdayBénédicte Cuenot - CERFACS, Toulouse, France

Large Eddy Simulation of Turbulent Reacting Flows: Methods and Applications


Abstract

There is little doubt that data-driven science is significantly impacting the modeling, prediction, and control of complex systems. We live a new wave of empiricism, enhanced by the massive availability of experimental and computational data, carrying very valuable information. Indeed, mining large data sets can reveal relationships and patterns we did not anticipate and advance our current understanding and ability of model-ling complex phenomena, including combustion. In this context, the use of machine learning algorithms to predict the behaviors of complex systems is booming. However, the key for an effective use of machine learning tools in multi-physics problems, including combustion, is to couple them to phys-ical and computer models, to embody in them all the prior knowledge and physical constraints that can enhance their performances, and to improve them based on the feed-back coming for the validation experiments. In other words, we need to adapt the scientific method to bring machine learning into the picture and make the best use of the massive amount of data we have produced thanks to the 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.

Short Biography

Alessandro Parente got his Master Degree in Chemical Engineering at the Università di Pisa in 2005. He then carried out a PhD at the same University in collaboration with the University of Utah, where he served as Research Associate from November 2007 to December 2009. In April 2009, Dr. Parente started working at the von Karman Institute of Fluid Dynamics. In October 2010, he was appointed Assistant Professor at the Aero-Thermo-Mechanical Department of Université Libre de

Bruxelles. Since October 2014, he is Associate Professor at the same Institution. In January 2015, Dr. Parente founded the BURN joint research group on combustion and robust optimization, involving 7 full time professors and around 40 researchers. The research interests of Dr. Parente are in the fields of turbulent/chemistry interaction in turbulent com-bustion and reduced-order combustion models, non-con-ventional fuels and pollutant formation in combustion systems, novel combustion technologies, numerical simu-lation of atmospheric boundary layer flows, and validation and uncertainty quantification.

Keynote Speaker – WednesdayAlessandro Parente, Université Libre de Bruxelles, Brussels, Belgium

Data-Driven Simulation of Combustion Problems: Identification of Empirical Manifolds, Classification,

Regression and Reduced-Order Modelling

8

Sponsors

We would like to thank the sponsors of the 17th International Conference on Numerical Combustion.

Gold Sponsor

Siemens PLM Software helps companies of all sizes around the world to transform their business and develop innovative products and services. Our customers are better equipped to respond successfully to the challenges of digitalization. Our solutions optimize their processes from planning and development through manufacturing and lifecycle support

to realize innovation.

Silver Sponsor

Convergent Science is an innovative, rapidly expanding computational fluid dynamics (CFD) company. Our flagship product, CONVERGE, is a revolutionary CFD software with truly autonomous meshing capabilities that eliminate the grid generation bottleneck from the simulation process. Convergent Science is headquartered in Madison, Wisconsin,

and has offices in the United States, Europe, and India and distributors worldwide.


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

Sunday, May 5

Program Overview17 th International Conference on Numerical Combustion

Hotel Quellenhof - Kaminhalle

Registration15:00 - 20:00

Welcome Reception18:00 - 20:00

10

Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3

09:20

- 10

:20 Turbulent Flames - Modeling 1 Droplets, and Spray Combus-tion 1

Ignition 1 MS1 Filtered Density Function (FDF) Methods for Turbulent Reactive Flows 1

Reduction Methodology Internal Combustion Engines Numerical Methods 1

10:20 - 10:50 Coffee Break

10:50

- 12


Ignition 1 MS1 Filtered Density Function (FDF) Methods for Turbulent Reactive Flows 1

Reduction Methodology Internal Combustion Engines Numerical Methods 1

12:10 - 13:30 Lunch Break

13:30

- 15

:30 Turbulent Flames - Physics 1 Combustion Dynamics and Instabilities 1

MS2 Verification and Validation of Combustion DNS

MS3 Numerical Modeling and Simulation of Combustion in Porous Media

Ignition, Quenching and Others Internal Combustion Engines and Stationary Combustion Systems

Supersonic Combustion


16:00

- 18

:20 Emissions - Soot Combustion Dynamics and Instabilities 2

Reduced Mechanisms and Mechanism Evaluation

MS1 Filtered Density Function (FDF) Methods for Turbulent Reactive Flows 2

Ignition 2 Detonation Numerical Methods 2

Program OverviewMonday, May 6

Plenary, Hotel Quellenhof - Berlin 1-3

08:00

- 08

:15

Welcome Remarks

08:15

- 09

:05 Using DNS to Advance Simple Transported Probability Density Function Models of Turbulent CombustionEvatt R. Hawkes

The University of New South Wales, Sydney, Australia



09:20

- 10


MS4 High Performance Compu-ting: Towards High Throughput Kinetics and Combustion Model Development 1


Gas Turbines MS5 Algorithms, Applications and Software for Combustion Modeling on GPU and Hybrid Architectures

Numerical Methods 3


10:50

- 12

:10

Turbulent Flames - Modeling 2 Droplets, and Spray Combus-tion 2




Numerical Methods 3


13:30

- 15

:30 Turbulent Flames - Modeling 3 MS6 Modeling Challenges and Regime Features in Distributed Combustion

MS10 Progress and Challenges in Predictive Modeling of Fires 1


MS8 Combustion Noise 1 MS9 The Role of Intrinsic Instabilities in the Simulation of Premixed Combustion 1

MS7 Progress in Radiation Mo-deling in Combustion Systems 1


16:00

- 18

:00 Laminar Flames 1 MS13 Untangling Numerics and Modeling: Viability of Explicit Filtering for Reacting LES


MS12 Eulerian-Based Moment Closure Methods for the Nu-merical Modeling of Disperse Sprays


MS11 Numerical Modeling and Simulation of Detonations in High-Energy Explosives

19:00 - 23:00 Dinner - Historic City Hall

Program OverviewTuesday, May 7


08:15

- 09

:05 Large Eddy Simulation of Turbulent Reacting Flows: Methods and ApplicationsBénédicte Cuenot

CERFACS, Toulouse, France


09:20

- 10





Numerical Methods 3


10:50

- 12

:10





Numerical Methods 3


13:30

- 15







16:00

- 18









08:15

- 09


CERFACS, Toulouse, FranceBrüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K2 K3

09:20

- 10





Numerical Methods 3


10:50

- 12

:10





Numerical Methods 3


13:30

- 15







16:00

- 18









08:15

- 09



12

Program OverviewWednesday, May 8


09:20

- 10

:20 Turbulent Flames - Physics 2 Droplets, Spray, and Heteroge-neo o tion

MS14 Combustion and Data Science rtificial ntelli ence and Machine Learning for Analyzing Reacting Flows

Reaction Kinetics Modeling Software Engineering and High Performance Computing

Detonation and Explosion Numerical Methods 4


10:50

- 12

:10 Turbulent Flames - Physics 2 Droplets, Spray, and Heteroge-neo o tion


Reaction Kinetics Modeling Software Engineering and High Performance Computing

Detonation and Explosion Numerical Methods 4


13:30

- 15

:30 Laminar Flames 2 MS15 Numerical Modeling of Combustion Instabilities

MS19 Combustion and Data Sciences: Novel Concepts in Data Analysis of Reacting Flows

MS16 New Techniques in Com-putational Kinetics 1

MS17 Towards Consensus on the Studies of Flame Acceleration

and e a ration to eto-nation Transition (DDT) 1

MS18 Nano-Particle Synthesis from Flames 1



16:00

- 18

:20 MS1 Filtered Density Function (FDF) Methods for Turbulent Reactive Flows 4

Heterogeneous Combustion MS20 Combustion and Data Sciences: Emerging Opportu-nities





Fires, Real Gas Effects and Supercritical Combustion


08:15

- 09

:05 ata ri en Si lation o o tion ro le dentification o irical Mani old la ification e re ion and ed ced rder ModellinAlessandro Parente

Université Libre de Bruxelles, Brussels, Belgium


09:20

- 10





Numerical Methods 3


10:50

- 12

:10





Numerical Methods 3


13:30

- 15







16:00

- 18









08:15

- 09




14


10:50

- 12

:10 Turbulent Flames - Modeling 1

Chair: Simon Lapointe

Droplets and Spray Combustion 1

Chair: Andreas Kronenburg

Ignition 1

Chair: Laurent Selle


Chair: Chenning Tong

Reduction Methodology

Chair: Stelios Rigopoulos

Internal Combustion Engines

Chair: Christian Hasse

Numerical Methods 1

Chair: Jonathan F. MacArt

10:50

- 11:

10

n ence o di erent inetic mechanisms on the simulation results of a single-injector GOX/GCH4 combustion cham-ber using the DLR TAU-Code

it a a elet co tion model

Jan van Schyndel, Victor Zhukov, Oschwald Michael, Tim Horchler

CFD simulations of bio-slurry entrained o a ification

Quentin Fradet, Niranjan Fer-nando, Marina Braun-Unkhoff, Uwe Riedel

Large-Eddy Simulation of Flame Dynamics during the Ignition of a Swirling Injector Unit and Comparison with Experiments

Karl Töpperwien, Théa Lancien, Guillaume Vignat, Kevin Prieur, Daniel Durox, Sébastien Candel, Ronan Vicquelin

PDF/FDF Construction Based on the One-Dimensional Turbulen-ce Model

Tarek Echekki

A reduced virtual chemistry model for soot formation

rediction in a e

Hernando Maldonado Colman, Nasser Darabiha, Benoît Fiorina

An investigation of combustion modes in dual-fuel RCCI-like conditions under different levels of composition strati-fication

Shervin Karimkashi, Ville Vuori-nen, Heikki Kahila, Ossi Kaario, Martti Larmi

Molecular level simulations of combustion processes using the DSMC method

Shrey Trivedi, R. Stewart Cant, John K. Harvey

11:10

- 11:

30

A strategy to couple Thickened Flame Model and adaptive

e refine ent or t e S o turbulent premixed combustion

Cédric Mehl, Shuaishuai Liu, Yee Chee See, Olivier Colin

Evaporation modeled by multi-component theory for condensed energetic materials, and the curious case of water

D. Scott Stewart, Moshe Matalon

Three-dimensional numerical simulation of FREI in a micro

o reactor it a controlled te erat re rofile

Keisuke Akita, Youhi Morii, Hi-sashi Nakamura, Takuya Tezuka, Kaoru Maruta

Scalar mixing models in LES/ o t r lent et a e

Yue Yang, Jiaping You

Comparing mechanism reduc-tion methods with pyMARS: Python-based Model Automatic Reduction Software

Phillip Mestas, Kyle Niemeyer

Radiative heat transfer in large two-stroke marine diesel engines

Stefan Geringer, Michele Bolla, Chandan Paul, Daniel Haworth, Konstantinos Boulouchos

Numerical Simulation of One-Dimensional Detonations with Non-Ideal Equations of State

Katherine Pielemeier, Joseph Powers

11:30

- 11:

50

Computational study of anode baking process to reduce NOx

Prajakta Nakate, Domenico Lahaye, Cornelis Vuik

Numerical simulation of a la inar co nter o ero ene

rro ate co tion field employing a multi-component fuel droplet evaporation model

Nozomu Hashimoto, Yushin Naito, Kinya Saito, Jun Hayashi, Noriaki Nakatsuka, Fumiteru Akamatsu, Osamu Fujita

A parametric study of the effect of thermochemical conditions on the autoignition of transient methane jets using axisymme-tric DNS

Miriam Rabacal, George Gian-nakopolous, Christos Frouzakis, Konstantinos Boulouchos

Development of Filtered Density Function for Supercriti-cal-Pressure Turbulent Flows

Reza Sheikhi, Fatemeh Hadi

Improvement of ethanol che-mical kinetics mechanisms for predicting high pressure, low temperature thermal ignition

Augusto Pacheco, Amir Oliveira, Leonel Cancino

Prediction of combustion and soot emissions in gasoline, direct-injection engines using tabulated kinetics and a two-equation semi-empirical model

Tommaso Lucchini, Davide Paredi, Lorenzo Sforza, Gianluca D'Errico, Michele Bardi, Xavier Gautrot

Minimum error adaptation of One-parameter Family of Inte-gration Formulae for Chemical Kinetic ODEs

Youhi Morii, Eiji Shima, Kaoru Maruta

11:50

- 12

:10

e e ect o Ste an o on eat tran er coe ficient o a

reactive spherical particle in a o

Thamali Rajika Jayawickrama, Kentaro Umeki, Nils E.L.Haugen, Matthaus U.Babler

An exploratory parametric 2-D DNS study of prechamber ignition

Sotirios Benekos, George Gian-nakopoulos, Christos Frouzakis, Konstantinos Boulouchos

Gasoline Internal combustion Engine Modelling Validation Focused on Spark Ignition

Gaëtan Desoutter, George Mallouppas, Stefano Duranti, Rickard Solsjö

n ficient rid implementation for Time-Im-plicit Integration of Arrhenius Combustion Kinetics

Anne Felden, Marcus Day, John Bell

Morning Session

12:10

- 13

:30

Lunch Break


9:20

- 10:2

0 Turbulent Flames - Modeling 1




Ignition 1








Numerical Methods 1


9:20

- 09:4

0

Large-eddy simulation of premixed turbulent combustion using a convolutional neural network

Andrea Seltz, Pascale Domingo, Luc Vervisch

Numerical study of mul-tico onent ra a e propagation

Varun Shastry, Quentin Cazeres, Eleonore Riber, Bénédicte Cuenot

Numerical study of centrifugal effects on premixed ignition and a e

Junjie Miao, Yuxin Fan

LES via FDF: A review

Zhuyin Ren

RCCE Species Selection Under Kinetic Uncertainty

Esteban Cisneros, Carlos Panta-no, Jonathan Freund

Zero-dimensional analysis of the end gas processes in SI en-gines using detailed chemical kinetics

Rafael Meier, Amir Antonio Mar-tins Oliveira, Fernando Marcelo Pereira

cceleration o reactin o simulation using a hybrid method based on sparse matrix techniques and cell agglome-ration

Qing Xie, Zhuyin Ren

9:40

- 10:0

0

Analysis of local extinction and re-ignition in partially-premi-

ed a e in an i ro ed LES/FPV model

Xudong Jiang, Junjun Guo, Yan Xiong, Pengfei Li, Zhaohui Liu

Modeling droplet evaporation and secondary breakup for si-mulations of spray combustion

Constantin Sula, Holger Gross-hans, Miltiadis V. Papalexandris

Ignition of a premixed metha-ne air o o er a t r lent backward-facing step by Direct Numerical Simulation

Paul Pouech, Florent Duchaine, Thierry Poinsot

n e ficient S a roac it rid a elet finite rate

chemistry

Martin Rieth, Jyh-Yuan Chen, Andreas Kempf

Global Quasi-Linearization (GQL) reduced chemistry for the auto-ignition process of CH4 , C2H2 and C2H4 combus-tion systems

Chunkan Yu, Viatcheslav Bykov, Ulrich Maas

Application of tabulated chemistry in CFD simulations of different types of internal combustion engines

Ferry Tap, Dmitry Goryntsev, Carsten Schmalhorst, Peter Priesching

rid lattice olt ann fini-te-difference solver for com-bustion at low Mach numbers

Seyed Ali Hosseini, Nasser Dar-abiha, Dominique Thévenin

10:00

- 10

:20

al ation o t e e tended a-melet/progress variable model for NO prediction in pulverized coal a e

Chunguang Zhao, Kun Luo, Ruipeng Cai, Jiangkuan Xing, Zhengwei Gao, Haiou Wang, Jianren Fan

Analysis of multiphase MMC coupling using DNS of an evolving droplet-laden double shear layer

Marvin Sontheimer, Oliver Stein, Andreas Kronenburg

Computation of the ignition probability map of a lean spray burner

Lorenzo Palanti, Simone Paccati, Antonio Andreini

Investigation of subgrid-scale i in or i ro in filtered

density function approach for turbulent combustion

Chenning Tong, Wei Li, Mengyu-an Yuan, Shuaishuai Liu

Dynamical study of the plasma-assisted oxidation of diluted hydrocarbons after a nanosecond pulse discharge using its reduced-order repre-sentation

Aurelie Bellemans, Zak Eckert, Fabrizio Bisetti

A numerical investigation on the roots of combustion cyclic variation in a spark-ignited lean gas engine

Mahdi Ghaderi Masouleh, Karri Keskinen, Ossi Kaario, Heikki Kahila, Ville Vuorinen

Towards understanding the afterburning of randomly distributed metal particles following the detonation of a condensed phase energetic material

Bohoon Kim, Sanghun Choi, Jack Yoh

Monday, May 6

Morning Session


:00 -

08:15

Welcome Remarks

08:15

- 09


The University of New South Wales, Sydney, AustraliaChair: Jacqueline H. Chen

10:20

- 10

:50

Coffee Break


9:20

- 10:2





Ignition 1








Numerical Methods 1


9:20

- 09:4

0








Zhuyin Ren







9:40

- 10:0

0









chemistry








10:00

- 10

:20
















Monday, May 6

Morning Session


08:00

- 08

:15

Welcome Remarks

08:15

- 09



10:20

- 10

:50

Coffee Break



:50 -

12:10 Turbulent Flames - Modeling 1




Ignition 1








Numerical Methods 1


10:50

- 11:

10









Tarek Echekki


rediction in a e






11:10

- 11:

30

















11:30

- 11:

50
















11:50

- 12

:10










Morning Session12

:10 -

13:30

Lunch Break


9:20

- 10:2





Ignition 1








Numerical Methods 1


9:20

- 09:4

0








Zhuyin Ren







9:40

- 10:0

0









chemistry








10:00

- 10

:20
















Monday, May 6

Morning Session


08:00

- 08

:15

Welcome Remarks

08:15

- 09



10:20

- 10

:50

Coffee Break


10:50

- 12

:10 Turbulent Flames - Modeling 1




Ignition 1








Numerical Methods 1


10:50

- 11:

10









Tarek Echekki


rediction in a e






11:10

- 11:

30

















11:30

- 11:

50
















11:50

- 12

:10










Morning Session12

:10 -

13:30

Lunch Break

16

Monday, May 6


13:30

- 15

:30 Turbulent Flames - Physics 1

Chair: Andrew J. Aspden

Combustion Dynamics and Instabilities 1

Chair: Luca Magri


Chair: Dominique Thévenin


Chair: Sadaf Sobhani

Ignition, Quenching and Others

Chair: Scott Goldsborough

Internal Combustion Engines and Stationary Combustion Systems

Chair: Mohsen Talei


Chair: Tomasz Drozda

13:30

- 13

:50

Regimes of premixed turbulent a to i nition and de a ra-tion under gas-turbine reheat combustion conditions

Bruno Savard, Evatt Hawkes, Aditya Konduri, Haiou Wang, Jacqueline Chen

Computational investigation on the dynamics and stabilization o lti le all li e a e at terrestrial gravity

Francisco E. Hernandez Perez, Zhen Zhou, Yuriy Shoshin, Jeroen A. van Oijen, L. Philip H. de Goey, Hong G. Im

Using the Taylor-Green vortex as a benchmark for combustion DNS

Dominique Thévenin

Flame-structure analysis of porous media combustion through pore-resolving simu-lations

Sadaf Sobhani, Joseph Ferguson, Matthias Ihme

Impact of dynamic combus-tion modelling in Large-Eddy Simulation of light-round in an annular combustor

Stefano Puggelli, Denis Veynan-te, Ronan Vicquelin

S o lar e a e in a tea cracking furnace with analyti-cally reduced chemistry

Sreejith N A, Eleonore Riber, Benedicte Cuenot

Detonation stabilization in supersonic combustible mixtu-res with suction of porous walls

Xiaodong Cai, Jianhan Liang

13:50

- 14

:10

Statistical dependence of mixture fraction and progress variable in partially-premixed combustion.

Edward Richardson, Bruno Soriano

Si latin field e i ion plasma mediation of microcom-bustion

Kyle Mackay, Jonathan Freund, Harley Johnson

Methods and algorithms used for the benchmark, with emphasis on a high-order discontinuous Galerkin code

Kihiro Bando, Eric Ching, Michael Sekachev, Matthias Ihme

Propagation of premixed dro en a e in a canonical

porous media

Francois Muller, Thierry Schuller, Laurent Selle

Examining Wall Quenching Phenomena Using Non-Adia-batic Physically-Derived Reduced-Order Manifolds

Austin Cody Nunno, Michael E. Mueller

Numerical Simulation of Oxyfuel Biomass Combustion in Fluidized Bed Boilers

Pavel Strachota

e ect o S onic onfiner Flow on Detonation Propa-gation

Mark Short, Carlos Chiquete, James Quirk

14:10

- 14

:30

r lent a e tr ct re deri-ed ro reaction field rid e

Robert Schießl, Viatcheslav Bykov

Lattice-Boltzmann model for lo Mac reacti e o

Muhammad Tayyab, Yongliang Feng, Pierre Boivin

Taylor-Green vortex as a bench-mark of DNS combustion codes: Results and comparisons for the non-reacting cases

Ghislain Lartigue

Filtrational Gas Combustion in Porous Media and Micro Combustion

Sergey Minaev, Roman Fursenko, Vladimir Gubernov

Large Eddy Simulation of Lean Blow-Off in a Premixed Swirl Stabilized Flame

Pier Carlo Nassini, Daniele Pampaloni, Antonio Andreini

Modelling of cyclonic burner through tabulated chemistry with emphasis on heat transfer mechanisms

Giuseppe Ceriello, Giancarlo Sorrentino, Pino Sabia, Mara de Joannon, Antonio Cavaliere, Raffaele Ragucci

Dynamics of Two-Phase Flows in Supersonic Combustion

Foluso Ladeinde

Afternoon Session 1


13:30

- 15




Chair: Luca Magri








Chair: Mohsen Talei



14:30

- 14

:50

The ignition process of a premi-xed reactive jet in hot vitiated cro o

Roberto Solana Pérez, Oliver Schulz, Nicolas Noiray

Computational Studies of Flui-dized Bed in Stokes Regime

Michal Benes, Pavel Strachota, Miroslav Kolar, Jakub Solovský, Jakub Klinkovský, Žák Alexandr, Pavel Eichler

Taylor-Green vortex as a bench-mark of DNS combustion codes: Results and comparisons for the reacting cases

Abouelmagd Abdelsamie

Prediction of burning velocities and er adia atic a e temperatures during the com-bustion in porous inert media

Ilian Dinkov, Jordan Denev, Henning Bockhorn

enc in and a ac o dro en a e on er orated

plate burners

Nijso Beishuizen, Daniel Mayer

Performance of a Dump Diffuser Combustor at Various Realistic Inlet Conditions

Heyu Wang, Kai Hong Luo

Turbulence-Combustion Inter-action Role in Supersonic Flow Simulation

Anna Shiryaeva, Anton Noz-drachev

14:50

- 15

:10

Direct Numerical Simulation of Multi-Injection Mixing and Combustion at Compression Ignition Engine Conditions

Martin Rieth, Marc Day, Marco Arienti, Hemanth Kolla, Jacque-line Chen

3D Computations of Combus-tion Limit Phenomena of Low Lewis Number Mixture under Gravity-free Condition

Takaki Akiba, Tomoya Okuno, Hisashi Nakamura, Takuya Tezu-ka, Susume Hasegawa, Roman Fursenko, Sergey Minaev, Masao Kikuchi, Kaoru Maruta

Verification and Validation of Combustion DNS : Results and comparisons concerning computing times

Benedicte Cuenot, Gabriel Staffelbach

Determination of dispersion coe ficient o eat and a for porous media by detailed numerical simulation

Christoph Wielnand, Zhou Jian, Christoph Weis, Peter Habisreut-her, Dimosthenis Trimis

Gradient Trajectory Analysis of Turbulence Induced Extinction Events

Dominik Denker, Antonio Attili, Mathis Bode, Heinz Pitsch

A gradient-based approach to optimal ignition in swirling

a e

Ubaid Ali Qadri

e in ence o ol o oro scale on the wrinkling of turbu-lent premixed combustion

Savio Vianna, Tatiele Ferreira

15:10

- 15

:30

Physics-based turbulence forcing scheme for simulations o t r lent a e e ten ion to ll co re i le o

Guillaume Beardsell, Guillaume Blanquart

Numerical modelling of the hydrogen combustion using accurate Potential Energy Surfaces

João Brandão, César Mogo, Wenli Wang, Carolina Rio

i c ion o Verification and Validation of Combustion DNS

Jacqueline Chen

Discussion of Numerical Modeling and Simulation of Combustion in Porous Media

Sadaf Sobhani

Mirrored continuum and mo-lecular dynamics simulations o de a ration in a nano la of HMX

Kibaek Lee, D. Scott Stewart, Kaushik Joshi, Santanu Chaud-huri

Afternoon Session 1

15:30

- 16

:00

Coffee Break


Monday, May 6


13:30

- 15




Chair: Luca Magri








Chair: Mohsen Talei



13:30

- 13

:50

Regimes of premixed turbulent a to i nition and de a ra-tion under gas-turbine reheat combustion conditions

Bruno Savard, Evatt Hawkes, Aditya Konduri, Haiou Wang, Jacqueline Chen

Computational investigation on the dynamics and stabilization o lti le all li e a e at terrestrial gravity

Francisco E. Hernandez Perez, Zhen Zhou, Yuriy Shoshin, Jeroen A. van Oijen, L. Philip H. de Goey, Hong G. Im

Using the Taylor-Green vortex as a benchmark for combustion DNS

Dominique Thévenin

Flame-structure analysis of porous media combustion through pore-resolving simu-lations

Sadaf Sobhani, Joseph Ferguson, Matthias Ihme

Impact of dynamic combus-tion modelling in Large-Eddy Simulation of light-round in an annular combustor

Stefano Puggelli, Denis Veynan-te, Ronan Vicquelin

S o lar e a e in a tea cracking furnace with analyti-cally reduced chemistry

Sreejith N A, Eleonore Riber, Benedicte Cuenot

Detonation stabilization in supersonic combustible mixtu-res with suction of porous walls

Xiaodong Cai, Jianhan Liang

13:50

- 14

:10

Statistical dependence of mixture fraction and progress variable in partially-premixed combustion.

Edward Richardson, Bruno Soriano

Si latin field e i ion plasma mediation of microcom-bustion

Kyle Mackay, Jonathan Freund, Harley Johnson

Methods and algorithms used for the benchmark, with emphasis on a high-order discontinuous Galerkin code

Kihiro Bando, Eric Ching, Michael Sekachev, Matthias Ihme

Propagation of premixed dro en a e in a canonical

porous media

Francois Muller, Thierry Schuller, Laurent Selle

Examining Wall Quenching Phenomena Using Non-Adia-batic Physically-Derived Reduced-Order Manifolds

Austin Cody Nunno, Michael E. Mueller

Numerical Simulation of Oxyfuel Biomass Combustion in Fluidized Bed Boilers

Pavel Strachota

e ect o S onic onfiner Flow on Detonation Propa-gation

Mark Short, Carlos Chiquete, James Quirk

14:10

- 14

:30

r lent a e tr ct re deri-ed ro reaction field rid e

Robert Schießl, Viatcheslav Bykov

Lattice-Boltzmann model for lo Mac reacti e o

Muhammad Tayyab, Yongliang Feng, Pierre Boivin

Taylor-Green vortex as a bench-mark of DNS combustion codes: Results and comparisons for the non-reacting cases

Ghislain Lartigue

Filtrational Gas Combustion in Porous Media and Micro Combustion

Sergey Minaev, Roman Fursenko, Vladimir Gubernov

Large Eddy Simulation of Lean Blow-Off in a Premixed Swirl Stabilized Flame

Pier Carlo Nassini, Daniele Pampaloni, Antonio Andreini

Modelling of cyclonic burner through tabulated chemistry with emphasis on heat transfer mechanisms

Giuseppe Ceriello, Giancarlo Sorrentino, Pino Sabia, Mara de Joannon, Antonio Cavaliere, Raffaele Ragucci

Dynamics of Two-Phase Flows in Supersonic Combustion

Foluso Ladeinde

Afternoon Session 1


13:30

- 15




Chair: Luca Magri








Chair: Mohsen Talei



14:30

- 14

:50

The ignition process of a premi-xed reactive jet in hot vitiated cro o

Roberto Solana Pérez, Oliver Schulz, Nicolas Noiray

Computational Studies of Flui-dized Bed in Stokes Regime

Michal Benes, Pavel Strachota, Miroslav Kolar, Jakub Solovský, Jakub Klinkovský, Žák Alexandr, Pavel Eichler

Taylor-Green vortex as a bench-mark of DNS combustion codes: Results and comparisons for the reacting cases

Abouelmagd Abdelsamie

Prediction of burning velocities and er adia atic a e temperatures during the com-bustion in porous inert media

Ilian Dinkov, Jordan Denev, Henning Bockhorn

enc in and a ac o dro en a e on er orated

plate burners

Nijso Beishuizen, Daniel Mayer

Performance of a Dump Diffuser Combustor at Various Realistic Inlet Conditions

Heyu Wang, Kai Hong Luo

Turbulence-Combustion Inter-action Role in Supersonic Flow Simulation

Anna Shiryaeva, Anton Noz-drachev

14:50

- 15

:10

Direct Numerical Simulation of Multi-Injection Mixing and Combustion at Compression Ignition Engine Conditions

Martin Rieth, Marc Day, Marco Arienti, Hemanth Kolla, Jacque-line Chen

3D Computations of Combus-tion Limit Phenomena of Low Lewis Number Mixture under Gravity-free Condition

Takaki Akiba, Tomoya Okuno, Hisashi Nakamura, Takuya Tezu-ka, Susume Hasegawa, Roman Fursenko, Sergey Minaev, Masao Kikuchi, Kaoru Maruta

Verification and Validation of Combustion DNS : Results and comparisons concerning computing times

Benedicte Cuenot, Gabriel Staffelbach

Determination of dispersion coe ficient o eat and a for porous media by detailed numerical simulation

Christoph Wielnand, Zhou Jian, Christoph Weis, Peter Habisreut-her, Dimosthenis Trimis

Gradient Trajectory Analysis of Turbulence Induced Extinction Events

Dominik Denker, Antonio Attili, Mathis Bode, Heinz Pitsch

A gradient-based approach to optimal ignition in swirling

a e

Ubaid Ali Qadri

e in ence o ol o oro scale on the wrinkling of turbu-lent premixed combustion

Savio Vianna, Tatiele Ferreira

15:10

- 15

:30

Physics-based turbulence forcing scheme for simulations o t r lent a e e ten ion to ll co re i le o

Guillaume Beardsell, Guillaume Blanquart

Numerical modelling of the hydrogen combustion using accurate Potential Energy Surfaces

João Brandão, César Mogo, Wenli Wang, Carolina Rio

i c ion o Verification and Validation of Combustion DNS

Jacqueline Chen

Discussion of Numerical Modeling and Simulation of Combustion in Porous Media

Sadaf Sobhani

Mirrored continuum and mo-lecular dynamics simulations o de a ration in a nano la of HMX

Kibaek Lee, D. Scott Stewart, Kaushik Joshi, Santanu Chaud-huri

Afternoon Session 1

15:30

- 16

:00

Coffee Break

18

Monday, May 6


16:00

- 18

:20 Emissions - Soot

Chair: Michael E. Mueller


Chair: Scott Martin


Chair: Alessandro Stagni


Chair: Shervin Sammak

Ignition 2

Chair: Tommaso Lucchini

Detonation

Chair: Svjetlana Stekovic

Numerical Methods 2

Chair: Hemanth Kolla

16:00

- 16

:20

Quadrature-Based Moment Closure Methods for Soot Prediction in Laminar Diffusion Flames at Elevated Pressures

Jacques Yushi Xing, Clinton Groth, John Hu

Analysis of premixed swirling a e d na ic and a o-

ciated a e tran er nction modeling

Fabien Dupuy, Marco Gatti, Lau-rent Gicquel, Thierry Schuller

Reduction of methane/dime-thyl-ether reaction mechanism by using characteristic time-scales and entropy production analyses

Sylvia Porras, Viatcheslav Bykov, Ulrich Maas

Deep Learning of PDF/FDF of Turbulence Closure

Maziar Raissi, Hessam Babaee, Peyman Givi

Numerical study on premixed cool a e initiation and propagation

Yiqing Wang, Zheng Chen

Numerical simulation of deto-nation initiation in multifocu-sed systems

Alexander Lopato, Pavel Utkin, Anatoly Vasil'ev

Simulating Multidimensional Reacting Flow with the Discon-tinuous Galerkin Method

Ryan Johnson, Andrew Kercher, Gabriel Goodwin, Andrew Corri-gan, David Kessler

16:20

- 16

:40

Numerical Study of Soot Formation in Co-Flow Laminar Diffusion Flames at Varying Pressures

Amin Mansouri, Seth Dworkin

Prediction of self-excited combustion dynamics in gas turbine model combustors using large eddy simulation

Daniel Fredrich, William Jones, Andrew Marquis

Modellin o entrained o a ification in et lene

glycol as a surrogate for bio-slurries

Niranjan Fernando, Quentin Fradet, Marina Braun-Unkhoff, Uwe Riedel

LES-PDF modelling in Compres-sible Turbulent Reacting Flows using the Eulerian Stochastic Fields Method

Salvador Navarro-Martinez, Yuri Almeida

Numerical Investigation of Ig-nition Processes in a Transient

o nter o onfi ration

Zhen Sun, Arne Scholtissek, Wang Han, Christian Hasse

Dynamics of detonation in condensed-phase explosives near the failure limit

Stephen Voelkel, Carlos Chique-te, Mark Short

An hp-adaptive Discontinuous Galerkin Ordinary Differential Equation Solver for Chemical Source Term Integration

Andrew Kercher, Ryan Johnson, Andrew Corrigan

16:40

- 17

:00

Soot Particle Concentration Estimator Applied to a Tran-sient Turbulent Non-premixed Jet Flame

Leonardo Zimmer, Seth Dworkin, Antonio Attili, Heinz Pitsch, Fabrizio Bisetti

Large Eddy Simulations of thermoacoustic instability mechanisms in swirling spray

a e

Ermanno Lo Schiavo, Davide Laera, Laurent Gicquel, Thierry Poinsot

Combustion Modeling in Solid Rocket Motor Plumes

Tobias Ecker, Sebastian Karl, Klaus Hannemann

On the accuracy of the stochas-tic field et od or e ti atin scalar statistics within the scope of the LES-transported PDF approach

Fabian Sewerin

Supervised Machine Learning Dual Fuel Ignition with a Glass Box - High Dimensional Model Representation (HDMR)

Wang Han, Zhen Sun, Arne Scholtissek, Christian Hasse

onfine ent e ect on condensed-phase, steady-state detonation propagation

Carlos Chiquete, Mark Short, Stephen Voelkel

A numerical strategy for un-steady simulation of low Mach n er reactin o ect to electric field

Lucas Esclapez, Valentina Ric-chiuti, John Bell, Marc Day

17:00

- 17

:20

o lin o t e toc a tic field PDF method with FGM reduced mechanisms

Max Staufer, Ruud Eggels

Large-eddy simulation of re i ed irl a e d na ic nder l atin o di t r an-

ce ode identification and validation

Jinguo Sun, Shuiqing Li, Wei Cui

Optimization of chemical me-chanisms for MILD conditions

Andrea Bertolino, Magnus Fürst, Alessio Frassoldati, Alessandro Parente

Progress Toward Accurate and Affordable Combustion Simu-lations with PDF/FDF Methods for Supersonic Combustion Applications

Tomasz Drozda, Andrew Norris

Kinetic Model for Studying the Effect of Higher Hydrocarbons on the Natural Gas Ignition

Snehasish Panigrahy, Ahmed Mohamed, Henry Curran, Gilles Bourque

e n ence o i t Sti onfinin Material on t e

Detonation of Highly Non-Ideal Explosives

Eduardo Lozano, Gregory Jack-son, Vilem Petr

Focusing and dispersion error for convection-diffusion-reac-tion equation

Soumyo Sengupta, Tapan Sengupta, Jyothi Kumar Puttam, Vajjala Suman

Afternoon Session 2


16:00

- 18




Chair: Scott Martin





Ignition 2


Detonation


Numerical Methods 2


17:20

- 17

:40

Effect of EGR and Radiation on Soot Morphology in ECN Spray-A Combustion Chamber

Khaled Mosharraf Mukut, Somesh Roy

Dynamics of laminar premixed a e ected to re re

ct ation t e i ortance o detailed chemistry

Guillaume Beardsell, Andrei Kanavalau, Guillaume Blanquart

Development of Skeletal Kinetic Mechanisms at Various Conditions for Methane Combustion

Hossein Janbazi, Kevin Roderigo, Andreas Kempf, Irenäus Wlokas

Spectral Element-hp and Di-scontinuous Galerkin Methods for LES-FDF in Complex Flows

Shervin Sammak, Aidyn Aitzhan, Arash Nouri, Peyman Givi

Thermal diffusivity effect on ethanol preignition in a shock tube

Minh Bau Luong, Miguel Figueroa-Labastida, Aliou Sow, ran is o ernánde re ,

Aamir Farooq, Hong Im

Real gas effects on the cellular structure of gaseous detonati-ons at elevated pressures

Josue Melguizo-Gavilanes, Said Taileb, Ashwin Chinnayya

17:40

- 18

:00

Study of the impact of soot sub-grid scales in an aero-en-gine model combustor at elevated pressure.

Livia Tardelli, Benedetta Franzelli, Nasser Darabiha, Denis Veynante

On the occurrence of high-fre-quency thermoacoustic insta-bilities in a single jet tubular combustor

a id ari , ris ian e k, Andreas Kempf

A comprehensive modelling study of ignition delay time characteristics of gaseous hydrocarbons and their blends over a wide range of working conditions

Mohammadreza Baigmoham-madi, Sergio Martinez, Henry Curran, Andrzej Pekalski

A GPU-Accelerated FDF Simulator

Medet Inkarbekov, Aidyn Aitz-han, Shervin Sammak, Aidark-han Kaltayev, Peyman Givi

Mild ignition: experimental observations and numerical predictions

Scott Goldsborough, Jeffrey Santner

Quenching limits of multi-dimensional detonation waves confined an inert la er

Said Taileb, Josue Melguizo-Ga-vilanes, Ashwin Chinnayya

18:00

- 18

:20

Prediction of the soot particle size distribution in a turbulent non re i ed a e it t e LES-PBE-PDF approach

Binxuan Sun, Stelios Rigopoulos

on re ecti e o ndar Conditions for Thermoacoustic Simulations

Omer Rathore, Salvador Navar-ro-Martinez

Detailed computational in-e ti ation o id ec anical

behavior in rapid compression machines

Scott Goldsborough, Christos Frouzakis, Yuri M. Wright

Shock-to-Detonation Transition of Submillimeter Nitromethane Films

an oui , Alber o ernánde , D. Scott Stewart

Afternoon Session 2


Monday, May 6


16:00

- 18




Chair: Scott Martin





Ignition 2


Detonation


Numerical Methods 2


16:00

- 16

:20

Quadrature-Based Moment Closure Methods for Soot Prediction in Laminar Diffusion Flames at Elevated Pressures

Jacques Yushi Xing, Clinton Groth, John Hu

Analysis of premixed swirling a e d na ic and a o-

ciated a e tran er nction modeling

Fabien Dupuy, Marco Gatti, Lau-rent Gicquel, Thierry Schuller

Reduction of methane/dime-thyl-ether reaction mechanism by using characteristic time-scales and entropy production analyses

Sylvia Porras, Viatcheslav Bykov, Ulrich Maas

Deep Learning of PDF/FDF of Turbulence Closure

Maziar Raissi, Hessam Babaee, Peyman Givi

Numerical study on premixed cool a e initiation and propagation

Yiqing Wang, Zheng Chen

Numerical simulation of deto-nation initiation in multifocu-sed systems

Alexander Lopato, Pavel Utkin, Anatoly Vasil'ev

Simulating Multidimensional Reacting Flow with the Discon-tinuous Galerkin Method

Ryan Johnson, Andrew Kercher, Gabriel Goodwin, Andrew Corri-gan, David Kessler

16:20

- 16

:40

Numerical Study of Soot Formation in Co-Flow Laminar Diffusion Flames at Varying Pressures

Amin Mansouri, Seth Dworkin

Prediction of self-excited combustion dynamics in gas turbine model combustors using large eddy simulation

Daniel Fredrich, William Jones, Andrew Marquis

Modellin o entrained o a ification in et lene

glycol as a surrogate for bio-slurries

Niranjan Fernando, Quentin Fradet, Marina Braun-Unkhoff, Uwe Riedel

LES-PDF modelling in Compres-sible Turbulent Reacting Flows using the Eulerian Stochastic Fields Method

Salvador Navarro-Martinez, Yuri Almeida

Numerical Investigation of Ig-nition Processes in a Transient

o nter o onfi ration

Zhen Sun, Arne Scholtissek, Wang Han, Christian Hasse

Dynamics of detonation in condensed-phase explosives near the failure limit

Stephen Voelkel, Carlos Chique-te, Mark Short

An hp-adaptive Discontinuous Galerkin Ordinary Differential Equation Solver for Chemical Source Term Integration

Andrew Kercher, Ryan Johnson, Andrew Corrigan

16:40

- 17

:00

Soot Particle Concentration Estimator Applied to a Tran-sient Turbulent Non-premixed Jet Flame

Leonardo Zimmer, Seth Dworkin, Antonio Attili, Heinz Pitsch, Fabrizio Bisetti

Large Eddy Simulations of thermoacoustic instability mechanisms in swirling spray

a e

Ermanno Lo Schiavo, Davide Laera, Laurent Gicquel, Thierry Poinsot

Combustion Modeling in Solid Rocket Motor Plumes

Tobias Ecker, Sebastian Karl, Klaus Hannemann

On the accuracy of the stochas-tic field et od or e ti atin scalar statistics within the scope of the LES-transported PDF approach

Fabian Sewerin

Supervised Machine Learning Dual Fuel Ignition with a Glass Box - High Dimensional Model Representation (HDMR)

Wang Han, Zhen Sun, Arne Scholtissek, Christian Hasse

onfine ent e ect on condensed-phase, steady-state detonation propagation

Carlos Chiquete, Mark Short, Stephen Voelkel

A numerical strategy for un-steady simulation of low Mach n er reactin o ect to electric field

Lucas Esclapez, Valentina Ric-chiuti, John Bell, Marc Day

17:00

- 17

:20

o lin o t e toc a tic field PDF method with FGM reduced mechanisms

Max Staufer, Ruud Eggels

Large-eddy simulation of re i ed irl a e d na ic nder l atin o di t r an-

ce ode identification and validation

Jinguo Sun, Shuiqing Li, Wei Cui

Optimization of chemical me-chanisms for MILD conditions

Andrea Bertolino, Magnus Fürst, Alessio Frassoldati, Alessandro Parente

Progress Toward Accurate and Affordable Combustion Simu-lations with PDF/FDF Methods for Supersonic Combustion Applications

Tomasz Drozda, Andrew Norris

Kinetic Model for Studying the Effect of Higher Hydrocarbons on the Natural Gas Ignition

Snehasish Panigrahy, Ahmed Mohamed, Henry Curran, Gilles Bourque

e n ence o i t Sti onfinin Material on t e

Detonation of Highly Non-Ideal Explosives

Eduardo Lozano, Gregory Jack-son, Vilem Petr

Focusing and dispersion error for convection-diffusion-reac-tion equation

Soumyo Sengupta, Tapan Sengupta, Jyothi Kumar Puttam, Vajjala Suman

Afternoon Session 2


16:00

- 18




Chair: Scott Martin





Ignition 2


Detonation


Numerical Methods 2


17:20

- 17

:40

Effect of EGR and Radiation on Soot Morphology in ECN Spray-A Combustion Chamber

Khaled Mosharraf Mukut, Somesh Roy

Dynamics of laminar premixed a e ected to re re

ct ation t e i ortance o detailed chemistry

Guillaume Beardsell, Andrei Kanavalau, Guillaume Blanquart

Development of Skeletal Kinetic Mechanisms at Various Conditions for Methane Combustion

Hossein Janbazi, Kevin Roderigo, Andreas Kempf, Irenäus Wlokas

Spectral Element-hp and Di-scontinuous Galerkin Methods for LES-FDF in Complex Flows

Shervin Sammak, Aidyn Aitzhan, Arash Nouri, Peyman Givi

Thermal diffusivity effect on ethanol preignition in a shock tube

Minh Bau Luong, Miguel Figueroa-Labastida, Aliou Sow, ran is o ernánde re ,

Aamir Farooq, Hong Im

Real gas effects on the cellular structure of gaseous detonati-ons at elevated pressures

Josue Melguizo-Gavilanes, Said Taileb, Ashwin Chinnayya

17:40

- 18

:00

Study of the impact of soot sub-grid scales in an aero-en-gine model combustor at elevated pressure.

Livia Tardelli, Benedetta Franzelli, Nasser Darabiha, Denis Veynante

On the occurrence of high-fre-quency thermoacoustic insta-bilities in a single jet tubular combustor

a id ari , ris ian e k, Andreas Kempf

A comprehensive modelling study of ignition delay time characteristics of gaseous hydrocarbons and their blends over a wide range of working conditions

Mohammadreza Baigmoham-madi, Sergio Martinez, Henry Curran, Andrzej Pekalski

A GPU-Accelerated FDF Simulator

Medet Inkarbekov, Aidyn Aitz-han, Shervin Sammak, Aidark-han Kaltayev, Peyman Givi

Mild ignition: experimental observations and numerical predictions

Scott Goldsborough, Jeffrey Santner

Quenching limits of multi-dimensional detonation waves confined an inert la er

Said Taileb, Josue Melguizo-Ga-vilanes, Ashwin Chinnayya

18:00

- 18

:20

Prediction of the soot particle size distribution in a turbulent non re i ed a e it t e LES-PBE-PDF approach

Binxuan Sun, Stelios Rigopoulos

on re ecti e o ndar Conditions for Thermoacoustic Simulations

Omer Rathore, Salvador Navar-ro-Martinez

Detailed computational in-e ti ation o id ec anical

behavior in rapid compression machines

Scott Goldsborough, Christos Frouzakis, Yuri M. Wright

Shock-to-Detonation Transition of Submillimeter Nitromethane Films

an oui , Alber o ernánde , D. Scott Stewart

Afternoon Session 2

20

Tuesday, May 7Plenary, Hotel Quellenhof - Berlin 1-3

08:15

- 09

:05 ar e dd Si lation o t r lent reactin o et od and a licationBénédicte Cuenot

CERFACS, Toulouse, FranceChair: Pascale Domingo


09:20

- 10

:20

Turbulent Flames - Modeling 2

Chair: Wang Han


Chair: Corinna Netzer


Chair: Matteo Pelucchi


Chair: Gustaaf Jacobs

Gas Turbines

Chair: Fabrizio Bisetti

MS5 Algorithms, Applications and Software for Combustion Modeling on GPU and Hybrid ArchitecturesChairs: James Sutherland, Ray Grout

Numerical Methods 3

Chair: Temistocle Grenga

09:20

- 09

:40

Direct Numerical Simulation and modeling of highly diluted combustion in spark ignition engines

douard uillaud, Karine ru n, Olivier Colin, Denis Veynante

S o t r lent ra a e using virtual chemistry

Constantin Nguyen Van, Renaud Mercier, Benoit Fiorina

From molecular to applica-tion level: opportunities and challenges for a fully integrated system

Heinz Pitsch, Liming Cai

Quantifying kinetic uncertainty in LES/FDF simulations using active subspaces

Zhuyin Ren

Investigation of a lean prehea-ted i re re et a e it heat losses using LES

Pascal Gruhlke, Hossein Janbazi, Irenäus Wlokas, Christian Beck, Andreas Kempf

Combustion Simulation Software for Extreme-Scale Multiphysics Simulations on Emerging Platforms

James Sutherland, Josh McConnell

A simulation concept for fast and accurate NOx description in shaft furnaces

Werner Rudolf Pollhammer, Christoph Spijker, Michael Koller, Gernot Hackl, Harald Raupen-strauch

09:40

- 10

:00

A Filtered Optimized Chemistry model to account for subgrid

cale a e rin lin in t e formation of pollutants

Cédric Mehl, Mélody Cailler, Re-naud Mercier, Vincent Moureau, Benoît Fiorina

Numerical Investigation of Im-pinging Spray Flame-Wall Heat Transfer in Compression-Igni-tion Engine

Abhishek L. Pillai, Takuya Mu-rata, Takato Ikedo, Ryo Masuda, Ryoichi Kurose

Predictive Automated Combus-tion Chemistry: A DOE-Exascale ProjectStephen Klippenstein, Andreas Copan, Sarah Elliott, Matthew Johnson, Murat Keceli, Yi-Pei Li, Kevin Moore, Ruben Van de Viv-jer, Yunchao Wu, Carlo Cavallotti, Yuri Georgievskii, Bill Green, Ahren Jasper, Tianfeng Lu, Judit ádor, a air, Al a ner, Jus in

Wozniak, Matteo Pelucchi

Simulation of Turbulent Flames using Stochastic Eulerian Field TPDF Methods

i ael ner, axi ilian Hansinger, Julian Zips

LES prediction of soot in gas turbines using a sectional soot model coupled to a thickened

a e co tion odel

Olivier Colin, Damien Aubag-nac-Karkar, Ahmad El Sayed

Balancing CPU and accelerator performance in HPC simulati-on o lo Mac reactin o

Marc Day, Anne Felden, Steven Reeves, Ray Grout, Francois Hamon

n ericall e ficient odel or a fired eat roce e

Zlatko Raonic, Harald Raupen-strauch, Christoph Spijker, Franz Edler, Werner Rudolf Pollhammer

10:00

- 10

:20

LES model for CO emissions in stationary gas turbines at part load conditions

Konstantin Kleinheinz, Lukas Berger, Mathis Bode, Antonio Attili, Heinz Pitsch

LES analysis of ambient temperature effect on diesel spray ignition in methane-air mixtures

Bulut Tekgul, Heikki Kahila, Ossi Kaario, Ville Vuorinen

Large Eddy Simulation of Knocking Combustion in Direct Injection Spark Ignited Engines

Marco Günther, Max Mally, Stefan Pischinger

Hybrid Large Eddy Simula-tion/Filtered Density Function Approaches: Mass Consistency Issues and Mixing Models Prospects

Cesar Celis, Luís Fernando Figueira da Silva

Detailed kinetic scheme effect on Large-Eddy Simulations of the PRECCINSTA burner

Pierre Benard, Ghislain Lartigue, Vincent Moureau, Renaud Mercier

Detailed Kinetics Coulped to CFD on CPU/GPU Platforms

Russell Whitesides, Matthew McNenly

Faster Simulation Methods for One-Dimensional Laminar Flames

Simon Lapointe, Russell Whitesi-des, Matthew McNenly

Morning Session

10:20

- 10

:50

Coffee Break


08:15

- 09




09:20

- 10

:20


Chair: Wang Han







Gas Turbines



Numerical Methods 3


09:20

- 09

:40








Zhuyin Ren







09:40

- 10

:00











a e co tion odel






10:00

- 10

:20















Morning Session

10:20

- 10

:50

Coffee Break


10:50

- 12

:10


Chair: Wang Han







Gas Turbines


MS5 Algorithms, Applications and Software for Combustion Modeling on GPU and Hybrid Architectures

Chairs: James Sutherland, Ray Grout

Numerical Methods 3


10:50

- 11:

10

ata dri en filter t r -lence models and analysis in turbulent combustion

Jonathan F. MacArt, Justin A. Sirignano, Jonathan B. Freund

A numerical and experimental study of droplet combustion in gravity environment

Ming He, Chong Yan, Ying Piao

Numerical approaches to fuel development

Roger Cracknell, Sandro Gail, Abhinav Verma

Transported PDF/FDF modeling of mixing and molecular diffu-sion in turbulent combustion

Haifeng Wang

Simulation of syngas com-bustion in a model geometry relevant for industrial gas turbines

ikard ebar , ikolaos a a -lippou, Daniel Lörstad

ODE integrators suitable for chemical kinetics on GPUs and other accelerators

Kyle Niemeyer, Nicholas Curtis, Paige Lorson

Modelin o a direct fired re-d ction reactor it a a elet equilibrium hybrid model including transient reactive particles for design studiesFranz Edler, Harald Raupen-strauch, Christoph Spijker, Werner Rudolf Pollhammer, Zlatko Raonic

11:10

- 11:

30

Large Eddy Simulations of t r lent a e ta ili ation by Nanosecond Repetitively Pulsed discharges

Yacine Bechane, Nasser Darabiha, Vincent Moureau, Christophe Laux, Benoît Fiorina

LES of n-heptane swirl spray a e in a a elet et od

Ambrus Both, Daniel Mira, Oriol Lehmkuhl

ficient tool or o ti i ation of chemical kinetics using Dakota and OpenSMOKE++

Magnus Fürst, Andrea Bertolino, Alberto Cuoci, Alessio Frassolda-ti, Alessandro Parente

Towards the coupling of a hybrid Lagrangian FDF-LES methodology in a dynamic ada ti e e refine ent environment.Abgail Paula Pinheiro, Jessica Guarato Santos, Alex José Elias, Millena Martins Villar, Marcelo M. R. Damasceno, João Marcelo Vedovoto

nal i o a e r ace den it and a e rin lin from swirling CH4/air and

2 dil ted re i ed a e

Arthur Degenève, Ronan Vicquelin, Clément Mirat, Paul Jourdaine, Thierry Schuller

Higher Order Moment Tensors for Combustion Analysis: GPU Acceleration of Tensor Kernels

Hemanth Kolla, Jed Duersch, Konduri Aditya, Jacqueline H. Chen

Modeling and simulation of quasi-two-dimensional

a elet odel or a t ree eed non-premixed combustion system

YU Panlong, Watanabe Hiroaki, Yuri Isao, Nishida Hiroyuki, Kitagawa Toshiaki

11:30

- 11:

50

Development of a two-level OH-PLIF model for LES for comparison with raw OH-Fluo-rescence images.

Patricia Domingo-Alvarez, Ghis-lain Lartigue, Vincent Moureau, Grisch Frédéric, Pierre Benard

Chemical Kinetic Models for Enhancing Gas Turbine Per-formance and Flexibility

Felix Güthe

Higher-order methods for filtered a den it nction models.

Gustaaf Jacobs, Ben Cohen, Haresh Natarjan, Peyman Givi

Design and Numerical Simu-lation of a Micro-Gas Turbine Combustor

Ping Zhang, Yunpeng Liu, Jing-hua Li, Yingwen Yan

DNS of Autoignition of Diesel Surrogate Fuel in a Turbulent Jet at High Pressure with S3D-Legion on Titan/SummitJacqueline Chen, Elliott Slaught-er, Wonchan Lee, Aditya Konduri, Hemanth Kolla, Alex Aiken, Sean Treichler, Mike Bauer, Giulio Borghesi

Hybrid Flamelet Progress Variable tabulated chemistry approach/Eulerian Stochastic Field method for non-premixed o el et a e

Rihab Mahmoud, Mehdi Jangi, Benoît Fiorina, Amsini Sadiki

11:50

- 12

:10

Scalar subgrid distributions in a generic turbulent FWI confi ration in t e conte t o ESFi modeling

Alija Bevrnja, Guido Künne, Johannes Janicka, Amsini Sadiki, Christian Hasse

The Prospects of Quantum Computing tor FDF/PDF Simulation

Guanglei Xu, Andrew Daley, Rolando Somma, Peyman Givi

Grit: A Performance-Portable Library for Lagrangian Particles in Combustion Simulations

Wenjun Ge, Ramanan Sankaran, Hemanth Kolla, Jacqueline Chen

Morning Session

12:10

- 13

:30

Lunch Break



08:15

- 09




09:20

- 10

:20


Chair: Wang Han







Gas Turbines



Numerical Methods 3


09:20

- 09

:40








Zhuyin Ren







09:40

- 10

:00











a e co tion odel






10:00

- 10

:20















Morning Session

10:20

- 10

:50

Coffee Break


10:50

- 12

:10


Chair: Wang Han







Gas Turbines


MS5 Algorithms, Applications and Software for Combustion Modeling on GPU and Hybrid Architectures

Chairs: James Sutherland, Ray Grout

Numerical Methods 3


10:50

- 11:

10

ata dri en filter t r -lence models and analysis in turbulent combustion

Jonathan F. MacArt, Justin A. Sirignano, Jonathan B. Freund

A numerical and experimental study of droplet combustion in gravity environment

Ming He, Chong Yan, Ying Piao

Numerical approaches to fuel development

Roger Cracknell, Sandro Gail, Abhinav Verma

Transported PDF/FDF modeling of mixing and molecular diffu-sion in turbulent combustion

Haifeng Wang

Simulation of syngas com-bustion in a model geometry relevant for industrial gas turbines

ikard ebar , ikolaos a a -lippou, Daniel Lörstad

ODE integrators suitable for chemical kinetics on GPUs and other accelerators

Kyle Niemeyer, Nicholas Curtis, Paige Lorson

Modelin o a direct fired re-d ction reactor it a a elet equilibrium hybrid model including transient reactive particles for design studiesFranz Edler, Harald Raupen-strauch, Christoph Spijker, Werner Rudolf Pollhammer, Zlatko Raonic

11:10

- 11:

30

Large Eddy Simulations of t r lent a e ta ili ation by Nanosecond Repetitively Pulsed discharges

Yacine Bechane, Nasser Darabiha, Vincent Moureau, Christophe Laux, Benoît Fiorina

LES of n-heptane swirl spray a e in a a elet et od

Ambrus Both, Daniel Mira, Oriol Lehmkuhl

ficient tool or o ti i ation of chemical kinetics using Dakota and OpenSMOKE++

Magnus Fürst, Andrea Bertolino, Alberto Cuoci, Alessio Frassolda-ti, Alessandro Parente

Towards the coupling of a hybrid Lagrangian FDF-LES methodology in a dynamic ada ti e e refine ent environment.Abgail Paula Pinheiro, Jessica Guarato Santos, Alex José Elias, Millena Martins Villar, Marcelo M. R. Damasceno, João Marcelo Vedovoto

nal i o a e r ace den it and a e rin lin from swirling CH4/air and

2 dil ted re i ed a e

Arthur Degenève, Ronan Vicquelin, Clément Mirat, Paul Jourdaine, Thierry Schuller

Higher Order Moment Tensors for Combustion Analysis: GPU Acceleration of Tensor Kernels

Hemanth Kolla, Jed Duersch, Konduri Aditya, Jacqueline H. Chen

Modeling and simulation of quasi-two-dimensional

a elet odel or a t ree eed non-premixed combustion system

YU Panlong, Watanabe Hiroaki, Yuri Isao, Nishida Hiroyuki, Kitagawa Toshiaki

11:30

- 11:

50

Development of a two-level OH-PLIF model for LES for comparison with raw OH-Fluo-rescence images.

Patricia Domingo-Alvarez, Ghis-lain Lartigue, Vincent Moureau, Grisch Frédéric, Pierre Benard

Chemical Kinetic Models for Enhancing Gas Turbine Per-formance and Flexibility

Felix Güthe

Higher-order methods for filtered a den it nction models.

Gustaaf Jacobs, Ben Cohen, Haresh Natarjan, Peyman Givi

Design and Numerical Simu-lation of a Micro-Gas Turbine Combustor

Ping Zhang, Yunpeng Liu, Jing-hua Li, Yingwen Yan

DNS of Autoignition of Diesel Surrogate Fuel in a Turbulent Jet at High Pressure with S3D-Legion on Titan/SummitJacqueline Chen, Elliott Slaught-er, Wonchan Lee, Aditya Konduri, Hemanth Kolla, Alex Aiken, Sean Treichler, Mike Bauer, Giulio Borghesi

Hybrid Flamelet Progress Variable tabulated chemistry approach/Eulerian Stochastic Field method for non-premixed o el et a e

Rihab Mahmoud, Mehdi Jangi, Benoît Fiorina, Amsini Sadiki

11:50

- 12

:10

Scalar subgrid distributions in a generic turbulent FWI confi ration in t e conte t o ESFi modeling

Alija Bevrnja, Guido Künne, Johannes Janicka, Amsini Sadiki, Christian Hasse

The Prospects of Quantum Computing tor FDF/PDF Simulation

Guanglei Xu, Andrew Daley, Rolando Somma, Peyman Givi

Grit: A Performance-Portable Library for Lagrangian Particles in Combustion Simulations

Wenjun Ge, Ramanan Sankaran, Hemanth Kolla, Jacqueline Chen

Morning Session12

:10 -

13:30

Lunch Break

22

Tuesday, May 7


13:30

- 15

:30


Chair: Martin Rieth

MS6 Modeling Challenges and Regime Features in Distributed Combustion

Chairs: Alessandro Parente, Michael John Evans


Chairs: Matthias Ihme, Yi Wang


Chair: Liming Cai

MS8 Combustion Noise 1

Chair: Henning Bockhorn

MS9 The Role of Intrinsic Instabilities in the Simulation of Premixed Combustion 1

Chairs: Pasquale Eduardo Lapen-na, Antonio Attili


Chairs: Somesh Roy, Jean-Louis Consalvi

13:30

- 13

:50

Assessing multi-regime com-bustion characteristics using a no el rner confi ration

Sandra Hartl, Sebastian Popp, David Butz, Dirk Geyer, Robert S. Barlow, Andreas Dreizler, Christian Hasse

Ignidiffusive reactive structures in distributed combustion

Giancarlo Sorrentino, Pino Sabia, Raffaele Ragucci, Mara de Joannon, Antonio Cavaliere

Fire Growth Modeling – on Gas Phase Flow, Combustion and Heat Transfer

Yi Wang, Ning Ren, Prateep Chat-terjee, Oluwayemisi Oluwole, Alex Krisman, Karl Meredith, Sergey Dorofeev

Rate-rules for the low-tempe-rature oxidation of alkylben-zenes

Yasuyuki Sakai, Yusuke Asano, Akira Miyoshi

Combustion noise of a turbu-lent re i ed et a e

Holger Nawroth, Oliver Pa-schereit

Non linear dynamics of pre-i ed a e in a ele S a

burner

Basile Radisson, Christophe Almarcha, Elias Al Sarraf, Joël Quinard, Bruno Denet

Effects of gas radiative pro-perty models on high-pressure t r lent et di ion a e

Jean-Louis Consalvi

13:50

- 14

:10

Investigation of the thickened a e odel e a ior or

non re i ed a e

Giunio De Luca, Thomas Schmitt, Denis Veynante

Prediction of temperature sta-ti tic in a la cale a ele combustion furnace.

Dirk Roekaerts, Xu Huang, Mark Tummers, Eric van Veen

LES/Transported PDF modeling o a t r lent ertical all fire

Jie Tao, Haifeng Wang

Towards Autonomous Kinetic Model Development: Automa-ted Data Selection, Generation, and Integration

Michael Burke

Sound sources of generic lami-nar and t r lent a e

Konrad Pausch, Sohel Herff, Wolfgang Schröder

Flame Curvature Distribution in High Pressure Turbulent Bunsen Premixed Flames

i ael ner, arkus Klein, Maximilian Hansinger, Nilanjan Chakraborty

Recent Advances in Non-Uni-form Gas Radiation Modeling: A User's Perspective

Frederic Andre

14:10

- 14

:30

Evaluation of the non premixed Filtered Tabulated Chemistry for LES model on a turbulent non premixed piloted methane et a e

Pedro Obando Vega, Alessandro Parente, Axel Coussement, Amsini Sadiki

Modeling MILD combustion with Flamelet-Generated Ma-nifolds

Jeroen van Oijen, Aromal Vasavan

Flamelet modeling of combus-tion-radiation interactions in turbulent buoyant diffusion

a e

Van Minh Le, Alexis Marchand, Rui Xu, Salman Verma, Thomas Rogaume, Franck Richard, Joce-lyn Luche, Arnaud Trouve

Towards an automated and generalized approach to the validation of kinetic models

Alessandro Stagni, Matteo Pelucchi, Gabriele Scalia, Alberto Cuoci, Barbara Pernici, Tiziano Faravelli

Combustion Noise Simulation with Acoustic Perturbation Equations in a Discontinuous Galerkin Setup

Kilian Lackhove, Johannes Janicka, Christian Hasse, Hanna Reinhardt

Pressure induced hydrodyna-mic instability in methane-air

re i ed a e

Rachele Lamioni, Pasquale Eduardo Lapenna, Lukas Berger, Konstantin Kleinheinz, Antonio Attili, Heinz Pitsch, Francesco Creta

Effects of K-value Solu-tion Schemes on Radiation Heat Transfer Modeling for Oxy-Fuel Combustion Using the Full-Spectrum Correlated K-dis-tribution Method

Yuying LIU, Guanghai Liu, Fengs-han Liu, Jean-Louis Consalvi

Afternoon Session 1


13:30

- 15

:30


Chair: Martin Rieth






Chair: Liming Cai







14:30

- 14

:50

efinin a enerali ed ro re Variable in the Physically-Deri-ved Reduced-Order Manifolds Modeling Formulation

Bruce A. Perry, Alex G. Novose-lov, Michael E. Mueller

Advances in the eddy dis-sipation concept for improved prediction in distributed combustion regimes

Michael Evans, Paul Medwell, Alessandro Parente

Modeling soot-radiation inter-action in o ant fire l e

John Hewson

DataBench: indicators and me-trics to assess benchmarks to evaluate Big Data technologies oc on cientific do ain

Barbara Pernici

Resolvent Analysis for predic-ting direct combustion noise

Thomas L. Kaiser, Lutz Lesshafft, Kilian Oberleithner

Flame-generated Turbulence and the Resulting Intrinsic Instability of High-speed Turbulent Premixed Flames

Alexei Poludnenko, Laura O'Neill, Jessica Chambers, Ka-reem Ahmed, Vadim Gamezo

Modeling Radiative Heat Transfer in High-Pressure Combustion Systems

Daniel Haworth

14:50

- 15

:10

Large Eddy Simulation of an Opposed Jet Turbulent Flame

Yu Gong, William Jones, Andrew Marquis

Large Eddy Simulation of MILD combustion with implicit combustion models

Zhiyi Li, Alberto Cuoci, Alessan-dro Parente

i fidelit i lation o a all cale ool fire it oot

and thermal radiation

Bifen Wu, Xinyu Zhao

New trends in High Per-formance Computing: from commodity clusters to exascale machines

Marco Verdicchio

Spectral response of heat release in LES combustion modeling

Thorsten Zirwes, Feichi Zhang, Peter Habisreuther, Henning Bockhorn, Dimosthenis Trimis

e i nat re o a e instabilities on the trans-port of curvature in turbulent

re i ed a e

Markus Klein, Nilanjan Chakra-borty, Ahmad Alqallaf

Turbulence-Radiation Inter-action in large-Eddy Simulation of a Bluff-Body Stabilized Turbulent Non-Premixed Flame

Pedro Coelho, Flavia Miranda, Johannes Janicka

15:10

- 15

:30

e ent o finite rate chemistry models for highly t r lent et a e

Arthur Péquin, Zhiyi Li, Alberto Cuoci, Alessandro Parente

LES/TPDF investigation of a e ta ili ation in t e et

in ot co o a e nder M conditions

Hua Zhou, Tianwei Yang, Zhuyin Ren

The Study of Fire at Small Scales Using Adaptive Mesh

efine entCaelan Lapointe, Nicholas Wimer, Marc Day, Amanda Makowiecki, Jeffrey Glusman, John Daily, Gregory Rieker, Peter Hamlington

Thermoacoustics of a turbulent irl a e

Sohel Herff, Konrad Pausch, Wolfgang Schröder

Improving radiation heat trans-fer treatment in FireFOAM

Ivam Sikic, Siaka Dembele, Jennifer Wen

Afternoon Session 1

15:30

- 16

:00

Coffee Break


Tuesday, May 7


13:30

- 15

:30


Chair: Martin Rieth






Chair: Liming Cai







13:30

- 13

:50

Assessing multi-regime com-bustion characteristics using a no el rner confi ration

Sandra Hartl, Sebastian Popp, David Butz, Dirk Geyer, Robert S. Barlow, Andreas Dreizler, Christian Hasse

Ignidiffusive reactive structures in distributed combustion

Giancarlo Sorrentino, Pino Sabia, Raffaele Ragucci, Mara de Joannon, Antonio Cavaliere

Fire Growth Modeling – on Gas Phase Flow, Combustion and Heat Transfer

Yi Wang, Ning Ren, Prateep Chat-terjee, Oluwayemisi Oluwole, Alex Krisman, Karl Meredith, Sergey Dorofeev

Rate-rules for the low-tempe-rature oxidation of alkylben-zenes

Yasuyuki Sakai, Yusuke Asano, Akira Miyoshi

Combustion noise of a turbu-lent re i ed et a e

Holger Nawroth, Oliver Pa-schereit

Non linear dynamics of pre-i ed a e in a ele S a

burner

Basile Radisson, Christophe Almarcha, Elias Al Sarraf, Joël Quinard, Bruno Denet

Effects of gas radiative pro-perty models on high-pressure t r lent et di ion a e

Jean-Louis Consalvi

13:50

- 14

:10

Investigation of the thickened a e odel e a ior or

non re i ed a e

Giunio De Luca, Thomas Schmitt, Denis Veynante

Prediction of temperature sta-ti tic in a la cale a ele combustion furnace.

Dirk Roekaerts, Xu Huang, Mark Tummers, Eric van Veen

LES/Transported PDF modeling o a t r lent ertical all fire

Jie Tao, Haifeng Wang

Towards Autonomous Kinetic Model Development: Automa-ted Data Selection, Generation, and Integration

Michael Burke

Sound sources of generic lami-nar and t r lent a e

Konrad Pausch, Sohel Herff, Wolfgang Schröder

Flame Curvature Distribution in High Pressure Turbulent Bunsen Premixed Flames

i ael ner, arkus Klein, Maximilian Hansinger, Nilanjan Chakraborty

Recent Advances in Non-Uni-form Gas Radiation Modeling: A User's Perspective

Frederic Andre

14:10

- 14

:30

Evaluation of the non premixed Filtered Tabulated Chemistry for LES model on a turbulent non premixed piloted methane et a e

Pedro Obando Vega, Alessandro Parente, Axel Coussement, Amsini Sadiki

Modeling MILD combustion with Flamelet-Generated Ma-nifolds

Jeroen van Oijen, Aromal Vasavan

Flamelet modeling of combus-tion-radiation interactions in turbulent buoyant diffusion

a e

Van Minh Le, Alexis Marchand, Rui Xu, Salman Verma, Thomas Rogaume, Franck Richard, Joce-lyn Luche, Arnaud Trouve

Towards an automated and generalized approach to the validation of kinetic models

Alessandro Stagni, Matteo Pelucchi, Gabriele Scalia, Alberto Cuoci, Barbara Pernici, Tiziano Faravelli

Combustion Noise Simulation with Acoustic Perturbation Equations in a Discontinuous Galerkin Setup

Kilian Lackhove, Johannes Janicka, Christian Hasse, Hanna Reinhardt

Pressure induced hydrodyna-mic instability in methane-air

re i ed a e

Rachele Lamioni, Pasquale Eduardo Lapenna, Lukas Berger, Konstantin Kleinheinz, Antonio Attili, Heinz Pitsch, Francesco Creta

Effects of K-value Solu-tion Schemes on Radiation Heat Transfer Modeling for Oxy-Fuel Combustion Using the Full-Spectrum Correlated K-dis-tribution Method

Yuying LIU, Guanghai Liu, Fengs-han Liu, Jean-Louis Consalvi

Afternoon Session 1


13:30

- 15

:30


Chair: Martin Rieth






Chair: Liming Cai







14:30

- 14

:50

efinin a enerali ed ro re Variable in the Physically-Deri-ved Reduced-Order Manifolds Modeling Formulation

Bruce A. Perry, Alex G. Novose-lov, Michael E. Mueller

Advances in the eddy dis-sipation concept for improved prediction in distributed combustion regimes

Michael Evans, Paul Medwell, Alessandro Parente

Modeling soot-radiation inter-action in o ant fire l e

John Hewson

DataBench: indicators and me-trics to assess benchmarks to evaluate Big Data technologies oc on cientific do ain

Barbara Pernici

Resolvent Analysis for predic-ting direct combustion noise


Flame-generated Turbulence and the Resulting Intrinsic Instability of High-speed Turbulent Premixed Flames

Alexei Poludnenko, Laura O'Neill, Jessica Chambers, Ka-reem Ahmed, Vadim Gamezo

Modeling Radiative Heat Transfer in High-Pressure Combustion Systems

Daniel Haworth

14:50

- 15

:10

Large Eddy Simulation of an Opposed Jet Turbulent Flame

Yu Gong, William Jones, Andrew Marquis

Large Eddy Simulation of MILD combustion with implicit combustion models

Zhiyi Li, Alberto Cuoci, Alessan-dro Parente

i fidelit i lation o a all cale ool fire it oot

and thermal radiation

Bifen Wu, Xinyu Zhao

New trends in High Per-formance Computing: from commodity clusters to exascale machines

Marco Verdicchio

Spectral response of heat release in LES combustion modeling

Thorsten Zirwes, Feichi Zhang, Peter Habisreuther, Henning Bockhorn, Dimosthenis Trimis

e i nat re o a e instabilities on the trans-port of curvature in turbulent

re i ed a e

Markus Klein, Nilanjan Chakra-borty, Ahmad Alqallaf

Turbulence-Radiation Inter-action in large-Eddy Simulation of a Bluff-Body Stabilized Turbulent Non-Premixed Flame

Pedro Coelho, Flavia Miranda, Johannes Janicka

15:10

- 15

:30

e ent o finite rate chemistry models for highly t r lent et a e

Arthur Péquin, Zhiyi Li, Alberto Cuoci, Alessandro Parente

LES/TPDF investigation of a e ta ili ation in t e et

in ot co o a e nder M conditions

Hua Zhou, Tianwei Yang, Zhuyin Ren

The Study of Fire at Small Scales Using Adaptive Mesh

efine entCaelan Lapointe, Nicholas Wimer, Marc Day, Amanda Makowiecki, Jeffrey Glusman, John Daily, Gregory Rieker, Peter Hamlington

Thermoacoustics of a turbulent irl a e

Sohel Herff, Konrad Pausch, Wolfgang Schröder

Improving radiation heat trans-fer treatment in FireFOAM

Ivam Sikic, Siaka Dembele, Jennifer Wen

Afternoon Session 1

15:30

- 16

:00

Coffee Break

24

Tuesday, May 7


16:00

- 18

:00

Laminar Flames 1

Chair: Guillaume Ribert

MS13 Untangling Numerics and Modeling: Viability of Explicit Filtering for Reacting LES

Chair: Timothy Gallagher


Chairs: Peter Hamlington, Kyle Niemeyer


Chairs: Clinton Groth, Marc Massot






Chair: Louisa Michael

16:00

- 16

:20

e n ence o li n ent of Mixture Fraction and Generalized Progress Variable Gradients on Multi-Modal Flame Structure

Alex G. Novoselov, Michael P. Whitmore, Temistocle Grenga, Bruce Perry, Michael E. Mueller

Explicit Filtering for Reacting LES: Perspectives on its Need and Viability

Timothy Gallagher

Computational Modeling of Compartment Fires for Aircraft Safety

Danyal Mohaddes, Matthias Ihme, Jason Damazo, Philipp Boettcher, Brad Moravec

A moment method using alge-braic closures for combustion applications in dilute regime

Enrica Masi, Olivier Simonin

LES of combustion noise from a t r lent re i ed et a e

Feichi Zhang, Thorsten Zirwes, Peter Habisreuther, Henning Bockhorn, Dimosthenis Trimis

Propagation of premixed a e in t e re ence o

Darrieus-Landau and Thermal Diffusive instability.

Francesco Creta, Moshe Matalon, Navin Fogla, Pasquale Eduardo Lapenna, Rachele Lamioni

Electromagnetic pulses genera-ted by detonations

Louisa Michael, Nikolaos Nikiforakis

16:20

- 16

:40

Steady and unsteady behaviours of methane/air co nter o non re i ed a-mes based on REDIM reduced chemistry

Felipe Minuzzi, Chunkan Yu, Ulrich Maas

Interaction of Numerical and Modelling errors in the context o S in i licit filterin

Markus Klein

rediction o co art ent fire toxicity using a two-step fast chemistry scheme

Randall McDermott, Kevin McGrattan, Jason Floyd

An Eulerian-Eulerian Approach for Predicting Liquid Fuel Sprays in the Dense- and Dis-perse-Spray Regions

Tim Leung, Andy Wang, Lucie Freret, Clinton Groth, John Hu

Two way hybrid LES/CAA approach with time domain im-pedance boundary conditions

Federico Lo Presti, Francesca Di Mare

Interaction of thermodiffusive and Darrieus-Landau instabili-ties in lean premixed hydrogen

a e

Lukas Berger, Konstantin Kleinheinz, Antonio Attili, Heinz Pitsch

Effect of hot-spot clusters on shock-to-detonation transition (SDT) in nitromethane with air filled ca itie

XiaoCheng Mi, Louisa Michael, Nikolaos Nikiforakis, Andrew J. Higgins

16:40

- 17

:00

Self-similarity of pressurized co nter o a e

Evrim Solmaz, Fabrizio Bisetti

Presentation and Analysis of Explicitly Filtered LES for Cano-nical Flame Experiments

Andreas Kempf, Amirhossein Bertels

Modeling smoldering of real el in ildland fire

W. Jayani Jayasuriya, Tejas Mulky, Kyle Niemeyer

o ard t o a e o nified odelin in in ection

systems

Ruben Di Battista, Pierre Cordes-se, Samuel Kokh, Marc Massot

Active Flow Control of the Precessing Vortex Core in a Swirl-stabilized Combustor: Impact on Flame dynamics

Finn Lückoff, Moritz Sieber, Oliver Paschereit, Kilian Ober-leithner

On the effect of geometry and dimensionality on the intrinsic

re i ed a e in ta ilitie

Christos Frouzakis, Christos Altantzis, George Giannako-poulos, Ananias Tomboulides, Konstantinos Boulouchos

A high-resolution Godunov method with HLLC Riemann solver for a two-phase model o reacti e o

Michael Hennessey, Ash Kapila, Donald Schwendeman

Afternoon Session 2


16:00

- 18

:00

Laminar Flames 1














17:00

- 17

:20

Stabilization of lean premixed 2 air a e

Faizan Habib Vance, Y. Shoshin, L.P.H. de Goey, J.A. van Oijen

Comparing Residual and Solution Filtering Approaches to t e licitl filtered S o Reactive Flows

Ayaboe Edoh, Timothy Gallagher, Venkateswaran Sankaran

Predictive CFD simulations of ool fire

Bart Merci

A Fifteen-Moment Model for Evaporating Polydisperse Sprays

James McDonald, Mathieu Giroux, Francois Forgues, Lucian Ivan

dentification o o tion Noise and Flame Dynamics of

onfined r lent la e Power Spectral Distributions from experiment and LES

Thierry Schuller, Renaud Gau-dron, Marco Gatti, Clement Mirat, Malte Merk, Camilo Silva, Stefan Jaensch, Wolfgang Polifke

Effects of preferential diffusion and density ratio on bluff-body

a e ta ili ation

Yu Jeong Kim, Francisco Hernan-dez Perez, Bok Jik Lee, Hong Im

Simulations of chemical kinetics and thermodynamics of HMX decomposition within Henson-Smilowitz model

Kirill Velizhanin

17:20

- 17

:40

Numerical investigation of me-t ane air re i ed a e near the wall with conjugate heat transfer : Effect of temperature swing heat insulation

Reo Kai, Ryo Masuda, Takato Ikedo, Ryoichi Kurose

Is Filtering Necessary? Dynami-cal Systems Formulation of LES

Venkat Raman, Maryam Akram

Modelling thermoplastics in FireFoam

Alex Krisman, Karl Meredith, Yi Wang

Hybrid method for the descrip-tion of evaporating sprays

Frédérique Laurent, Dennis Dunn, Aymeric Vié, Roxane Letournel, Marc Massot


onfined r lent la e dentification o a e d -

namics and combustion noise source terms

Wolfgang Polifke, Malte Merk, Camilo Silva, Stefan Jaensch, Renaud Gaudron, Marco Gati, Clement Mirat, Thierry Schuller

Diffusive-thermal instabilities of premixed H2/O2/inert freely propagating and burner stabili-ed a e

Vladimir Gubernov, Viatcheslav Bykov, Ulrich Maas

Simulations of HMX Thermal Decomposition using Detailed Kinetics Models Coupled to Statistical Mechanics Based Equations of State

Jeffery Leiding

17:40

- 18

:00

Impact of soot radiative pro-perties in coupled simulation o a la inar ootin a e

Kevin Torres Monclard, Ronan Vicquelin, Olivier Gicquel

Discussion of Untangling Nu-merics and Modeling: Viability of Explicit Filtering for Reacting LES

Timothy Gallagher

Numerical Modelling of Cable Fires

Lukas Arnold

Combination of Kinetic-Based Moment Methods and reali-zable numerical methods for dro let laden o re ol tion to predict solid rocket motor instabilities

Valentin Dupif, Joël Dupays, Frédérique Laurent, Marc Massot

Hydrodynamic simulations of the Henson-Smilowitz detailed kinetics model of HMX

Tariq Aslam

Afternoon Session 2

19:00

- 23

:00

Dinner - Historic City Hall


Tuesday, May 7


16:00

- 18

:00

Laminar Flames 1














16:00

- 16

:20

e n ence o li n ent of Mixture Fraction and Generalized Progress Variable Gradients on Multi-Modal Flame Structure

Alex G. Novoselov, Michael P. Whitmore, Temistocle Grenga, Bruce Perry, Michael E. Mueller

Explicit Filtering for Reacting LES: Perspectives on its Need and Viability

Timothy Gallagher

Computational Modeling of Compartment Fires for Aircraft Safety

Danyal Mohaddes, Matthias Ihme, Jason Damazo, Philipp Boettcher, Brad Moravec

A moment method using alge-braic closures for combustion applications in dilute regime

Enrica Masi, Olivier Simonin

LES of combustion noise from a t r lent re i ed et a e

Feichi Zhang, Thorsten Zirwes, Peter Habisreuther, Henning Bockhorn, Dimosthenis Trimis

Propagation of premixed a e in t e re ence o

Darrieus-Landau and Thermal Diffusive instability.

Francesco Creta, Moshe Matalon, Navin Fogla, Pasquale Eduardo Lapenna, Rachele Lamioni

Electromagnetic pulses genera-ted by detonations

Louisa Michael, Nikolaos Nikiforakis

16:20

- 16

:40

Steady and unsteady behaviours of methane/air co nter o non re i ed a-mes based on REDIM reduced chemistry

Felipe Minuzzi, Chunkan Yu, Ulrich Maas

Interaction of Numerical and Modelling errors in the context o S in i licit filterin

Markus Klein

rediction o co art ent fire toxicity using a two-step fast chemistry scheme

Randall McDermott, Kevin McGrattan, Jason Floyd

An Eulerian-Eulerian Approach for Predicting Liquid Fuel Sprays in the Dense- and Dis-perse-Spray Regions

Tim Leung, Andy Wang, Lucie Freret, Clinton Groth, John Hu

Two way hybrid LES/CAA approach with time domain im-pedance boundary conditions

Federico Lo Presti, Francesca Di Mare

Interaction of thermodiffusive and Darrieus-Landau instabili-ties in lean premixed hydrogen

a e

Lukas Berger, Konstantin Kleinheinz, Antonio Attili, Heinz Pitsch

Effect of hot-spot clusters on shock-to-detonation transition (SDT) in nitromethane with air filled ca itie

XiaoCheng Mi, Louisa Michael, Nikolaos Nikiforakis, Andrew J. Higgins

16:40

- 17

:00

Self-similarity of pressurized co nter o a e

Evrim Solmaz, Fabrizio Bisetti

Presentation and Analysis of Explicitly Filtered LES for Cano-nical Flame Experiments

Andreas Kempf, Amirhossein Bertels

Modeling smoldering of real el in ildland fire

W. Jayani Jayasuriya, Tejas Mulky, Kyle Niemeyer

o ard t o a e o nified odelin in in ection

systems

Ruben Di Battista, Pierre Cordes-se, Samuel Kokh, Marc Massot

Active Flow Control of the Precessing Vortex Core in a Swirl-stabilized Combustor: Impact on Flame dynamics

Finn Lückoff, Moritz Sieber, Oliver Paschereit, Kilian Ober-leithner

On the effect of geometry and dimensionality on the intrinsic

re i ed a e in ta ilitie

Christos Frouzakis, Christos Altantzis, George Giannako-poulos, Ananias Tomboulides, Konstantinos Boulouchos

A high-resolution Godunov method with HLLC Riemann solver for a two-phase model o reacti e o

Michael Hennessey, Ash Kapila, Donald Schwendeman

Afternoon Session 2


16:00

- 18

:00

Laminar Flames 1














17:00

- 17

:20

Stabilization of lean premixed 2 air a e

Faizan Habib Vance, Y. Shoshin, L.P.H. de Goey, J.A. van Oijen

Comparing Residual and Solution Filtering Approaches to t e licitl filtered S o Reactive Flows

Ayaboe Edoh, Timothy Gallagher, Venkateswaran Sankaran

Predictive CFD simulations of ool fire

Bart Merci

A Fifteen-Moment Model for Evaporating Polydisperse Sprays

James McDonald, Mathieu Giroux, Francois Forgues, Lucian Ivan


onfined r lent la e Power Spectral Distributions from experiment and LES

Thierry Schuller, Renaud Gau-dron, Marco Gatti, Clement Mirat, Malte Merk, Camilo Silva, Stefan Jaensch, Wolfgang Polifke

Effects of preferential diffusion and density ratio on bluff-body

a e ta ili ation

Yu Jeong Kim, Francisco Hernan-dez Perez, Bok Jik Lee, Hong Im

Simulations of chemical kinetics and thermodynamics of HMX decomposition within Henson-Smilowitz model

Kirill Velizhanin

17:20

- 17

:40

Numerical investigation of me-t ane air re i ed a e near the wall with conjugate heat transfer : Effect of temperature swing heat insulation

Reo Kai, Ryo Masuda, Takato Ikedo, Ryoichi Kurose

Is Filtering Necessary? Dynami-cal Systems Formulation of LES

Venkat Raman, Maryam Akram

Modelling thermoplastics in FireFoam

Alex Krisman, Karl Meredith, Yi Wang

Hybrid method for the descrip-tion of evaporating sprays

Frédérique Laurent, Dennis Dunn, Aymeric Vié, Roxane Letournel, Marc Massot


onfined r lent la e dentification o a e d -

namics and combustion noise source terms

Wolfgang Polifke, Malte Merk, Camilo Silva, Stefan Jaensch, Renaud Gaudron, Marco Gati, Clement Mirat, Thierry Schuller

Diffusive-thermal instabilities of premixed H2/O2/inert freely propagating and burner stabili-ed a e

Vladimir Gubernov, Viatcheslav Bykov, Ulrich Maas

Simulations of HMX Thermal Decomposition using Detailed Kinetics Models Coupled to Statistical Mechanics Based Equations of State

Jeffery Leiding

17:40

- 18

:00

Impact of soot radiative pro-perties in coupled simulation o a la inar ootin a e

Kevin Torres Monclard, Ronan Vicquelin, Olivier Gicquel

Discussion of Untangling Nu-merics and Modeling: Viability of Explicit Filtering for Reacting LES

Timothy Gallagher

Numerical Modelling of Cable Fires

Lukas Arnold

Combination of Kinetic-Based Moment Methods and reali-zable numerical methods for dro let laden o re ol tion to predict solid rocket motor instabilities

Valentin Dupif, Joël Dupays, Frédérique Laurent, Marc Massot

Hydrodynamic simulations of the Henson-Smilowitz detailed kinetics model of HMX

Tariq Aslam

Afternoon Session 2

19:00

- 23

:00

Dinner - Historic City Hall

26 Wednesday, May 8

Brüssel Berlin 1 Berlin 2 Berlin 3 Amsterdam K4/5 K3

09:20

- 10

:20

Turbulent Flames - Physics 2

Chair: Andrea Gruber

Droplets, Spray, and Heteroge-neo o tion

Chair: Hiroaki Watanabe


Chair: Shashank Yellapantula

Reaction Kinetics Modeling

Chair: Yasuyuki Sakai

Software Engineering and High Performance Computing

Chair: Stephen Voelkel

Detonation and Explosion

Chair: Alexei Poludnenko

Numerical Methods 4

Chair: Zhuo Wang

09:20

- 09

:40

Towards the Distributed Burning Regime in Turbulent Premixed Flames

Andrew J. Aspden, Marc Day, John Bell

Numerical study on the laminar a e elocit o dro en air

combustion under water spray effects

Guodong Gai, Sergey Kudriakov

A-priori analysis of data-driven closure models trained from a reacting DNS of a Low-Swirl Burner

Shashank Yellapantula, Marc T. Henry de Frahan, Ryan King, Ray Grout, Marc Day

Scalability Strategies for Auto-mated Reaction Mechanism Generation

Agnes Jocher, Nick Vandewie-le, Kehang Han, Mengjie Liu, William Green

i fidelit Si lation on Spray Combustion in Aero-en-gine Combustors by MPP

Bo Zhang, Bing Wang

A two-dimensional Euler formulation to model velocity deficit and a d na ic tr c-ture in hydrogen detonations

Brian Maxwell, Qiang Xiao, Matei Radulescu

A directional ghost-cell immersed boundary method or lo Mac reactin o in

complex geometries

Cheng Chi, Abouelmagd Abdel-samie, Dominique Thévenin

09:40

- 10

:00

Turbulent burning velocity in re i ed et a e at ar in

Reynolds and constant Karlo-vitz numbers

Antonio Attili, Stefano Luca, Fabrizio Bisetti, Heinz Pitsch

Computational study of alumi-num droplet combustion using a 1D unsteady approach

Mathieu Muller, Dmitry Daviden-ko, Vincent Giovangigli

A convolutional neural net-or a ed e ficienc nction

or rid a e t r lence interaction in LES

Corentin Lapeyre, Antony Misdariis, Nicolas Cazard, Victor Xing, Denis Veynante, Thierry Poinsot

An ignition delay time and ki-netic modeling study of 1- and 2-pentene

Shijun Dong, Henry Curran

HPC Implementation of Flame Particle Tracking for Studying Laminar and Turbulent Flame Dynamics

Thorsten Zirwes, Feichi Zhang, Peter Habisreuther, Jordan A. Denev, Henning Bockhorn, Dimosthenis Trimis

A Shockwave Closure Model for the 5-Equation Continuum Mixture Model for Compressi-ble Flows

John Bdzil, Ashwani Kapila

Computational Modeling of Multi-material Energetic Materials

Alber o ernánde , o Stewart

10:00

- 10

:20

Strain rate variation at the onset of bending in premixed t r lent a e ro a ation

Girish Nivarti, Shrey Trivedi, De-nis Veynante, Stewart Cant

Thermal conversion of large wood particles

Inge Haberle, Nils Haugen, Øyvind Skreiberg

Integrating Data-Based Tools into Physics-Based Model Development for Turbulent Combustion

Michael E. Mueller, Bruce A. Perry, A. Cody Nunno, Jonathan F. MacArt, Lukas Berger

Validation of a detailed kinetic mechanism for monopropellant combustion

Mark Fuller, Franklin Goldsmith

CALIF3S-P²REMICS : an high performance CFD toolbox for

i eed a e co tation

Laura Gastaldo, Jean-Claude Latché

Initiation of Spontaneous Deto-nation in Highly Compressible Turbulence

Colin Towery, Alexei Poludnenko, Peter Hamlington

The interaction of an oblique shock wave with material interfaces

Christopher Romick

Morning Session


08:15

- 09


Université Libre de Bruxelles, Brussels, BelgiumChair: Fabrizio Bisetti

10:20

- 10

:50

Coffee Break


10:50

- 12

:10













Numerical Methods 4

Chair: Zhuo Wang

10:50

- 11:

10

Fractal Analysis of Turbulent Premixed Flames

Kedar G. Bhide, S. Sreedhara

Simulation of Thermally Thick Wood Particles Combustion with an Eulerian–Lagrangian Method

Jingyuan Zhang, Tian Li, Henrik Ström, Terese Løvås

In-situ source term learning in a partially stirred reactor

Shivam Barwey, Venkat Raman

Autoignition behavior of i o olefin

S. Scott Goldsborough, Kuiwen Zhang, William Pitz, Dongil Kang, Brianna Wagner

Coupling and Benchmarking of Conditional Moment Closure model with OpenFOAM to ana-lyse Industrial Problems

Pranit Gaikwad, S. Sreedhara

e n ence o er al Radiation on Layered Dust Explosions

Swagnik Guhathakurta, Ryan Houim

da ti e Me efine ent for LES of Premixed Turbulent Methane Flames in the Thin Reaction Zones Regime

Ral Bielawski, Clinton Groth, Ömer Gülder

11:10

- 11:

30

The scaling of the surface area of turbulent premixed sphe-ricall e andin a e it Reynolds number

Tejas Kulkarni, Romain Buttay, Houssem Kasbaoui, Antonio Attili, Fabrizio Bisetti

Catalytic combustion of metha-ne on platinum: a case study for RMG-Cat

Katrin Blondal, Jelena Jelic, Emily Mazeau, Felix Studt, Ri-chard West, Franklin Goldsmith

Building Robust PCA-Based Kinetic Models for Combus-tion with Supervised Machine Learning

Elizabeth Armstrong, James Sutherland

Unwrapping the pressure-de-pendence hidden in chemical kinetic models

Malte Döntgen, Dzmitry Firaha, Kai Leonhard

Towards a dynamic model adaptive combustion closure using LEM, ODT, and HiPS

Tommy Starick, Juan A. Medina M., Heiko Schmidt

Reactive Simulations of Shock-Induced Chemistry in Homogenous Explosives

Svjetlana Stekovic, H. Keo Sprin-ger, Mithun Bhowmick, Dana D Dlott, D Scott Stewart

Predicting Lean Premixed Hyd-rogen Flames in Closed Vessels using a Mesh-Independent Large-Eddy Simulation Model in Conjunction with Anisotropic

da ti e Me efine ent

Ryan Taylor, Clinton P. T. Groth, Rita Liang, Lucian Ivan

11:30

- 11:

50

The interactions of premixed a e and atiall de elo in

boundary layer turbulence using direct numerical simu-lation

Zhuo Wang, Haiou Wang, Guo Chen, Kun Luo, Jianren Fan

A Reactor Network Approach for Grate Combustion Plants based on Detailed Chemistry

Netzer Corinna, Tian Li, Terese Løvås, Lars Seidel, Fabian Mauß

Modeling combustion using direct numerical simulation data and deep learning on supercomputers

Mathis Bode, Dominik Denker, Konstantin Kleinheinz, Heinz Pitsch

Ab initio reaction models from hybrid reactive molecular dy-namics and quantum chemistry simulations

Lukas Krep, Malte Döntgen, Felix Schmalz, Wassja Kopp, Leif Kröger, Kai Leonhard

Dynamic adaptation of tetrahedral-based meshes for the simulation of turbulent

re i ed a e

Vincent Moureau, Pierre Benard, Ghislain Lartigue, Renaud Mercier

Implementation of a conser-vative level set method for co re i le t o a e o

i lation in a i order finite volume code with Adaptive Me efine ent

Girish Nivarti, Stewart Cant

11:50

- 12

:10

Direct numerical simulations of finite t ic ne cro ection of turbulent reacting jets

Chandru Dhandapani, Guillaume Blanquart

n ncertaint antification study on a reduced-order char combustion model for burnout predictions in a drop tube furnace

Salvatore Iavarone, Jeremy Thor-nock, Sean Smith, Philip Smith, Francesco Contino, Alessandro Parente

Discussion: prospects and challenges for using machine learning in combustion research

Ray Grout, Shashank Yellapan-tula

New Mixture Rules for Pressu-re-Dependent Reactions for Implementation in Combustion Codes

Lei Lei, Michael Burke

Morning Session

12:10

- 13

:30

Lunch Break

Wednesday, May 8


09:20

- 10

:20













Numerical Methods 4

Chair: Zhuo Wang

09:20

- 09

:40











Bo Zhang, Bing Wang




complex geometries


09:40

- 10

:00

















10:00

- 10

:20










i eed a e co tation





Christopher Romick

Morning Session


08:15

- 09



10:20

- 10

:50

Coffee Break


Wednesday, May 8


09:20

- 10

:20













Numerical Methods 4

Chair: Zhuo Wang

09:20

- 09

:40











Bo Zhang, Bing Wang




complex geometries


09:40

- 10

:00

















10:00

- 10

:20










i eed a e co tation





Christopher Romick

Morning Session


08:15

- 09



10:20

- 10

:50

Coffee Break


10:50

- 12

:10













Numerical Methods 4

Chair: Zhuo Wang

10:50

- 11:

10

Fractal Analysis of Turbulent Premixed Flames

Kedar G. Bhide, S. Sreedhara

Simulation of Thermally Thick Wood Particles Combustion with an Eulerian–Lagrangian Method

Jingyuan Zhang, Tian Li, Henrik Ström, Terese Løvås

In-situ source term learning in a partially stirred reactor

Shivam Barwey, Venkat Raman

Autoignition behavior of i o olefin

S. Scott Goldsborough, Kuiwen Zhang, William Pitz, Dongil Kang, Brianna Wagner

Coupling and Benchmarking of Conditional Moment Closure model with OpenFOAM to ana-lyse Industrial Problems

Pranit Gaikwad, S. Sreedhara

e n ence o er al Radiation on Layered Dust Explosions

Swagnik Guhathakurta, Ryan Houim

da ti e Me efine ent for LES of Premixed Turbulent Methane Flames in the Thin Reaction Zones Regime

Ral Bielawski, Clinton Groth, Ömer Gülder

11:10

- 11:

30

The scaling of the surface area of turbulent premixed sphe-ricall e andin a e it Reynolds number

Tejas Kulkarni, Romain Buttay, Houssem Kasbaoui, Antonio Attili, Fabrizio Bisetti

Catalytic combustion of metha-ne on platinum: a case study for RMG-Cat

Katrin Blondal, Jelena Jelic, Emily Mazeau, Felix Studt, Ri-chard West, Franklin Goldsmith

Building Robust PCA-Based Kinetic Models for Combus-tion with Supervised Machine Learning

Elizabeth Armstrong, James Sutherland

Unwrapping the pressure-de-pendence hidden in chemical kinetic models

Malte Döntgen, Dzmitry Firaha, Kai Leonhard

Towards a dynamic model adaptive combustion closure using LEM, ODT, and HiPS

Tommy Starick, Juan A. Medina M., Heiko Schmidt

Reactive Simulations of Shock-Induced Chemistry in Homogenous Explosives

Svjetlana Stekovic, H. Keo Sprin-ger, Mithun Bhowmick, Dana D Dlott, D Scott Stewart

Predicting Lean Premixed Hyd-rogen Flames in Closed Vessels using a Mesh-Independent Large-Eddy Simulation Model in Conjunction with Anisotropic

da ti e Me efine ent

Ryan Taylor, Clinton P. T. Groth, Rita Liang, Lucian Ivan

11:30

- 11:

50

The interactions of premixed a e and atiall de elo in

boundary layer turbulence using direct numerical simu-lation

Zhuo Wang, Haiou Wang, Guo Chen, Kun Luo, Jianren Fan

A Reactor Network Approach for Grate Combustion Plants based on Detailed Chemistry

Netzer Corinna, Tian Li, Terese Løvås, Lars Seidel, Fabian Mauß

Modeling combustion using direct numerical simulation data and deep learning on supercomputers

Mathis Bode, Dominik Denker, Konstantin Kleinheinz, Heinz Pitsch

Ab initio reaction models from hybrid reactive molecular dy-namics and quantum chemistry simulations

Lukas Krep, Malte Döntgen, Felix Schmalz, Wassja Kopp, Leif Kröger, Kai Leonhard

Dynamic adaptation of tetrahedral-based meshes for the simulation of turbulent

re i ed a e

Vincent Moureau, Pierre Benard, Ghislain Lartigue, Renaud Mercier

Implementation of a conser-vative level set method for co re i le t o a e o

i lation in a i order finite volume code with Adaptive Me efine ent

Girish Nivarti, Stewart Cant

11:50

- 12

:10

Direct numerical simulations of finite t ic ne cro ection of turbulent reacting jets

Chandru Dhandapani, Guillaume Blanquart

n ncertaint antification study on a reduced-order char combustion model for burnout predictions in a drop tube furnace

Salvatore Iavarone, Jeremy Thor-nock, Sean Smith, Philip Smith, Francesco Contino, Alessandro Parente

Discussion: prospects and challenges for using machine learning in combustion research

Ray Grout, Shashank Yellapan-tula

New Mixture Rules for Pressu-re-Dependent Reactions for Implementation in Combustion Codes

Lei Lei, Michael Burke

Morning Session12

:10 -

13:30

Lunch Break

28

Wednesday, May 8


13:30

- 15

:30

Laminar Flames 2

Chair: Benedetta Franzelli

MS15 Numerical Modeling of Combustion Instabilities

Chair: Abdulla Ghani


Chairs: Mauro Valorani, Hong Im


Chair: Franklin Goldsmith



Chair: V'yacheslav Akkerman


Chair: Andreas Kempf



13:30

- 13

:50

Performance analysis of an implicit, fully-coupled method or i latin reacti e o

Nicholas Deak, Fabrizio Bisetti

Control of intrinsic thermo-acoustic instabilities using hydrogen fuel

Abdulla Ghani

nified e cri tion o Flame Topologies at Different Turbulent Combustion Regimes Using Computational Singular Perturbation

Stathis Tingas, Hong Im

Automated Construction of High-Fidelity Fuel Chemistry Models: Status & Challenges

William Green

Role of Chemical Kinetics in Flame Acceleration in Narrow Channels

Viatcheslav Bykov, Andrey Koksharov, Mike Kuznetsov, Victor Zhukov

Gas-phase synthesis of functional nanoparticles: From fundamental experiments to process development

Christof Schulz

Radiation Monte Carlo in Tur-bulent Combustion Media

Michael Modest

13:50

- 14

:10

Numerical study of stationary advancing and retreating edge

a e in inclined o o ed et it finite eat relea e

Benjamin Shields, Jonathan Freund, Carlos Pantano

Numerical solution of non-linear eigenvalue problems in thermoacoustics

Philip Buschmann, Georg Men-sah, Jonas Moeck

CSP-TSR analysis of a laminar methane/oxygen non-premixed

a e i in in on a cold all

Pietro Paolo Ciottoli, Riccardo Malpica Galassi, Lorenzo Angelil-li, Mauro Valorani

When Prompt Dissociation Matters

Nicole Labbe

Propagation of Symmetric and Non-symmetric Flames in Chan-nels: The Differential Diffusion and Compressibility Effects.

Anne Dejoan, Carmen Jiménez, Vadim Kurdyumov

Sectional Large Eddy Simulati-ons of the SpraySyn Flame for Nanoparticle Synthesis

Jonas Kirchmann, Johannes Sellmann, Oliver Stein, Irenäus Wlokas, Andreas Kronenburg, Andreas Kempf

Comparison and Assessment of Moment Closure Methods for Predicting Radiative Heat Transfer in High-Pressure Lami-nar Co-Flow Diffusion Flames

Joachim A. R. Sarr, Clinton Groth, John Hu

14:10

- 14

:30

The role of gravity in the a etr o a e in narro combustion chambers

Kevin Bioche, Amanda Pieyre, Guillaume Ribert, Franck Riche-coeur, Luc Vervisch

Resolvent Analysis: A Way to Extract Flame Transfer Functi-ons out of Mean Flow Data?


Feature extraction in combus-tion applications

Giuseppe D'Alessio, Gianmarco Aversano, Ka ila d ba , Alber o Cuoci, Alessandro Parente

RCDriver: Driving high-level thermochemistry and kinetics computations

Sarah Elliott, Murat Keceli, Andreas Copan, Carlo Cavallotti, Yuri Georgievski, Henry Schaefer, Stephen Klippenstein

n ence o t e eat o e on Fast and Slow Flame Propaga-tion in Long Narrow Channels From a Closed End

Vadim Kurdyumov, Moshe Matalon

A hybrid stochastic/sectional approach for simulating soot dynamics

Alexandre Bouaniche, Pascale Domingo, Luc Vervisch

n ence o S ectral article Properties on Radiative Heat Transfer in Combusting Systems

Cihan Ates, Rainer Koch, Hans-Jörg Bauer

Afternoon Session 1


13:30

- 15

:30

Laminar Flames 2















14:30

- 14

:50

Application and Comparison of Chemistry Tabulation Techni-ques for Laminar Methane-Air and Jet A-Air Co-Flow Flames at Elevated Pressures

Marthinus C. S. de Beer, Clinton Groth, John Hu

LES for the modeling of com-bustion instabilities in rocket engines

Robin Nez, David Marchal, Tho-mas Schmitt, Sébastien Ducruix

Modal decomposition of reactin o in a odel a turbine

Temistocle Grenga, Konstantin Kleinheinz, Antonio Attili, Heinz Pitsch

Chemical Reaction Mechanisms: New Exploration Methods

Jeremy Harvey

e a ration to etonation Transition: Numerical Issues

Leonid Kagan, Andrey Koksharov, Peter Gordon, Gregory Sivas-hinsky

Modeling of bi-component droplet evaporation for use in spray combustion simulations

Praveen Narasu, Fulong Zhao, Eva Gutheil

Modeling radiative absorption and anisotropic scattering by water droplets in large-scale fire i lation

Oluwayemisi Oluwole, Karl Meredith, Yi Wang

14:50

- 15

:10

Flame picture reconstruction of a ootin a e

Victor Chernov

e role o a e ro a ation and autoignition in sequential co tor a e d na ic

Oliver Schulz, Roberto Solana Pérez, Nicolas Noiray

Effect of the training dataset and data preprocessing on adaptive-chemistry simula-tions

Giuseppe D'Alessio, Gianmarco Aversano, Alberto Cuoci, Ales-sandro Parente

Genesys: building kinetic mo-del ro fir t rinci le

Ruben Van de Vijver, Florence Vermeire, Guy Marin, Kevin Van Geem

Universal Mechanism of the Un-confined e a ration to eto-nation Transition in Terrestrial Chemical Systems and Type Ia Supernovae

Kareem Ahmed, Alexei Polud-nenko, Jessica Chambers, Vadim Gamezo, Brian Taylor

Numerical study of titania nanoparticle production in 1-D

re i ed et ane air a e

Jean-Maxime Orlac'h, Nasser Darabiha, Denis Veynante, Benedetta Franzelli

Account for wall non-grayness in spectral solution of thermal radiation in participating media

Hadi Bordbar

15:10

- 15

:30

Asymptotic analysis to the effect of temperature gradient on the propagation of triple

a e

Faisal Almalki

Statistical learning by data a i ilation in reactin o

Luca Magri, Hans Yu, Matthew Juniper, Wolfgang Polifke, Nguy-en Anh Khoa Doan

From Electronic Structure to Temperature and Pressure Dependent Rate Constants: ES-tokTP. A Code for Automatically Predicting the Thermal Kinetics of Reactions

Carlo Cavallotti, Matteo Pelucchi, Yuri Georgievskii, Stephen Klippenstein

Flame acceleration and transition to detonation in hydrogen-based microfoams and foamed emulsions

Alexey Kiverin, Ivan Yakoven-ko, Alexey Korshunov, Boris Kichatov

The resolution of nano-particle size distribution dynamics in t r lent a e in detailed chemical kinetics

Peter Lindstedt, Panagiotis Simatos

Afternoon Session 1

15:30

- 16

:00

Coffee Break


Wednesday, May 8


13:30

- 15

:30

Laminar Flames 2















13:30

- 13

:50

Performance analysis of an implicit, fully-coupled method or i latin reacti e o

Nicholas Deak, Fabrizio Bisetti

Control of intrinsic thermo-acoustic instabilities using hydrogen fuel

Abdulla Ghani

nified e cri tion o Flame Topologies at Different Turbulent Combustion Regimes Using Computational Singular Perturbation

Stathis Tingas, Hong Im

Automated Construction of High-Fidelity Fuel Chemistry Models: Status & Challenges

William Green

Role of Chemical Kinetics in Flame Acceleration in Narrow Channels

Viatcheslav Bykov, Andrey Koksharov, Mike Kuznetsov, Victor Zhukov

Gas-phase synthesis of functional nanoparticles: From fundamental experiments to process development

Christof Schulz

Radiation Monte Carlo in Tur-bulent Combustion Media

Michael Modest

13:50

- 14

:10

Numerical study of stationary advancing and retreating edge

a e in inclined o o ed et it finite eat relea e

Benjamin Shields, Jonathan Freund, Carlos Pantano

Numerical solution of non-linear eigenvalue problems in thermoacoustics

Philip Buschmann, Georg Men-sah, Jonas Moeck

CSP-TSR analysis of a laminar methane/oxygen non-premixed

a e i in in on a cold all

Pietro Paolo Ciottoli, Riccardo Malpica Galassi, Lorenzo Angelil-li, Mauro Valorani

When Prompt Dissociation Matters

Nicole Labbe

Propagation of Symmetric and Non-symmetric Flames in Chan-nels: The Differential Diffusion and Compressibility Effects.

Anne Dejoan, Carmen Jiménez, Vadim Kurdyumov

Sectional Large Eddy Simulati-ons of the SpraySyn Flame for Nanoparticle Synthesis

Jonas Kirchmann, Johannes Sellmann, Oliver Stein, Irenäus Wlokas, Andreas Kronenburg, Andreas Kempf

Comparison and Assessment of Moment Closure Methods for Predicting Radiative Heat Transfer in High-Pressure Lami-nar Co-Flow Diffusion Flames

Joachim A. R. Sarr, Clinton Groth, John Hu

14:10

- 14

:30

The role of gravity in the a etr o a e in narro combustion chambers

Kevin Bioche, Amanda Pieyre, Guillaume Ribert, Franck Riche-coeur, Luc Vervisch

Resolvent Analysis: A Way to Extract Flame Transfer Functi-ons out of Mean Flow Data?


Feature extraction in combus-tion applications

Giuseppe D'Alessio, Gianmarco Aversano, Ka ila d ba , Alber o Cuoci, Alessandro Parente

RCDriver: Driving high-level thermochemistry and kinetics computations

Sarah Elliott, Murat Keceli, Andreas Copan, Carlo Cavallotti, Yuri Georgievski, Henry Schaefer, Stephen Klippenstein

n ence o t e eat o e on Fast and Slow Flame Propaga-tion in Long Narrow Channels From a Closed End

Vadim Kurdyumov, Moshe Matalon

A hybrid stochastic/sectional approach for simulating soot dynamics

Alexandre Bouaniche, Pascale Domingo, Luc Vervisch

n ence o S ectral article Properties on Radiative Heat Transfer in Combusting Systems

Cihan Ates, Rainer Koch, Hans-Jörg Bauer

Afternoon Session 1


13:30

- 15

:30

Laminar Flames 2















14:30

- 14

:50

Application and Comparison of Chemistry Tabulation Techni-ques for Laminar Methane-Air and Jet A-Air Co-Flow Flames at Elevated Pressures

Marthinus C. S. de Beer, Clinton Groth, John Hu

LES for the modeling of com-bustion instabilities in rocket engines

Robin Nez, David Marchal, Tho-mas Schmitt, Sébastien Ducruix

Modal decomposition of reactin o in a odel a turbine

Temistocle Grenga, Konstantin Kleinheinz, Antonio Attili, Heinz Pitsch

Chemical Reaction Mechanisms: New Exploration Methods

Jeremy Harvey

e a ration to etonation Transition: Numerical Issues

Leonid Kagan, Andrey Koksharov, Peter Gordon, Gregory Sivas-hinsky

Modeling of bi-component droplet evaporation for use in spray combustion simulations

Praveen Narasu, Fulong Zhao, Eva Gutheil

Modeling radiative absorption and anisotropic scattering by water droplets in large-scale fire i lation

Oluwayemisi Oluwole, Karl Meredith, Yi Wang

14:50

- 15

:10

Flame picture reconstruction of a ootin a e

Victor Chernov

e role o a e ro a ation and autoignition in sequential co tor a e d na ic

Oliver Schulz, Roberto Solana Pérez, Nicolas Noiray

Effect of the training dataset and data preprocessing on adaptive-chemistry simula-tions

Giuseppe D'Alessio, Gianmarco Aversano, Alberto Cuoci, Ales-sandro Parente

Genesys: building kinetic mo-del ro fir t rinci le

Ruben Van de Vijver, Florence Vermeire, Guy Marin, Kevin Van Geem

Universal Mechanism of the Un-confined e a ration to eto-nation Transition in Terrestrial Chemical Systems and Type Ia Supernovae

Kareem Ahmed, Alexei Polud-nenko, Jessica Chambers, Vadim Gamezo, Brian Taylor

Numerical study of titania nanoparticle production in 1-D

re i ed et ane air a e

Jean-Maxime Orlac'h, Nasser Darabiha, Denis Veynante, Benedetta Franzelli

Account for wall non-grayness in spectral solution of thermal radiation in participating media

Hadi Bordbar

15:10

- 15

:30

Asymptotic analysis to the effect of temperature gradient on the propagation of triple

a e

Faisal Almalki

Statistical learning by data a i ilation in reactin o

Luca Magri, Hans Yu, Matthew Juniper, Wolfgang Polifke, Nguy-en Anh Khoa Doan

From Electronic Structure to Temperature and Pressure Dependent Rate Constants: ES-tokTP. A Code for Automatically Predicting the Thermal Kinetics of Reactions

Carlo Cavallotti, Matteo Pelucchi, Yuri Georgievskii, Stephen Klippenstein

Flame acceleration and transition to detonation in hydrogen-based microfoams and foamed emulsions

Alexey Kiverin, Ivan Yakoven-ko, Alexey Korshunov, Boris Kichatov

The resolution of nano-particle size distribution dynamics in t r lent a e in detailed chemical kinetics

Peter Lindstedt, Panagiotis Simatos

Afternoon Session 1

15:30

- 16

:00

Coffee Break

30 Wednesday, May 8Afternoon Session 2


16:00

- 18

:20


Chair: Metin Muradoglu

Heterogeneous Combustion

Chair: Daniel Mira

MS20 Combustion and Data Sciences: Emerging Opportu-nities

Chair: Venkat Raman


Chairs: Michael Burke, Richard West






Fires, Real Gas Effects, and Supercritical Combustion

Chair: Arnaud Trouvè

16:00

- 16

:20

LES/FDF Simulations of Turbu-lent Jet Flames Using FGM

Vasu Jaganath, Michael Stoel-linger

On using volume averaging method with closure for Euler-Lagrange simulations of la inar a e ro a ation in dust clouds

Mohamed Belerrajoul, Yohan Davit, Fabien Duval, Michel Quintard, Olivier Simonin

Deep Learning for Combustion Instability Diagnostics

Soumik Sarkar

in ot n e ficient reaction pathway explorer

Judi ádor, uben an de i ver

Effect of thermal-chemical fuel properties and surface condition on re i ed a e acceleration in unobstructed and obstructed pipes

V'yacheslav Akkerman

Detailed and Reduced Reaction Schemes for Iron Oxide Nano-particle Synthesis Flames

Monika Nanjaiah, Hans Jünger, Matthieu R. Lalanne, Igor Rahinov, Andreas Kempf, Irenäus Wlokas

Large Eddy Simulation of ther-mal runaway in a Lithium-ion battery module

Shubham Agarwal, Matthieu Lekyo, Florent Duchaine

16:20

- 16

:40

Large-Eddy Simulation of the a rid e irled tratified a e erie in M and

Lagrangian FDF

Seung-Jin Baik, Eray Inanc, Andreas Kempf

CFD simulation of pulverized biomass conversion using spheroidal approximation

Ning Guo, Ángel David García Llamas, Tian Li, Kentaro Umeki, Rikard Gebart, Terese Løvås

Adaptive low-rank tensor com-pression algorithms for gene-rating, managing, and analyzing lar e cale cientific data

Alex Gorodetsky

AutoTST: automated transition state theory calculations for high-throughput calculation of chemical kinetics

Richard West, Nathan Harms

Effect of Gas Expansion on the Interaction of a Premixed Flame with a Periodic Shear Flow

Damir Valiev, Ruixue Feng, And-rea Gruber, Jacqueline Chen

Characterisation of the Spray-Syn burner by LES

oruk ovi , Andreas Kempf

Numerical simulation of cryo-enic o nder i re -

sure conditions

Stefan Fechter, Tim Horchler, Se-bastian Karl, Klaus Hannemann

16:40

- 17

:00

LES/PDF simulations of swirling t r lent re i ed a e

Hasret Turkeri, Xinyu Zhao, Ste-phen B. Pope, Metin Muradoglu

odel or d t de a ration considering inner particle transport effects

Christoph Spijker, Harlad Rau-penstrauch, Hannes Kern

Data-poor problems in com-bustion sciences

Malik Hassanaly, Venkat Raman

eaction at findin in Strings and Graphs

Paul Zimmerman

Flame propagation regimes and a e in ta ilit in a t in la er

geometry

Mike Kuznetsov, Joachim Grune

Dual Population Balance Monte Carlo Simulation for Nanopar-ticle Synthesis in Spray Flame Pyrolysis with Supporting from DNS

Ivan Skenderovic, Abouelmagd Abdelsamie, Dominique Théve-nin, Frank Einar Kruis

Large eddy simulations of the UMD line burner with the conditional moment closure method

Boris Kruljevic, Ivana Stankovic, Bart Merci

17:00

- 17

:20

LES/PDF simulation of Cambridge/Sandia turbulent

tratified a e it di eren-tial diffusion

Metin Muradoglu, Hasret Turkeri, Xinyu Zhao, Stephen B. Pope

An evaluation study of different treatments of coal devolatiliza-tion in predicting combustion characteristics of a stagnation coal a e

Jiangkuan Xing, Haiou Wang, Kun Luo, Chunguang Zhao, Yun Bai, Jianren Fan

Data-based modeling for clo-sed-loop control of combustion engines

Thivaharan Albin

Seeking Saddle Points with Sella

ri er es, Judi ádor

Flame propagation and DDT over groove obstacles

Edyta Dzieminska, Shota Yama-moto, Noboyuki Tsuboi, A. Koichi Hayashi

Prediction of particle size di tri tion in a e it a discretised population balance and a con er ati e finite ol -me method

Anxiong Liu, Stelios Rigopoulos

Unsteady simulations of liquid/gas interfaces using the second gradient theory

Davy Nayigizente, Thomas Schmitt, Sébastien Ducruix


16:00

- 18

:20




Chair: Daniel Mira


Chair: Venkat Raman










16:00

- 16

:20






Soumik Sarkar









16:20

- 16

:40


Lagrangian FDF





Alex Gorodetsky








sure conditions


16:40

- 17

:00








Paul Zimmerman


geometry






17:00

- 17

:20







Thivaharan Albin









Afternoon Session 2


16:00

- 18

:20




Chair: Daniel Mira


Chair: Venkat Raman










17:20

- 17

:40

Evaluation of turbulent com-bustion models for Large Eddy Si lation o a e ta ili a-tion assisted by auto-ignition in a eo etricall i lified reheat gas turbine combustor

Andrea Gruber, Jonas Krüger, Hasret Turkeri, Xinyu Zhao, Oliver Schulz, Nicolas Noiray, Bénédicte Cuenot, Thierry Poinsot, Aditya Konduri, Jacque-line Chen

Resolved Simulations of Coal Ignition under Pressurized Oxy-fuel Combustion Environ-ment

Hongying Yu, Junjun Guo, Peng-fei Li, Zhaohui Liu

Deep Learning and Model Predictive Control for a Flow Control Problem

Katharina Bieker, Sebastian Peitz, Steven Brunton, Nathan Kutz, Michael Dellnitz

Automating rate constants for barrierless reactions

Franklin Goldsmith, Xi Chen

Numerical analysis on detonation and detonation application using adaptive

e refine ent

A. Koichi Hayashi, Nobuyuki Tsuboi, Xinmeng Tang, Edyta Dzieminska

Statistical Modeling of Aerosol Dynamics in a Turbulent Flame

Achim Wick, Raymond Langer, Antonio Attili, Heinz Pitsch

Comparison of Detailed Chemistry and Flamelet Com-bustion Modeling in a H2/LOx Subscale Combustion Chamber

Tim Horchler, Stefan Fechter, Se-bastian Karl, Klaus Hannemann

17:40

- 18

:00

Application of LES/FMDF Model to Complex Combustion Systems

Farhad Jaberi, AbdulAhad Validi, Zhaorui Li

The effect of turbulence on the reactant mass transfer to pulverized char

Nils Erland L. Haugen, Jonas Kruger, Ewa Karchniwy, Patrycja Zareba, Terese Løvås, Tian Li, Adam Klimanek

Data assimilation for a level set re i ed a e odel a in

a qualitative model quantitati-vely accurate

Matthew Juniper, Hans Yu, Luca Magri

Flame acceleration and DDT in presence of energy losses and steam condensation

Mike Kuznetsov, Jorge Yanez, Alexander Lelyakin

Discussion of Nano-Particle Synthesis from Flames

Andreas Kempf

Analysis of Flux Construction Techniques for Gas-Liquid Flow Systems at Supercritical Pressures

Joseph Oefelein, Matthew Harvazinski, Venkateswaran Sankaran, Charles Merkle

18:00

- 18

:20

finite article et od a ed filtered den it nction

approach for the large eddy simulation of turbulent multi-

a e o

Sean Garrick, Everett Wenzel

Effect of particle size and dispersed phase mass fraction on burning velocity calculation in FLACS-DustEx

Maryam Ghaffari


Wednesday, May 8Afternoon Session 2


16:00

- 18

:20




Chair: Daniel Mira


Chair: Venkat Raman










16:00

- 16

:20






Soumik Sarkar









16:20

- 16

:40


Lagrangian FDF





Alex Gorodetsky








sure conditions


16:40

- 17

:00








Paul Zimmerman


geometry






17:00

- 17

:20







Thivaharan Albin










16:00

- 18

:20




Chair: Daniel Mira


Chair: Venkat Raman










16:00

- 16

:20






Soumik Sarkar









16:20

- 16

:40


Lagrangian FDF





Alex Gorodetsky








sure conditions


16:40

- 17

:00








Paul Zimmerman


geometry






17:00

- 17

:20







Thivaharan Albin









Afternoon Session 2


16:00

- 18

:20




Chair: Daniel Mira


Chair: Venkat Raman










17:20

- 17

:40

Evaluation of turbulent com-bustion models for Large Eddy Si lation o a e ta ili a-tion assisted by auto-ignition in a eo etricall i lified reheat gas turbine combustor

Andrea Gruber, Jonas Krüger, Hasret Turkeri, Xinyu Zhao, Oliver Schulz, Nicolas Noiray, Bénédicte Cuenot, Thierry Poinsot, Aditya Konduri, Jacque-line Chen

Resolved Simulations of Coal Ignition under Pressurized Oxy-fuel Combustion Environ-ment

Hongying Yu, Junjun Guo, Peng-fei Li, Zhaohui Liu

Deep Learning and Model Predictive Control for a Flow Control Problem

Katharina Bieker, Sebastian Peitz, Steven Brunton, Nathan Kutz, Michael Dellnitz

Automating rate constants for barrierless reactions

Franklin Goldsmith, Xi Chen

Numerical analysis on detonation and detonation application using adaptive

e refine ent

A. Koichi Hayashi, Nobuyuki Tsuboi, Xinmeng Tang, Edyta Dzieminska

Statistical Modeling of Aerosol Dynamics in a Turbulent Flame

Achim Wick, Raymond Langer, Antonio Attili, Heinz Pitsch

Comparison of Detailed Chemistry and Flamelet Com-bustion Modeling in a H2/LOx Subscale Combustion Chamber

Tim Horchler, Stefan Fechter, Se-bastian Karl, Klaus Hannemann

17:40

- 18

:00

Application of LES/FMDF Model to Complex Combustion Systems

Farhad Jaberi, AbdulAhad Validi, Zhaorui Li

The effect of turbulence on the reactant mass transfer to pulverized char

Nils Erland L. Haugen, Jonas Kruger, Ewa Karchniwy, Patrycja Zareba, Terese Løvås, Tian Li, Adam Klimanek

Data assimilation for a level set re i ed a e odel a in

a qualitative model quantitati-vely accurate

Matthew Juniper, Hans Yu, Luca Magri

Flame acceleration and DDT in presence of energy losses and steam condensation

Mike Kuznetsov, Jorge Yanez, Alexander Lelyakin

Discussion of Nano-Particle Synthesis from Flames

Andreas Kempf

Analysis of Flux Construction Techniques for Gas-Liquid Flow Systems at Supercritical Pressures

Joseph Oefelein, Matthew Harvazinski, Venkateswaran Sankaran, Charles Merkle

18:00

- 18

:20

finite article et od a ed filtered den it nction

approach for the large eddy simulation of turbulent multi-

a e o

Sean Garrick, Everett Wenzel

Effect of particle size and dispersed phase mass fraction on burning velocity calculation in FLACS-DustEx

Maryam Ghaffari

32

Situated on Germany’s border to Belgium and the Netherlands, Aachen is one of the most beautiful cities in Germany and a popular tourist destination.People from all over the world travel to Aachen to admire its magnificent cathedral. It was one of the very first items ever to be listed as part of the UNESCO World Cultural Heritage. The historic town center with its world-famous buildings also embraces modern art and contemporary architecture. Aachen has long been famous for its curative hot springs and spas, the hottest in Europe, which have been frequently visited by royalty over the centuries.Aachen is also known for its “Printen”. They are a sweet gingerbread-like treat made with nuts, herbs, and spices, sometimes covered in chocolate. Even though they are typ-ically enjoyed around the holiday season, due to their pop-ularity with tourists you can find Printen in Aachen all year round. More than 4,500 tons of Printen dough is produced each year in factories and bakeries in and around Aachen.

As a modern center for world-class research and educa-tion, Aachen hosts not only the RWTH University but also a University of Applied Sciences, several Fraunhofer- and Leibniz-Institutes and many innovation centers from start-up firms to established companies. The RWTH Campus concept provides a unique development area for academic-industrial collaborations. With more than 43,000 students, RWTH Aachen University is one of the largest universities in Germany. Its strategic plan “The Integrated Interdisciplinary University of Technology” led to the selec-tion as one of eleven German “Universities of Excellence” and it hosts the Research Cluster of Excellence “Fuel Science Center”, which comprises a strong research pro-gram in combustion, chemical engineering, and chemistry.In Aachen, a European mindset and a long line of traditions go hand in hand. The 2000-year-old imperial city presents itself as a cosmopolitan metropolis with historic flair and a multicultural center of academic and cultural excellence.

About Aachen


Ordered by Charlemagne as a palatine chapel at the end of the 8th century, this cathedral witnessed the cor-onations of a long line of Holy Roman kings. It is also where Charlemagne was buried. The still-intact throne, dating back to 796, was used for every coronation at the cathedral. The Karlschrein, a golden reliquary crafted in 1215, and containing Charlemagne’s exhumed bones

is just one example of medieval gold-work displayed in this impressive building. The cathedral treasury holds one of Europe’s most valuable collections of medieval liturgical art.In 1978, as the first monument in Germany, Aachen Cathedral with its treasury was awarded the UNESCO World Heritage status recognizing it for its architecture and the epochal events that took place here throughout hundreds of years.

THE HISTORIC CITY HALL (CONFERENCE DINNER VENUE)Opposite the cathedral is the city hall. Charlemagne built his imperial palace right at this spot, but after its demolition, in the 13th century, only the Granus Tower and the lowest four stories remained. The city hall as we know it today was completed in 1350 and was one of the great secular build-ings of the Gothic period. The magnificent coronation hall is amongst the most impressive attractions and was the site of a total of 31 coro-nations of the kings of the Holy Roman Empire. When the city council is not in session, the hall is open to the public and we will hold the conference dinner in this room.

Top Landmarks

AACHEN CATHEDRAL

34

Right in front of the city hall is Aachen’s market place. In its center, you can find the Karlsbrunnen fountain with a statue of Charlemagne. If the weather is good, you will see lots of people

sitting in front of the cafes and restaurants there. Sur-rounding the square are numerous beautiful buildings, some of them dating back to medieval times.

THE MARKTPLATZ


CENTRE CHARLEMAGNEThe museum of Aachen was reopened in a new glass building in 2014. It displays items from different episodes of the city’s past beginning with the earliest Celtic settlements in the area. Visitors learn about Aachen’s foundation as a spa resort under the Romans, the Carolingian period and the role Charlemagne played in turning Aachen into the city of Imperial coronations. Part of the exhibition is also infor-mation about the city during the Reformation as well as its rebirth as an 18th-century spa destination and evo-lution into an industrial powerhouse in the 19th century.

PONTTORBuilt in 1320, Ponttor is one of the last fragments of Aachen’s city walls and is one of only two gates left standing. The defenses were torn down during Napoleon’s occupation of the city at the turn of the 19th century.The structure consists of an outer barbican, a gatehouse with a portcullis and a bridge passage over the moat sup-ported by crenellations. It came under threat of demolition later in the 1800s but was saved and restored.

The Elisenbrunnen, or Elisa Fountain, is a testament to the importance of the city as a bathing and thermal region dating back to the Roman times. This prime example of neoclassical architecture was built in 1827 and is named after Elisabeth Ludovika of Bavaria. You can see a bust of her in the building’s rotunda.

The spring water is 52°C and releases a strong smell of hydrogen sulfide. That hasn’t deterred famous people from imbibing this water, and the names of prestigious visitors like George Frideric Handel and Giacomo Casanova are recorded on marble plaques.

ELISENBRUNNEN

www.medien.aachen.de / Nadine Jungblut

36

CAROLUS THERMENThe Carolus Thermen is a bathing world without compar-ison in a beautifully designed thermal area. It is located in walking distance from the conference venue at the oppo-site end of the Kurpark. Most pools are fed directly from one of the more than 30 mineral thermal springs in Aachen, which belong to the richest mineral thermal springs in Germany. With their high share of mineral and trace ele-ments and temperatures of up to 75°C, they are among the most popular and hottest thermal springs in Central Europe. Additionally, you can find fifteen different saunas and steam baths.

THREE-COUNTRY POINTJust southwest of Aachen is the border between Germany, Belgium, and the Netherlands. The lines converge at the summit of Vaalserberg, a 320-meter-high hill, which also happens to be the highest point of the mainland Netherlands. A simple waist-high obelisk marks that point.On the Belgian side is the Tour Badouin, which is 50 meters high and served by a transparent lift that rises to a viewing platform.Additionally, there is another structure, the Wilhemina Tower, on the Dutch side, which has a “skywalk” with nothing but reinforced glass beneath your feet.Besides, there is also a small amusement park, several snack-bars and a hedge maze that takes about 45 minutes to complete.

DOMKELLERThe Domkeller is one of the many bars in Aachen. It is located in the very heart of Aachen, close to cathedral and city hall. The building dates back to the 17th century. It fea-tures a wide selection of local and international beers with live music every Monday night.

www.medien.aachen.de / Andreas Herrmann

www.medien.aachen.de / Bernd Schr√∂der


Welcome Reception

Date: Sunday, May 5Location: Hotel QuellenhofAll participants are invited to complimentary drinks and snacks at the welcome reception on Sunday, May 5 at 6 - 8 pm, which is hosted in cooperation with our sponsor Siemens.

Gala Dinner

Date: Tuesday, May 7Location: Coronation Hall at City HallOn Tuesday, May 7, every participant is invited to join us for a gala dinner at the historic Coronation Hall at City Hall. This impressive setting will set the tone for a delightful eve-ning. Doors will open at 7 pm, and the event starts at 7:30 pm with a speech by Marcel Philipp, the mayor of Aachen, after which we will sit down to enjoy a delicious four-course meal. The dinner will come to an end at around 11 pm.

Social Events

www.medien.aachen.de / Peter Hinschläger

© Heinz-Jürgen Schumacher, Schumacher Verlag+Agentur

38

Aachen, Germany’s most western city, is well connected to the European transport system and within a short distance of major international airports. No matter where you are coming from: getting to Aachen is comfortable and conve-nient – by train, car, or plane.

By Train

Aachen is linked to the international railway network. The high-speed train THALYS operates between Paris and Dusseldorf with a stop Aachen. Additionally, ICE trains run from Frankfurt to Brussels via Aachen. There are good regional connections to the cities of Cologne and Dusseldorf. To find information on train connections go to www.bahn.de.

By Car

Aachen is easily accessible via the German “Autobahn” and freeways from Amsterdam, Brussels, and Paris.

By Plane

There are several international airports within short trav-eling distance to Aachen. These are, among others, Frankfurt, Cologne, Dusseldorf and Brussels airport. Each of them can be reached easily by train and by car via the well-developed traffic network.

Traveling to Aachen


Methods of payment

Most shops and restaurants accept international credit cards. Nevertheless, when it comes to public transporta-tion, smaller restaurants or open markets, cash is the safer option as not all of them accept credit card payment.ATMs are conveniently located all over the city.

Business hours

Most businesses, public institutions, and governmental establishments are open Monday through Friday. In addi-tion, most shops are also open on Saturdays. Sundays are considered rest days in Germany; therefore, the majority of shops are closed. Restaurants and gas stations are open for the most part, though.

Getting around

Public transportation in Aachen relies on buses. On the main lines, buses run as often as every 8 min-utes. You can buy your ticket from the bus driver or at a ticket machine. For more information visit: https://www.aseag.de

Electricity in Germany

The standard voltage is 230 V and the standard frequency is 50 Hz.In Germany, the power plugs and sockets are of type F, also known as “Schuko”. This socket also works with plugs of type C and E.

Practical Information

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Getting a dream rolling has never been more challenging. Products are smarter. Manufacturing processes are more complex. And design cycles are shorter than ever. Simcenter software can help. With its unique combination of multi-disciplinary simulation, advanced testing and data analytics, Simcenter gives you the power to explore alternatives faster, predict performance more accurately... and deliver innovation with greater confidence.

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Notes

42

Notes


Impressum

Publisher

The Combustion Institute, Deutsche Sektion e.V.Prof. Dr.-Ing. Heinz Pitsch (chair)Institut für Technische VerbrennungRWTH Aachen UniversityTemplergraben 6452056 AachenPhone: +49 241 8094607E-Mail: [email protected]

Editors

Konstantin Kleinheinz and Heinz Pitsch

Printing and Layout

Schumacher Verlag+AgenturDipl. Des. Heinz-Jürgen SchumacherNordstraße 7552134 HerzogenrathPhone: +49 2407 918131

Aachen, 2019

44

Map of Aachen

Suggested Walking Routefrom Conference Venue to Historic City Hall

Quellenhof /EurogressPonttor

RWTH Aachen

UniversityCity Hall

Cathedral

Elisen-brunnen

Theater

Central Station

Central BusStation

Krefe

lder S

traße

Jülicher StraßeMonheimsalleeRochusstraße

Großkölnstraße

Pontstraße

Bahnhofplatz

Theaterstraße

Martinstr.

Seilgraben

Templergraben

Adalbertsteinweg

Heinrichsalle

Adalbertstraße Kaiserplatz

Fried

rich-

Wilh

elm-P

latz

Kapuzinergraben

Markt

Jakob

straße

Ludwigsallee

Roermonder Straße

Peterstraße

Kurhausstraße

Krämerstraße

SandkaulstraßeSandkaulstraße

(to/fr

om A

4 - N

ethe

rland

s)

(to/from A4/A44 - C

ologne/Düsseldorf)

By bus

Getting to the conference venue takes about 10 minutes by bus. Take bus 3A or 13A (direction: Aachen, Uniklinik) and get off at the stop “Eurogress”. It is located directly in front of the Eurogress/Quellenhof complex. You can buy your ticket from the bus driver or at a ticket machine. The ticket costs € 1,50. Buses run approximately every 30 minutes on Sundays and more frequently on business days.

By taxi

Taxis are available in front of the central station. The ride takes a little less than 10 minutes and costs around € 9,00.

By foot

Walking to the Hotel Quellenhof takes about 30 minutes.

How to get to Hotel Quellenhof from the central station:


Ground Floor

First Floor

EuropaBerlin 1

Berlin 2

Berlin 3

Brüssel

Lissabon

Hotel Lobby

Foyer LondonBrasserie

Lakme

TeehalleElephant

Bar

Terrace

Kaminhalle

to Amsterdam

Eurogress Main Entrance

Foyer Lissabon

Quellenhof

Main Entrance

K4 / K5K3

K2

Registration / Welcome ReceptionCoffee Break / Lunch RoomsSession Rooms

Conference Venue

Numerical Combustion 2019 Aachenwww.nc19.itv.rwth-aachen.de

aachen 2019 - 0(%,' % 123()+0*-%.,3425#+,' · 2019. 5. 2. · 17th international...

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