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19th International Conference on Numerical Combustion ICNC2024 May 7-10, 2024, Kyoto, Japan |
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May 8 (Wed.)
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| Room A (TERRSA Hall) | |||||||||
Welcome remarks
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Invited Lecture 1
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Fundamentals and Applications of Ammonia Combustion for Carbon Neutrality Hideaki Kobayashi (Institute of Fluid Science, Tohoku University, Japan) |
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Invited Lecture 2
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Do the Thermodynamic Properties of New Fuels Challenge the Current State-of-the-art Modeling? Terese Løvås (Department of Energy and Process Engineering, Norwegian University of Science and Technology (NTNU), Norway) |
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Track04-1. Turbulent combustion (1)
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| ICNC2024-1220 |
Direct numerical simulation of a supersonic turbulent boundary layer with hydrogen combustion Chuhan Wang, Chun-Xiao Xu (Tsinghua University, China) |
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| ICNC2024-1523 |
DNS of hydrogen flame stabilization in multiple jets in cross flow Zisen Li, Martin Vabre, Bruno Savard (Ecole Polytechnique de Montreal, Canada) |
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| ICNC2024-1259 |
Direct numerical simulations of head-on quenching of statistically planar turbulent premixed flames on flat and rough walls Zhaofan Zhu, Haiou Wang, Kun Luo, Jianren Fan (Zhejiang University, China) |
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| ICNC2024-1297 |
Direct Numerical Simulation of turbulent premixed combustion in a model turbulent flow with mean shear at Reλ = 140 and single reactive scalar Zeldovich rate closure Aditya Vinod, Tejas Kulkarni, Fabrizio Bisetti (The University of Texas at Austin, United States) |
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| ICNC2024-1303 |
On the occurrence of negative propagation speeds and negative divergence in turbulent premixed flames Fabrizio Bisetti (The University of Texas at Austin, United States), Antonio Attili (University of Edinburgh, United Kingdom), Aditya Vinod, Tejas Kulkarni (The University of Texas at Austin, United States) |
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Track04-3. Turbulent combustion (3)
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| ICNC2024-1348 |
Study of turbulence back-scatter in a laboratory-scale swirl stabilized aero-combustor using DNS Bruno S. Soriano, Jacqueline Chen (Sandia National Laboratories, United States) |
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| ICNC2024-1568 |
A study of the relation among flame surface geometry, flow and heat on premixed turbulent flames using DNS Kazuya Tsuboi, Takao Matsuka (Okayama University, Japan) |
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| ICNC2024-1574 |
DNS of multi-stage ignition in a simplified gas turbine premixer Martin Vabre, Zisen Li (Polytechnique Montréal, Canada), Sandeep Jella (Siemens Energy Canada Limited, Canada), Philippe Versailles (Polytechnique Montréal, Canada), Gilles Bourque (Siemens Energy Canada Limited, Canada), Marc Day (National Renewable Energy Laboratory, United States), Bruno Savard (Polytechnique Montréal, Canada) |
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| ICNC2024-1390 |
Direct Numerical Simulation of Low-Emission Staged Ammonia Combustion Martin Rieth (Sandia National Laboratories, United States), Andrea Gruber (SINTEF Energy Research, Norway), Evatt R. Hawkes (University of New South Wales, Australia), Jacqueline H. Chen (Sandia National Laboratories, United States) |
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| ICNC2024-1508 |
A DNS study of ignition characteristics of NH3/H2/air mixtures under RCCI marine engine conditions with hydrogen injection strategy. Yijun Hou, Chun Sang Yoo (Ulsan National Institute of Science and Technology, Korea) |
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| Room B | |||||||||
Track04-2. Turbulent combustion (2)
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| ICNC2024-1436 |
Relationship between Radial Pressure Gradient and Flame Macrostructure in NH3/H2/Air Premixed Swirl Burners Clifford Goertemiller, William Northrop (University of Minnesota - Twin Cities, United States) |
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| ICNC2024-1446 |
Local Curvature and Speed of Turbulent Premixed Ammonia and Blends with Methane and Hydrogen Flames in a Spherically Expanding Configuration Seif Zitouni, Pierre Brequigny, Christine Mounaim-Rousselle (Université Orleans, France) |
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| ICNC2024-1399 |
Combustion characteristics of NH3/O2 pintle engines Jun Li, Rui Zhou (Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, China) |
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| ICNC2024-1403 |
INVESTIGATION OF AMMONIA (NH3) COMBUSTION WITH DIESEL PILOT IGNITION Zainal Abidin (Southwest Research Institute, United States) |
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| ICNC2024-1587 |
Large-eddy simulations of hydrogen-enriched natural gas flames in a trapped vortex combustor Aritra Roy Choudhury, Nikhil Verma, R. V. Ravikrishna, Konduri Aditya (Indian Institute of Science, India) |
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| ICNC2024-1068 |
Large Eddy Simulation of Flame Flashback Phenomenon in a Model Scramjet Combustor Utilizing a Strut-Cavity Flame Holder Singeetham Pranaykumar, Amardip Ghosh (Indian Institute of Technology Kharagpur, India) |
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Track10-1. Detonation, explosions (1)
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| ICNC2024-1023 |
Large Eddy Simulation of Rotating Detonation Rocket Engines at Three Operating Conditions Matthew Harvazinski, Mathias Ross (United States Air Force Research Laboratory, United States), Armani Batista (Jacobs Inc., United States) |
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| ICNC2024-1564 |
Numerical Analysis of Exhaust Jet Characteristics from Annular RDEs with Various Outlet Geometries Junichi Tahara, Akiko Matsuo, Eiji Shima (Keio university, Japan), Noboru Itouyama (Nagoya University, Japan), Akira Kawasaki (Shizuoka University, Japan), Ken Matsuoka, Jiro Kasahara (Nagoya University, Japan) |
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| ICNC2024-1136 |
The mechanism of a resonant amplification of pulsations behind a detonation wave propagating in a non-uniform mixture Alexander Lopato (Institute for Computer Aided Design of the Russian Academy of Sciences, Moscow Institute of Physics and Technology, Russian Federation), Pavel Utkin (Harbin Institute of Technology, China) |
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| ICNC2024-1187 |
Simulation of Pulsating and Cellular Detonation in Gases with Small Heat Release Mark Short, Stephen Voelkel, Carlos Chiquete (Los Alamos National Laboratory, United States) |
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| ICNC2024-1451 |
Numerical simulation of detonation initiation over obstacles using the AMReX library Shun Matsuzono, Edyta Dzieminska (Sophia University, Japan), Youhi Morii (Tohoku University, Japan) |
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Track10-2. Detonation, explosions (2)
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| ICNC2024-1051 |
A detailed numerical investigation of the detonation-bow shock interaction Ashwath Sethu Venkataraman, Elaine Oran (Texas A&M University, United States) |
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| ICNC2024-1425 |
Numerical simulation of detonation onset from H2-air flame-shock interaction Pascale Domingo, Emilie Yhuel (CNRS, France), Guillaume Ribert (INSA de Rouen, France), Nabiha Chaumeix, Anthony Roque (CNRS, France) |
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| ICNC2024-1525 |
The structure of triple shock reflections using the 10-moment method William Morin, Fabien Giroux, Matei I. Radulescu, James G. McDonald (University of Ottawa, Canada) |
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| ICNC2024-1541 |
A molecular view of shocks and triple points: implication on gas-phase detonations Amitesh S Jayaraman, Ethan S Genter, Hai Wang (Stanford University, United States) |
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| ICNC2024-1557 |
Shocks in n-dodecane/nitrogen mixtures: a molecular dynamics study Ethan Samuel Genter, Amitesh Sivaraman Jayaraman, Hai Wang (Stanford University, United States) |
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| Room C | |||||||||
Track07-1. Droplets and sprays (1)
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| ICNC2024-1081 |
Numerical study on preferential evaporation characteristics of ATJ-SPK/Jet A spray flames in laminar counter-flow Yanqi Zhang, Zhenhua An, Jiangkuan Xing, Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1313 |
Artificial Neural Network Aided Vapor-Liquid Equilibrium Model for Multi-Component High-Pressure Transcritical Flows with Phase Change Navneeth Srinivasan, Hongyuan Zhang, Suo Yang (University of Minnesota, Twin Cities, United States) |
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| ICNC2024-1358 |
Multi-component evaporation for spray combustion Giuseppe Indelicato, Ambrus Both, Daniel Mira (Barcelona Supercomputing Center, Spain) |
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| ICNC2024-1476 |
Numerical simulation of heat transfer and evaporation of a sessile droplet on a hot wall Kenya Kitada, Tianyi Wei, Abhishek Lakshman Pillai, Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1494 |
Mechanism of the trans-critical phase change process for binary methanol-heptane droplets Zhanyuan Wang, Lei Zhou (Tianjin University, China), Haiqiao Wei (Shenyang Aerospace University, China), Gequn Shu (University of Science and Technology of China, China), Lijia Zhong (Tianjin University, China) |
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Track07-2. Droplets and sprays (2)
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| ICNC2024-1062 |
Turbulent spray combustion modelling based on similarity mapping Lipo Wang (Shanghai Jiao Tong University, China) |
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| ICNC2024-1088 |
Large eddy simulation of a swirling spray flame using the two-phase spray flamelet model Yicun Wang (Zhejiang University, China), Changxiao Shao (Harbin Institute of Technology, China), Tai Jin (Zhejiang University, China), Jiangkuan Xing (Kyoto University, Japan), Kun Luo, Jianren Fan (Zhejiang University, China) |
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| ICNC2024-1434 |
Combustion of Suspended Droplets in Normal Gravity Conditions Edoardo Cipriano, Alberto Cuoci (Politecnico di Milano, Italy) |
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| ICNC2024-1603 |
Analysis of Evaporation Rate in Detonation Induced Break-Up of a Droplet Ral John Bielawski, Venkat Raman (University of Michigan, United States) |
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Track07-3. Droplets and sprays (3)
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| ICNC2024-1053 |
A Computational Simulation Method for Spray Flows with a Generalized Primary Atomization Module Jungeun Park, T.-W. Lee (Arizona State University, United States) |
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| ICNC2024-1363 |
Numerical comparison of single- and multi-hole marine-sized injectors Andrea Di Matteo (Eindhoven University of Technology, Netherlands) |
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| ICNC2024-1601 |
Numerical Modelling of Liquid Ammonia Injection Paolo Guida, William Lafayette Roberts (King Abdullah University of Science and Technology, Saudi Arabia) |
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| Room D | |||||||||
MS12-1. Spread of ammonia combustion research - Role of numerical simulation - (1)
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| ICNC2024-1575 |
Secondary Air Dilution of the Primary Combustion Zone of Two-Stage Rich-Lean Ammonia Combustors; A Numerical Study of the Effects on Emissions Control Ekenechukwu Chijioke Okafor (Kyushu University, Japan), Hirofumi Yamashita (Tohoku University, Japan), Osamu Kurata, Norihiko Iki, Takahiro Inoue, Hyun Jo, Masayasu Shimura, Taku Tsujimura (National Institute of Advanced Industrial Science and Technology, Japan), Akihiro Hayakawa (Tohoku University, Japan), Hideaki Kobayashi (National Institute of Advanced Industrial Science and Technology, Japan) |
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| ICNC2024-1411 |
Effect of Secondary Fuel Injection in Ammonia / Natural Gas Co-Fired Gas Turbine Combustor Shintaro Ito, Masahiro Uchida, Yusuke Komatsu, Toshiro Fujimori (IHI corporation, Japan) |
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| ICNC2024-1042 |
Multi-Scalar Flamelet Approach for Simulating Ammonia Co-firing Burners Kozo Aoki, Hiroyuki Takeishi, Keisuke Miura, Kenji Yamamoto (Mitsubishi Heavy Industries, Ltd., Japan) |
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| ICNC2024-1044 |
Numerical Investigation of Secondary Injection System in Developing Low-NO Ammonia Co-combustion Furnaces with Detailed Chemistry and Conjugate Heat Transfer Yinan Yang, Tsukasa Hori, Shinya Sawada, Fumiteru Akamatsu (Osaka University, Japan) |
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| ICNC2024-1459 |
Numerical simulation of high-temperature air / ammonia / methane mixing combustion for industrial furnaces Nozomu Hashimoto (Hokkaido University, Japan), Shinichiro Takemura, Takeshi Inoue (Rozai Kogyo Kaisha, Ltd., Japan), Yunan Sakai (Hokkaido University, Japan), Hisashi Nakamura (Tohoku University, Japan), Yusuke Konno, Osamu Fujita (Hokkaido University, Japan) |
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MS12-2. Spread of ammonia combustion research - Role of numerical simulation - (2)
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| ICNC2024-1413 |
Detailed Diffusion Effects on Thermal and Chemical Kinetics in a Turbulent NH3/H2 Non-premixed Flame Ahmed Abdelnasser Tawfik Adam, Reo Kai, Hiroaki Watanabe (Kyushu University, Japan) |
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| ICNC2024-1071 |
Modelling of turbulent premixed swirl flames for 70/30 vol% NH3/H2 fuel-air mixtures Joanna Jójka (Poznan University of Technology, Poland), Ali Alnasif, Syed Mashruk, Agustin Valera-Medina (Cardiff University, United Kingdom) |
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| ICNC2024-1516 |
INSIGHT INTO NH3 FORMATION CHARACTERISTICS AT RICH CONDITIONS IN 70/30 VOL% NH3/H2 FLAMES Ali Alnasif (Cardiff university, United Kingdom), Joanna Jójka (Poznań University of Technology, Poland), Syed Mashruk, Agustin Valera-Medina (Cardiff university, United Kingdom) |
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| ICNC2024-1195 |
Evaluation of a manifold model for lean ammonia/hydrogen/nitrogen-air laminar premixed flames Sydney Lauren Rzepka, Katie VanderKam, Hernando Maldonado Colman, Michael E Mueller (Princeton University, United States) |
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| ICNC2024-1157 |
Chemical effects of ammonia on soot suppression in laminar diffusion flames Junjun Guo, Qi Wang, Erica Quadarella, S. Mani Sarathy, Hong G. Im (King Abdullah University of Science and Technology, Saudi Arabia) |
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MS12-3. Spread of ammonia combustion research - Role of numerical simulation - (3)
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| ICNC2024-1203 |
Ammonia/coal co-firing on a complex CI-α burner with preheated combustion air streams using multi-stream FPV-LES approach Sujeet Yadav, Hiroaki Watanabe (Kyushu University , Japan) |
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| ICNC2024-1207 |
A kinetic mechanism for ammonia-doped hydrocarbon combustion: emerging nitrogen chemistry of C3 and larger species Qi Wang, Myriam Belmekki, Manuel Monge Palacios, Tairan Wang, Mani Sarathy (KAUST, Saudi Arabia) |
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| ICNC2024-1606 |
Investigation of temperature and species distributions in ammonia diffusion flames Xingchang Xu, Minhyeok Lee, Yuji Suzuki (The University of Tokyo, Japan) |
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| ICNC2024-1366 |
Numerical simulation of laminar flame propagation of ammonia/air premixture under microgravity conditions Masaya Muto (Meijo University, Japan), Xia Yu, Nozomu Hashimoto (Hokkaido University, Japan), Hisashi Nakamura (Tohoku University, Japan), Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1085 |
Chemical kinetic studies of ammonia and their application in numerical combustion simulations Hisashi Nakamura, Kenta Tamaoki, Yuki Murakami, Keisuke Kanayama, Kaito Hirose, Takumi Harada, Masahiko Izumi, Takuya Tezuka (Tohoku University, Japan) |
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| Room E | |||||||||
Track05-1. Combustion dynamics and instabilities (1)
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| ICNC2024-1083 |
Dynamics of hydrodynamically unstable premixed flames in a gravitational field Kaname Matsue (Kyushu University, Japan), Moshe Matalon (University of Illinois at Urbana-Champaign, United States) |
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| ICNC2024-1249 |
Analysis of intrinsic flame instabilities based on entropy generation mechanisms Daniya Zhumabayeva, Stewart Cant (University of Cambridge, United Kingdom) |
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| ICNC2024-1258 |
intrinsic instabilities of premixed NH3/H2/air spherical flames under various gravity conditions Jian Zheng, Haiou Wang, Kun Luo, Jianren Fan (ZheJiang University, China) |
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| ICNC2024-1484 |
A numerical study of premixed laminar ammonia/hydrogen/air flames: an analysis of intrinsic flame instabilities Ilya Morev, Parsa Tamadonfar, Shervin Karimkashi, Ossi Kaario, Ville Vuorinen (Aalto University, Finland) |
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| ICNC2024-1609 |
Numerical Analysis of Thermodiffusive Instabilities in Fuel-Flexible Methane-Hydrogen Industrial Burner Applications S. Nerzak, K. Niemietz, M. Vivenzo, L. Berger, T. Lehmann, M. Gauding, H. Pitsch (RWTH Aachen University, Germany) |
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Track05-2. Combustion dynamics and instabilities (2)
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| ICNC2024-1170 |
Numerical investigation in canonical flat V-shape propagative reactive fronts Zakaria Bazhar, Vincent Robin, Zakaria Bouali (ISAE-ENSMA / Institut Pprime, France) |
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| ICNC2024-1256 |
Characteristics of transverse flame describing functions of slot and Bunsen flames at large amplitudes Juhoon Son, Dong-Hyuk Shin (Korea Advanced Institute of Science and Technology, Korea) |
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| ICNC2024-1543 |
Effect of central recirculation zone on the instability growth in a V-shaped swirling flame Qiuxiao Wang, Xi Xia, Fei Qi (Shanghai Jiao Tong University, China) |
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| ICNC2024-1552 |
Vorticity transport of the precessing vortex core in a premixed swirling flame Qiuxiao Wang, Xi Xia, Fei Qi (Shanghai Jiao Tong University, China) |
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Track05-3. Combustion dynamics and instabilities (3)
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| ICNC2024-1287 |
The dynamics of a cellular flame deformation from the head on interaction with an expansion wave Hongxia Yang (University of Ottawa, Canada, Canada), Kevin Cheevers (University of Ottawa, Canada), Andrzej Pekalski (Shell Global Solutions, United Kingdom), Matei Ioan Radulescu (University of Ottawa, Canada) |
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| ICNC2024-1424 |
Influence of numerical damping on the prediction of high-frequency thermoacoustics and mitigation strategies for LES Jonas Eigemann (University of Duisburg-Essen, Germany), Christian Beck (Siemens Energy AG, Germany), Andreas M. Kempf (University of Duisburg-Essen, Germany) |
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| ICNC2024-1343 |
Combustion Characteristic Analysis of the Dual Combustion Ramjet Engine Min-Seon Jo, Bu-Kyeng Sung, Seung-Min Jeong, Jeong-Yeol Choi (Pusan National University, Korea) |
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| ICNC2024-1334 |
Flamelet modeling of curvature effects on NOx formation in thermodiffusively unstable premixed hydrogen flames at elevated-pressure conditions Xu Wen (University of Science and Technology of China, China), Lukas Berger (RWTH Aachen University, Germany), Alessandro Parente (Universite Libre de Bruxelles, Belgium), Heinz Pitsch (RWTH Aachen University, Germany) |
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| Room F | |||||||||
Track15-1. Numerical methods for reacting flows (1)
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| ICNC2024-1058 |
Quantum computing of reacting flows via Hamiltonian simulation Zhen Lu, Yue Yang (Peking University, China) |
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| ICNC2024-1099 |
Effect of the two-phase flow on the throat erosion feature of the C/C composite nozzle Zheng Yang, Junwei Li, Wenhao Zhang, Xiang Li, Ningfei Wang (Beijing Institute of Technology, China), Jinbo Cheng (BeiHang University, China) |
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| ICNC2024-1350 |
Simulation methodology for cryogenic liquid hydrogen leakage, dispersion prediction and risk assessment Leons Antony Lawrence, Sourabh Shrivastava, Vivek Kumar, Pravin Nakod (Ansys Software Private Ltd, India) |
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| ICNC2024-1477 |
A large scale H2-CH4 industrial furnace Lattice-Boltzmann study taking into account Radiation Heat Transfer Jose Luis Andres, Song Zhao (Laboratoire de Mécanique, Modélisation & Procédés Propres, France), Jean Louis Consalvi (Laboratoire IUSTI, France), Diego Calanni, Patrick Muscat, Fouad Said (Fives Pillard, France), Pierre Boivin (Laboratoire de Mécanique, Modélisation & Procédés Propres, France) |
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Track15-2. Numerical methods for reacting flows (2)
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| ICNC2024-1067 |
Effect of Two-Strut Parallel-Fuel Injection Scheme on Mode Transition in Scramjet Combustor Rajesh Kumar, Amardip Ghosh (iit Kharagpur, India), Suryansh Tiwari (Department of Aerospace Engineering, Thapar University, Patiala -147004, India., India) |
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| ICNC2024-1326 |
Mesoscale modeling on the melt layer of metalized propellants with surface stress evolution Hong-Suk Choi, Jack Yoh (Seoul National University, Korea) |
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| ICNC2024-1602 |
Simulations of hydrogen-air detonations using DSMC Shrey Trivedi, Jorge Salinas (Sandia National Laboratories, Livermore, United States), John Harvey (University of Cambridge, United Kingdom), Alexei Poludnenko (University of Connecticut, United States), Jacqueline H. Chen (Sandia National Laboratories, Livermore, United States) |
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| ICNC2024-1610 |
Fast geometric integration for chemistry Lorenzo Angelilli, Venkat Raman (University of Michigan, United States) |
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Track15-3. Numerical methods for reacting flows (3)
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| ICNC2024-1123 |
Comparative study to asses combustion models for pure hydrogen bluff body stabilized flame Shruti Chavan (Cummins College of Engineering For Women, India), Sourabh Shrivastava, Pravin Nakod (Ansys, India) |
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| ICNC2024-1404 |
Scale similarity models for filtered reaction rates Thommie Nilsson (Lund University, Sweden) |
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| ICNC2024-1442 |
A reduced order numerical model for high-pressure hydrogen leak self-ignition. Marc Le Boursicaud, Song Zhao (M2P2 (Aix Marseille Université, CNRS, Centrale Marseille), France), Jean-Louis Consalvi (IUSTI (Aix Marseille Université, CNRS), France), Pierre Boivin (M2P2 (Aix Marseille Université, CNRS, Centrale Marseille), France) |
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| ICNC2024-1527 |
A MODAL DECOMPOSITION-BASED PARTIALLY STIRRED REACTOR MODEL FOR TURBULENT COMBUSTION CLOSURE: AN A POSTERIORY STUDY Arthur Péquin (Université Libre de Bruxelles, Belgium), Erica Quadarella (King Abdullah University of Science and Technology (KAUST), Saudi Arabia), Riccardo Malpica Galassi (Sapienza University, Rome, Italy), Salvatore Iavarone (Université Libre de Bruxelles, Belgium), Hong G. Im (King Abdullah University of Science and Technology (KAUST), Saudi Arabia), Alessandro Parente (Université Libre de Bruxelles, Belgium) |
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| Room G | |||||||||
MS14-1. Numerical modeling and simulation of reactive dense particle-laden flows (1)
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| ICNC2024-1488 |
A new DEM-CFD solver for reactive dense gas-solid flows based on a characteristic splitting Takuya Tsuji, Yuki Yakata (Osaka University, Japan), Dorian Faroux (DENSE Ltd., Japan), Kimiaki Washino (Osaka University, Japan), Masaya Muto (Meijo University, Japan), Hiroaki Watanabe (Kyushu University, Japan), Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1407 |
Multi-scale simulation of solid fuel conversion in dense particulate reactive systems Shuai Wang, Jiahui Yu, Junjie Lin, Kun Luo, Jianren Fan (Zhejiang University, China) |
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| ICNC2024-1468 |
Particle-resolved lattice Boltzmann simulations for sedimentation of reactive particles involving coke deposition Yiqi Song, Xue Li, Mao Ye (Chinese Academy of Sciences, China) |
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| ICNC2024-1433 |
Coarse grained CFD-DEM simulations of iron-iron oxide conversion in fluidized beds Yali Tang, Niels Gerbrand Deen (Eindhoven University of Technology, Netherlands) |
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| ICNC2024-1423 |
Numerical modelling the reaction propagation in Al based thermites Emilian Tichtchenko, Alain Esteve, Benoit Bedat, Olivier Simonin, Carole Rossi (CNRS, France) |
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MS14-2. Numerical modeling and simulation of reactive dense particle-laden flows (2)
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| ICNC2024-1148 |
DEM-CFD modeling of limestones with actual diameter distribution flowing down in a combustion field in a rotary kiln Susumu Tsuchiya (Yabashi Industries CO.,LTD., Japan), Masaya Muto (Department of Environmental Technology,Meijo University , Japan), Fumiteru Akamatsu (Department of Mechanical Engineering, Osaka University , Japan), Ryoichi Kurose (Department of Mechanical Engineering and Science, Kyoto University , Japan), Yuta Umeno, Takayuki Nishiie (Numerical Flow Designing CO.,LTD, Japan) |
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| ICNC2024-1028 |
Consistent treatment of added mass, and mass and heat exchange in dense reactive gas-particle flow simulations Rodney O Fox (Iowa State University, United States), Jacob Posey, Ryan W Houim (University of Florida, United States) |
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| ICNC2024-1036 |
Multi-scale insights of chemical looping combustion in a three-dimensional bubbling fluidized bed Junjie Lin, Kun Luo, Jianren Fan (Zhejiang University, China) |
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| ICNC2024-1506 |
Full-loop reactive simulation of catalytic cracking CFB system with mechanical valves Bona Lu, Yuting Wu, Wei Wang (Institute of Process Engineering, Chinese Academy of Sciences, China) |
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| ICNC2024-1440 |
Modelling of gas-solid reacting flows and industry applications Yansong Shen (University of New South Wales, Australia) |
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MS14-3. Numerical modeling and simulation of reactive dense particle-laden flows (3)
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| ICNC2024-1589 |
A high-order quadrature method of moments implementation for dense polydisperse granular reactive flows Jacob Posey (University of Florida, United States), Rodney Fox (University of Iowa, United States), Ryan Houim (University of Florida, United States) |
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| ICNC2024-1017 |
GPU-accelerated CFD-DEM modeling of dense gas-solid reacting flow Jiahui Yu, Shuai Wang, Kun Luo, Jianren Fan (Zhejiang university, China) |
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| ICNC2024-1472 |
A hybrid inversion model using measurement data for optimized CFD simulations of fluidized beds Xue Li, Mao Ye (Dalian institute of Chemical Physics, Chinese Academy of Sciences, China) |
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| ICNC2024-1227 |
Numerical study on unsteady combustion in Stoker furnace. Takashi Ikeda, Kenji Yamamoto, Toshihiko Setoguchi, Junji Imada (Mitsubishi Heavy Industries, Ltd., Japan) |
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| Room H | |||||||||
Track17-1. High-performance computing for combustion applications (1)
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| ICNC2024-1306 |
Simulation of low-temperature plasma ignition of ethylene/air mixtures at scramjet cavity conditions with high-fidelity models for non-equilibrium plasma discharge, acoustic and vibrational relaxation, hydrodynamic mixing, and mixture ignition Alfredo Jose Duarte Gomez (University of Texas at Austin, United States), Nicholas Deak, Lucas Esclapez, Marcus Day (National Renewable Energy Laboratory, United States), Fabrizio Bisetti (University of Texas at Austin, United States) |
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| ICNC2024-1314 |
The Effect of Combustion-Induced Instabilities on Shock-trains in a Scramjet Isolator Jagmohan Singh, Shivank Sharma, Venkat Raman (University of Michigan, United States) |
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| ICNC2024-1384 |
GPU-based DNS enables dissection of cracking, turbulent mixing, and oxidation processes in NH3/H2 jet flames Driss Kaddar, Hendrik Nicolai (TU Darmstadt, Germany), Christos Emmanouil Frouzakis (ETH Zurich, Greece), Mathis Bode (Jülich Supercomputing Centre, Germany), Christian Hasse (TU Darmstadt, Germany) |
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| ICNC2024-1511 |
Fuel-specific code generation for thermochemistry and transport properties for CPU- and GPU-based solvers Bogdan Andrei Danciu (Swiss Federal Institute of Technology Zürich, Switzerland), Stefan Kerkemeier (Micodat Computer GmbH, Germany), Christos Emmanouil Frouzakis (Swiss Federal Institute of Technology Zürich, Switzerland) |
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Track17-2. High-performance computing for combustion applications (2)
|
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| ICNC2024-1232 |
Multistep high-order time adaptive coupling of black-box solvers for multiphysics simulations Laurent Francois (ONERA, France), Marc Massot (CMAP - École Polytechnique, France) |
||||||||
| ICNC2024-1240 |
AATE: Advanced Analysis Tool for Engines Heikki Kahila, Bulut Tekgul, Karri Keskinen, Mahmoud Gadalla, Èric Lendormy (Wärtsilä Finland, Finland), Henry Weller ( CFD Direct Limited, United Kingdom) |
||||||||
| ICNC2024-1315 |
Shared Memory based Hybrid In-Situ Adaptive Tabulation of Vapor-Liquid Equilibrium Solutions and Detailed Chemistry Hongyuan Zhang, Navneeth Srinivasan, Suo Yang (University of Minnesota, Twin Cities, United States) |
||||||||
| ICNC2024-1545 |
Development of high-order solver for ML-accelerated reacting flow simulations Kai Wen Beverley Yeo, Matthias Ihme (Stanford University, United States) |
||||||||
| ICNC2024-1571 |
Population-based optimization of complex reacting flows: Pilot study Kazuki Maeda (Purdue University, United States) |
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Track14-1. New combustion technologies (1)
|
|||||||||
| ICNC2024-1146 |
Performance Characteristics of a Tangential Flow Burner for Ammonia Combustion Srinuvasarao Muddada, Reddy Mahendra Vanteru (Indian Institute of Technology Kharagpur, India) |
||||||||
| ICNC2024-1158 |
A numerical study of ammonia cracking in bluff-body stabilized non-premixed flames Suliman Abdelwahid, Mohammad Rafi Malik, Erica Quadarella, Francisco E. Hern'andez-P'erez, Adamu Alfazazi, Bassam Dally, Hong G. Im (King Abdullah University of Science and Technology, Saudi Arabia) |
||||||||
| ICNC2024-1393 |
Low-order modeling of ammonia combustion in porous media burners Thorsten Zirwes (University of Stuttgart, Germany), Guillaume Vignat, Emeric Boigné, Matthias Ihme (Stanford University, United States) |
||||||||
| ICNC2024-1452 |
New concept for aerodynamic stabilization of lifted hydrogen diffusion flames. Jakub Tumidajski, Adam Klimanek (Silesian University of Technology, Poland) |
||||||||
| ICNC2024-1456 |
Combustion and emission characteristics of a premixed NH3/O2 jet flame in hot coflow of N2 versus H2O Xiangtao Liu (Peking University, China), Guochang Wang (Taiyuan University of Technology, China), Jianchun Mi (Peking University, China) |
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| Room I | |||||||||
MS06-1. Detonations in Liquid-Fuel Sprays: Recent Progress and Open Questions (1)
|
|||||||||
| ICNC2024-1594 |
Numerical Modeling of Gaseous and Spray Detonations in Hydrocarbon Fuels using Complex Chemistry Alexei Poludnenko, Sai Sandeep Dammati, Abeetath Ghosh (University of Connecticut, United States) |
||||||||
| ICNC2024-1549 |
A molecular view of shocks and shock-droplet interactions Hai Wang, Amitesh Sivaraman Jayaraman, Ethan Samuel Genter, Nikolaos Kateris (Stanford University, United States) |
||||||||
| ICNC2024-1444 |
Detonation propagation in droplet-laden flows Venkat Raman, Ral Bielawski (University of Michigan, United States) |
||||||||
| ICNC2024-1311 |
Numerical Study on the Effect of Droplet Spatial Distribution on Liquid-Fueled Detonation Manoj Paudel, Jacob McFarland (Texas A & M University, United States) |
||||||||
| ICNC2024-1604 |
Wedge-stabilized oblique detonation in n-dodecane droplet and air mixtures Huangwei Zhang ( national university of Singapore, Singapore) |
||||||||
MS06-2. Detonations in Liquid-Fuel Sprays: Recent Progress and Open Questions (2)
|
|||||||||
| ICNC2024-1445 |
Molecular hotspots and shock enhanced transport in detonation waves Matei Radulescu, Ramki Murugesan (University of Ottawa, Canada) |
||||||||
| ICNC2024-1126 |
Pathological propagation regimes in liquid-fuel detonations Raúl Hernández-Sánchez, César Huete (Universidad Carlos III de Madrid, Spain), Daniel Martínez-Ruiz (Universidad Politécnica de Madrid, Spain) |
||||||||
| ICNC2024-1583 |
The Influence of non-premixed heat combustion on spray detonations Ryan Houim (University of Florida, United States) |
||||||||
| ICNC2024-1216 |
Nonthermal termolecular reaction effects on planar and oblique detonations Jacqueline H Chen (Sandia National Laboratories, United States), Akanksha Baranwal (Sandia National Laboratoies, United States), Jorge Salinas (Sandia National Laboratories, United States), Swapnil Desai (ALIR Corporation, United States), Yujie Tao (Southeast University (China), China), Ragu Sivaramakrishnan (Argonne National Laboratory, United States) |
||||||||
| ICNC2024-1131 |
Numerical modeling of chemical combustion induced by blast waves interactions Fumiya Togashi, Joseph D Baum (Applied Simulations Inc., United States), Rainald Lohner (George Mason University, United States), Orlando A Soto (Applied Simulations Inc, United States), Mariana Cruz (Defense Threat Reduction Agency, United States) |
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MS06-3. Detonations in Liquid-Fuel Sprays: Recent Progress and Open Questions (3)
|
|||||||||
| ICNC2024-1353 |
Modeling of High-Pressure Transcritical Phase Change at Liquid-Fueled Detonation Conditions Navneeth Srinivasan, Suo Yang (University of Minnesota, Twin Cities, United States) |
||||||||
| ICNC2024-1396 |
Vibrational Nonequilibrium Effects in Hydrogen Detonations Stephen Voelkel, Mark Short, Carlos Chiquete ( Los Alamos National Laboratory, United States) |
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| Room J | |||||||||
MS08. Advances in Detailed Numerical Simulation of Reciprocating Engines
|
|||||||||
| ICNC2024-1078 |
Research and Development of a Combustion Flow Analysis Program for Reciprocating Engines Using the Cartesian Grid and an Immersed Boundary Method. Taisuke Nambu (Japan Aerospace Exploration Agency, Japan), Hiroki Yao (Ryoyu systems, Japan), Takuhito Kuwabara, Ryohei Kirihara (FMIC R&D, Japan), Yasuhiro Mizobuchi (Japan Aerospace Exploration Agency, Japan) |
||||||||
| ICNC2024-1333 |
Conceptual Study of High Efficiency Reciprocating Engine with Pre-chamber Combustion Takayuki Ito, Masahiro Matsuoka (Japan Automobile Research Institute, Japan), Toru Takabayashi (Honda Motor Co., Ltd., Japan) |
||||||||
| ICNC2024-1430 |
Approach to Carbon Neutral Fuel Engine Combustion Analysis Using Ansys Forte and Model Fuel Library Junya Fukuyama (Ansys Japan, Japan) |
||||||||
| ICNC2024-1475 |
Numerical Analysis of Soot Contamination Process in Diesel Engine Combustion Tsukasa Hori (Osaka University, Japan), Shohei Ueno, Shinya Sawada (Osaka Univeristy, Japan), Fumiteru Akamatsu (Osaka University, Japan) |
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MS15. Combustion simulation acceleration using GPU and manycore heterogenous computing hardwares
|
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| ICNC2024-1322 |
GPU-accelerated CSP solver for high-fidelity simulations of reactive flows Alessandro Carinci, Francisco E. Hernández-Pérez (King Abdullah Univerisity of Science and Technology, Saudi Arabia), Riccardo Malpica Galassi (Sapienza Univerity of Rome, Italy), Mauro Valorani (Sapienza University of Rome, Italy), Hong G. Im (King Abdullah University of Science and Technology, Saudi Arabia) |
||||||||
| ICNC2024-1503 |
nekCRF: An exascale-ready finite-rate-chemistry solver designed for GPU-accelerated supercomputers Mathis Bode (Forschungszentrum Jülich GmbH, Germany), Ananias Tomboulides (Aristotele University Thessaloniki, Greece), Christos Frouzakis (ETH Zuerich, Switzerland) |
||||||||
| ICNC2024-1225 |
An integrated framework for accelerating reactive flow simulation using GPU and machine learning models Runze Mao (Peking University, China), Yingrui Wang (Shanghai SenseTime Intelligent Technology Co., LTD, China), Min Zhang, Han Li, Zhi X. Chen (Peking University, China) |
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| ICNC2024-1405 |
A combustion simulation program library accelerated by GPU Guanlin Dang (Peking University , China), Yuqing Cai (Tianjin University, China), Zhi Chen (Peking University , China) |
||||||||
| ICNC2024-1204 |
Deep learning-enabled exascale flame simulation with detailed chemical kinetics accuracy on New Sunway Supercomputer Zhuoqiang Guo (Institute of Computing Technology, Chinese Academy of Sciences, China), Zhi X. Chen (Peking University, China), Weile Jia (Institute of Computing Technology, Chinese Academy of Sciences, China) |
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MS01. Reaction Kinetics of Carbon-Neutral Fuels
|
|||||||||
| ICNC2024-1056 |
Combustion Properties of Alcohol Fuels Akira Miyoshi (Hiroshima University, Japan) |
||||||||
| ICNC2024-1013 |
Development of High-Performance Formula 1 Fuel Component and its Carbon-Neutralization Kohtarro Hashimoto (Honda R & D Co. Ltd., Japan) |
||||||||
| ICNC2024-1408 |
A Chemical Kinetic Study on the Autoignition Mechanism of Ammonia/hydrocarbon mixtures Yasuyuki Sakai (Ibaraki University, Japan), Takahiro Sako (Osaka Gas Co.,Ltd., Japan), Sekai Miyamoto, Takahiro Yamaguchi (Kawasaki Heavy Industries, Ltd, Japan), Hisashi Nakamura (Tohoku University, Japan) |
||||||||
| ICNC2024-1539 |
Laminar burning velocity of ethanol/air premixed flame under lean conditions Yuki Ito, Kento Masui, Taku Mizutani, Hidefumi Kataoka, Daisuke Segawa (Osaka Metropolitan University, Japan) |
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| Room K | |||||||||
Track18-1. Simulations with AI technologies (1)
|
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| ICNC2024-1563 |
Machine Learning Tabulation of Thermochemistry of Polycyclic Aromatic Hydrocarbon (PAHs) and Application to Turbulent Sooting Flames: An approach Combining DRGEP and HFRD-MMLP. Anxiong Liu (Zhejiang University, China) |
||||||||
| ICNC2024-1318 |
Mitigating chemical stiffness in turbulent reacting flow simulations via an adaptive reduced-order model with time-dependent bases Ki Sung Jung (Sandia National Laboratories, United States), Hessam Babaee (University of Pittsburgh, United States), Jacqueline H Chen, Cristian E Lacey (Sandia National Laboratories, United States) |
||||||||
| ICNC2024-1617 |
Canceled |
||||||||
| ICNC2024-1597 |
React-DeepONet: A Combustion Chemistry Acceleration Framework for CFD Anuj Kumar, Tarek Echekki (North Carolina State University, United States) |
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Track18-2. Simulations with AI technologies (2)
|
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| ICNC2024-1117 |
Surrogate modeling of the methane diffusion combustion field using the pseudo-time stepping-based physics-informed neural networks Zhen Cao, Kun Luo, Kai Liu, Yuzhou Cheng, Liang Jiang, Zhentao Pang, Jianren Fan (zhejiang university, China) |
||||||||
| ICNC2024-1130 |
Prediction of laminar burning velocity for premixed ternary ammonia/hydrogen/methane-air flames using ensemble learning Cihat Emre Ustun (Queen Mary University of London, United Kingdom), Sven Eckart (Technische Universität Bergakademie Freiberg, Germany), Agustin Valera-Medina (Cardiff University, United Kingdom), Amin Paykani (Queen Mary University of London, United Kingdom) |
||||||||
| ICNC2024-1215 |
Three-dimensional Convolutional Neural Networks for Enhanced Turbulence Modeling in Large-eddy Simulations of Partially Premixed Swirl Flames Zhentao Pang (State Key Laboratory of Clean Energy Utilization, Zhejiang University, China), Kai Liu (Shanghai Institute for Advanced Study of Zhejiang University, China), Kun Luo, Jianren Fan, Zhen Cao, Liang Jiang (State Key Laboratory of Clean Energy Utilization, Zhejiang University, China), Yuzhou Cheng, Anxiong Liu (Shanghai Institute for Advanced Study of Zhejiang University, China) |
||||||||
| ICNC2024-1388 |
Deep learning for sub-filter density function prediction in turbulent combustion Hanying Yang, Nedunchezhian Swaminathan (University of Cambridge, United Kingdom) |
||||||||
| ICNC2024-1251 |
Simulation of supercritical CH4/O2 flame with hybrid data-physics based machine learning method Yuqing Cai (Tianjin University, China), Ruixin Yang (Peking University, China), Hu Wang (Tianjin University, China), Jiayang Xu (AI for Science Institute, Beijing, China), ZhI.x Chen (Peking University, China) |
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Track02-1. Kinetics, mechanism reduction (1)
|
|||||||||
| ICNC2024-1551 |
Deep mechanism reduction (DeePMR) method for fuel chemical kinetics Tianhan Zhang (Southern University of Science and Technology, China) |
||||||||
| ICNC2024-1188 |
An open-source toolbox for chemical kinetic mechanism’s optimization Adnan Tolga Kurumus, Atmadeep Bhattacharya, Parsa Tamadonfar, Ossi Kaario (Aalto University, Finland) |
||||||||
| ICNC2024-1372 |
Combined chemical reaction network and time scale analyses for reduced models of combustion of complex fuels Viatcheslav Bykov (Karlsruher Institut für Technologie, Germany), Vladimir Goldshtein (Ben-Gurion University of the Negev, Israel) |
||||||||
| ICNC2024-1027 |
Minimizing Reduced Mechanism Costs via Bounded Reaction Rate Optimization and Targeted Reaction State Sampling for Engineering Applications Adam L. Comer (Innovative Scientific Solutions, Inc., United States), Joshua P. Sykes, Brent A. Rankin (Air Force Research Laboratory, United States) |
||||||||
| ICNC2024-1359 |
NH3/DME oxidation at different pressures Adrián Ruiz-Gutierrez, Paloma Rebollo, Pedro García-Ruiz, María U. Alzueta (University of Zaragoza, Spain) |
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| Room L | |||||||||
Track09-1. Heterogeneous combustion (1)
|
|||||||||
| ICNC2024-1260 |
A PBE-CFD approach for investigating the asymmetric envelope flame around a burning aluminum particle Jannis Finke, Fabian Sewerin (Otto von Guericke University Magdeburg, Germany) |
||||||||
| ICNC2024-1349 |
On the limiting mechanism of single iron particle combustion Leon Thijs, Xiaocheng Mi, Jeroen Van Oijen, Philip De Goey (Eindhoven University of Technology, Netherlands) |
||||||||
| ICNC2024-1526 |
Modeling single aluminum particle combustion in various oxidizers Hongchao Chu, Shibam Bose (Institute for Combustion Technology, RWTH Aachen University, Germany), Mahsa Salehi Mobarakeh (Department of Mechanical and Aerospace Engineering, Carleton University, Canada), Pooria Farmand (Institute for Combustion Technology, RWTH Aachen University, Germany), Reza Kholghy (Department of Mechanical and Aerospace Engineering, Carleton University, Canada), Heinz Pitsch (Institute for Combustion Technology, RWTH Aachen University, Germany) |
||||||||
| ICNC2024-1481 |
Carrier-Phase DNS of Metal Particle Combustion in a Turbulent Shear Layer Mohammad Parsa Ghofrani Maab (Duisburg-Essen University, Germany), Tien Duc Luu (Karlsruhe Institute of Technology, Germany), Oliver Stein (Karlsruhe Institute of Technology,, Germany), Andreas Kempf (Duisburg-Essen University, Germany) |
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Track09-2. Heterogeneous combustion (2)
|
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| ICNC2024-1166 |
NOx emissions of iron aerosol flames Thijs Hazenberg, Catharina E.A.G. Van Gool, Jeroen A. Van Oijen, Laurentius P.H. De Goey (Eindhoven University of Technology, Netherlands) |
||||||||
| ICNC2024-1167 |
Flame characteristics of iron dust counter-flow flames Catharina E.A.G. Van Gool, Thijs Hazenberg, Jeroen A. Van Oijen, Laurentius P.H. De Goey (Eindhoven University of Technology, Netherlands) |
||||||||
| ICNC2024-1282 |
Flame structure and burning velocity of hybrid methane-iron air flames Aravind Ravi (Eindhoven University of technology, Netherlands), Thijs Hazenberg, Mark Hulsbos, Giel Ramaekers, Roy Hermanns, Philip De Goey, Jeroen Van Oijen (TUe, Netherlands) |
||||||||
| ICNC2024-1360 |
Reductive Activation of Commercial Iron Ore Materials using H2 and NH3 for Ammonia Synthesis and Decomposition Shihyuan Chen (National Institute of Advanced Industrial Science and Technology, Japan), Li-Yu Wang (National Tsing Hua University , Taiwan), Takahisa Mochizuki (Energy Catalyst Technology Group, Research Institute of Energy Frontier (RIEF), National Institute of Advanced Industrial Scien, Taiwan), Chia-Min Yang (Department of Chemistry, National Tsing Hua University , Taiwan) |
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Track06-1. Emissions and pollution (1)
|
|||||||||
| ICNC2024-1189 |
Manifold modeling for reactive nitrogen emissions in ammonia-hydrogen-nitrogen turbulent nonpremixed flames Hernando Maldonado Colmán, Michael E. Mueller (Princeton University, United States) |
||||||||
| ICNC2024-1296 |
Numerical investigation and modeling of NOx emissions during ignition and combustion of pulverized biomass fuels Pooria Farmand (Institute for Combustion Technology, RWTH Aachen, Germany), Christian Boehme (RWTH Aachen University, Germany), Hendrik Nicolai (TU Darmstadt, Germany), Francesca Loffredo (RWTH Aachen University, Germany), Paulo Eduardo Amaral Debiagi (University of Nottingham, Canada), Michael Gauding (RWTH Aachen University, Germany), Christian Hasse (TU Darmstadt, Germany), Heinz Pitsch (RWTH Aachen University, Germany) |
||||||||
| ICNC2024-1305 |
Numerical simulation of hydrogen-air-steam flames with NOx production Quentin Cerutti, Guillaume Ribert, Pascale Domingo (COMPLEXE DE RECHERCHE INTERPROFESSIONNEL EN AÉROTHERMOCHIMIE, France) |
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| ICNC2024-1370 |
A direct numerical simulation study of wet combustion effects on NOx/N2O formation pathways in laminar and turbulent premixed ammonia/hydrogen/air flames Shervin Karimkashi, Parsa Tamadonfar (Aalto University, Finland), Alessandro Stagni (Politecnico di Milano, Italy), Ossi Kaario, Ville Vuorinen (Aalto University, Finland) |
||||||||
| ICNC2024-1473 |
Development and performance analysis of a novel, energy-efficient PNG porous burner for cooking applications. Udaybhanu Gadi, Reddy Mahendra Vanteru (Indian Institute of Technology Kharagpur, India) |
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| Room M | |||||||||
Track01-1. Laminar flames (1)
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| ICNC2024-1008 |
Stabilization of flames in narrow channels by a highly conductive wall segment: effect of the Lewis number and application to hydrogen-air flames Carmen Jimenez, Vadim Kurdyumov (CIEMAT, Spain) |
||||||||
| ICNC2024-1084 |
Flame stabilization by a highly conductive cylinder: multiple steady-state solutions and dynamics Vadim N. Kurdyumov, Anne Dejoan, Carmen Jiménez (CIEMAT, Spain) |
||||||||
| ICNC2024-1020 |
Effect of the exhaust gases boundary condition on the stability and propagation regimes of a premixed flame in a slender chamber. David Rodríguez-Gutiérrez, Raquel Gómez-Miguel (Instituto Nacional de Técnica Aeroespacial, Spain), Eduardo Fernández-Tarrazo, Mario Sánchez-Sanz (Universidad Carlos III de Madrid, Spain) |
||||||||
| ICNC2024-1070 |
Darrieus-Landau instability in a shear flow Prabakaran Rajamanickam, Joel Daou (University of Manchester, United Kingdom) |
||||||||
| ICNC2024-1178 |
Diffusive-thermal instabilities of premixed flames in channel flows: 3D stability investigation and flow-induced anisotropic diffusion effects Joel Daou, Prabakaran Rajamanickam, Aiden Kelly, Julien Landel (University of Manchester, United Kingdom) |
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Track11-1. Gas turbines, engines and furnaces (1)
|
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| ICNC2024-1202 |
Numerical investigation of effects of ammonia energy fraction and equivalence ratio on emission characteristics of ammonia/diesel dual fuel engine Azusa Fuse, Yusuke Imamori, Tomohiro Takahashi, Hiroyuki Ueda (Mitsubishi Heavy Industries, Ltd., Japan), Takafumi Tanaka, Ryosuke Kogure (Mitsubishi Heavy Industries Engine & Turbocharger, Ltd., Japan), Satoshi Yamada (Mitsubishi Heavy Industries, Ltd., Japan) |
||||||||
| ICNC2024-1540 |
Exploring the Physical Significance of Robust Wiebe Function Parameters Through the Application of Artificial Neural Networks to Enhance the Analysis of Combustion in Internal Combustion Engines. Kartikkumar Thakkar, Sheshadri Sreedhara (Indian Institute of Technology Bombay, India) |
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| ICNC2024-1242 |
Low Carbon Industry: Electrification of industrial processes involving high temperatures Jetnis Jetnis Avdijaj (Université libre de Bruxelles, Belgium), Marcello Bentivegni (Aperam Stainless France, France) |
||||||||
| ICNC2024-1590 |
Identification of recirculation zones from experimental images of trapped vortex combustors using deep learning Tanaya Mallik, Priyabrat Dash, Nikhil Verma, R. V. Ravikrishna, Konduri Aditya (Indian Institute of Science, Bengaluru, India) |
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Track11-2. Gas turbines, engines and furnaces (2)
|
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| ICNC2024-1184 |
Impact of excess air factors as a combustion parameter on NOx emissions in a 207 MW model industrial furnace. Mansur Aliyu (King Fahd University of Petroleum & Minerals, Saudi Arabia) |
||||||||
| ICNC2024-1221 |
Elucidation of heat transfer characteristics and NOx reduction phenomenon of elliptical radiant tube Tomoyuki Kawashima, Akihiro Kobayashi (JFE Steel Corporation, Japan), Hiroaki Watanabe (Kyusyu University, Japan) |
||||||||
| ICNC2024-1201 |
Development of a DEM-CFD coupling simulation for the stoker type waste incinerator Ryusei Hayatomo, Tomohiro Denda, Takashi Nakayama, Takahiro Matsumoto (JFE Engineering Corporation, Japan) |
||||||||
| ICNC2024-1147 |
Numerical Investigation of CH4/O2/CO2 premixed flames stabilized over a dual annular counter-rotating swirl burner Mohammed El Adawy, Medhat A. Nemitallaha ( King Fahd University of Petroleum and Minerals, Saudi Arabia) |
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|
May 9 (Thu.)
|
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| Room A (TERRSA Hall) | |||||||||
Invited Lecture 3
|
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|
Machine-learning for Combustion: Opportunities and Challenges Matthias Ihme (Department of Mechanical Engineering, Stanford University, USA) |
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Track04-4. Turbulent combustion (4)
|
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| ICNC2024-1059 |
Physics-constrained neural-network sub-grid-scale model for a flame in isotropic turbulence Seung Won Suh (University of Illinois Urbana-Champaign, United States), Jonathan MacArt (University of Notre Dame, United States), Luke Olson, Jonathan Freund (University of Illinois Urbana-Champaign, United States) |
||||||||
| ICNC2024-1061 |
Filtered turbulent flame model: numerical principle and performance Lipo Wang (Shanghai Jiao Tong University, China) |
||||||||
| ICNC2024-1279 |
Direct moment closure model coupled with acceleration algorithm for LES of turbulent partially premixed dimethyl ether jet flame Runzhi Liu, Yicun Wang, Kun Luo, Tai Jin, Jiangkuan Xing, Jianren Fan (Zhejiang University, China) |
||||||||
| ICNC2024-1281 |
On Flamelet calculation methods to incorporate effect of flow strain in presence of large heat loss in turbulent flame propagation models. Sandeep Lamba, Krishnakant Agrawal (Indian Institute of Technology (IIT) Delhi , India) |
||||||||
| ICNC2024-1292 |
DEVELOPMENT OF A VIRTUAL CHEMISTRY REACTION MECHANISM FOR H2/CH4 TURBULENT COMBUSTION MODELLING Simone Castellani (Università di Firenze, Italy), Roberto Meloni (Baker & Hughes, Italy), Antonio Andreini (Università di Firenze, Italy) |
||||||||
| ICNC2024-1529 |
Numerical Modelling of Local Extinction in Sydney Swirling Non-Premixed Flames using LES/FGM Nicholoy Pestheruwe, Lin Ma, Derek Ingham, Ruoyang Yuan (University of Sheffield, United Kingdom) |
||||||||
| ICNC2024-1608 |
Clipping-free fine structure's mass fraction region for low turbulence Eddy Dissipation Concept model Agnieszka A Ciesielska, Adam Klimanek (Silesian University of Technology, Poland), Michal T Lewandowski (Norwegian University of Science and Technology, Norway), Nilanjan Chakraborty (Newcastle University, United Kingdom), Hazem Awad (Cambridge University, United Kingdom) |
||||||||
| ICNC2024-1278 |
Effects of cryogenic temperature on turbulent premixed hydrogen/air flames Chongpeng Chen (School of Astronautics, Beihang University, China), Cheng Chi, Dominique Thévenin (Lab. of Fluid Dynamics and Technical Flows, University of Magdeburg ``Otto von Guericke", Germany, Germany), Wang Han, Lijun Yang (School of Astronautics, Beihang University, China) |
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| Room B | |||||||||
Track14-2. New combustion technologies (2)
|
|||||||||
| ICNC2024-1110 |
Direct numerical simulation of nanosecond repetitively pulsed discharges for plasma-assisted flame stabilisation in flowing environments Daniel Fredrich, Stewart Cant (University of Cambridge, United Kingdom) |
||||||||
| ICNC2024-1237 |
Efficiency analysis of ignition by Nanosecond Repetitively Pulsed discharges using a low-order approach Stéphane Q. E. Wang (Université Paris-Saclay, CNRS, CentraleSupélec, Laboratoire EM2C, France), Yacine Bechane (Normandie Univ, UNIROUEN, INSA Rouen, CNRS, CORIA, France), Nasser Darabiha, Benoît Fiorina (Université Paris-Saclay, CNRS, CentraleSupélec, Laboratoire EM2C, France) |
||||||||
| ICNC2024-1239 |
Modeling of turbulent flame enhancement by Nanosecond Repetitively Pulsed discharges using a low-order approach Stéphane Q. E. Wang, Nasser Darabiha, Benoît Fiorina (Université Paris-Saclay, CNRS, CentraleSupélec, Laboratoire EM2C, France) |
||||||||
| ICNC2024-1284 |
Effect of micro-mixing on nanoparticle production in flame-synthesis: a priori validation of subgrid models for the Batchelor scale Yuri Ogata, Aymeric Vié, Jean Michel Dupays (EM2C Laboratory, Université Paris-Saclay, CNRS, CentraleSupélec, France), Rodney O Fox (Department of Chemical and Biological Engineering, Iowa State University, United States), Abouelmagd Abdelsamie, Dominique Thévénin (Lab. of Fluid Dynamics and Technical Flows, University of Magdeburg “Otto von Guericke”, Germany), Benedetta Franzelli (EM2C Laboratory, Université Paris-Saclay, CNRS, CentraleSupélec, France) |
||||||||
| ICNC2024-1141 |
Chemical Evaluation of a Gas Turbine Model Combustor under Diluted and Preheated Conditions Using LES Amir Mardani, Amir Agha Beige (Sharif University of Technology, Iran, Islamic Republic of), Kyung Chun Kim (Pusan National University , Korea) |
||||||||
| ICNC2024-1335 |
Plasma-assisted MILD combustion: Induced velocity effects Mohammad Sadegh Talebi, Amir Mardani (Sharif University of Technology, Iran, Islamic Republic of), Kyung Chun Kim (Pusan National University , Korea) |
||||||||
| ICNC2024-1164 |
Unveiling the Impact of Magnetic Fields on Jet Diffusion Flame Flickering Hetong Gao, Yueming Wang, Minmin Zhou, Lunbo Duan (Southeast University, China) |
||||||||
| ICNC2024-1536 |
Reaction analysis of frequency dependence on ignition delay time of CH4/Air mixture by repetitive supply of active species Akira Shioyoke, Jun Hayashi, Hiroshi Kawanabe (Kyoto University, Japan) |
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| Room C | |||||||||
Track03. Ignition, quenching
|
|||||||||
| ICNC2024-1321 |
Numerical investigation of spark ignition processes of NH3-H2-air mixtures in a laminar strained premixed configuration Chunkan Yu (Karlsruhe Institute of Technology, Germany), Stefan Essmann, Jacqueline Höltkemeier-Horstmann, Detlev Markus (Physikalisch-Technische Bundesanstalt, Germany), Robert Schießl (Karlsruhe Institute of Technology, Germany), Bo Shu (Physikalisch-Technische Bundesanstalt, Germany), Ulrich Maas (Karlsruhe Institute of Technology, Germany) |
||||||||
| ICNC2024-1236 |
Numerical Investigation on Quenching Distance of Laminar Premixed Methane/Hydrogen-Air Flames Tahsin Berk Kiymaz (Eindhoven University of Technology, Netherlands), Nijso Beishuizen (Eindhoven University of Technology, Bosch Thermotechnology, Netherlands), Jeroen Van Oijen (Eindhoven University of Technology, Netherlands) |
||||||||
| ICNC2024-1352 |
Effects of Wall Heat Transfer Properties on Head-on Quenching of Hydrogen/Air Flames Minha Baek, Dong-Hyuk Shin (Korea Advanced Institute of Science and Technology, Korea) |
||||||||
| ICNC2024-1356 |
Numerical Study of Hydrogen Enrichment Effects on Methane/Air Flame Propagation in Crevices Vili-Petteri Salomaa (Aalto University, Finland), Mahmoud Gadalla (Wärtsilä , Finland), Parsa Tamadonfar, Ville Vuorinen, Ossi Kaario (Aalto University, Finland) |
||||||||
| ICNC2024-1268 |
DNS of forced ignition and flame-edge dynamics in turbulent ammonia/hydrogen/air and methane/air mixing layers Zhuchuan Chang, Haiou Wang, Kun Luo, Jianren Fan (Zhejiang University, China) |
||||||||
| ICNC2024-1125 |
Large-Eddy Simulations for spark-ignition of lean H2/air mixtures using a stretch-adapted Thickened Flame Model Sandy Poncet, Cédric Mehl, Karine Truffin, Olivier Colin (IFP Energies Nouvelles, France) |
||||||||
| ICNC2024-1422 |
CFD investigations of the ignition and stabilization processes of bluff-body lean premixed hydrogen flames Matteo Amerighi, Giada Senatori (Department of Industrial Engineering, University of Florence, Florence, Italy, Italy), Tarik Yahou, Thierry Schuller (Institut de Mécanique des Fluides de Toulouse, IMFT, Université de Toulouse, CNRS, Toulouse, France), James R Dawson (Department of Energy and Process Engineering, Norwegian University of Science and Technology, Trondheim N-7491,, Norway), Antonio Andreini (Department of Industrial Engineering, University of Florence, Florence, Italy, Italy) |
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| Room D | |||||||||
Track05-4. Combustion dynamics and instabilities (4)
|
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| ICNC2024-1109 |
Bifurcation dynamics of lean hydrogen flames in narrow channels Alba Domínguez-González (Universidad Politécnica de Madrid, Spain), Miguel P. Encinar (Universidad Carlos III de Madrid, Spain), Daniel Martínez-Ruiz (Universidad Politécnica de Madrid, Spain) |
||||||||
| ICNC2024-1092 |
LES of wet hydrogen combustion in a counter-current nozzle configuration Agnieszka Wawrzak, Artur Tyliszczak (Czestochowa University of Technology, Poland) |
||||||||
| ICNC2024-1093 |
LES of an excited hydrogen flame stabilised by cylindrical and star-shaped bluff bodies Lena Caban, Agnieszka Wawrzak, Artur Tyliszczak (Czestochowa Universiity of Technology, Poland) |
||||||||
| ICNC2024-1134 |
Large-eddy Simulation of flashback of lean-premixed low-swirl hydrogen jet flame Maho Kawai, Jun Nagao, Abhishek Lakshman Pillai, Ryoichi Kurose (Kyoto university, Japan) |
||||||||
| ICNC2024-1270 |
A study of dynamic thickened flame modeling effects on intrinsic instabilities of premixed hydrogen flames in comparison with direct numerical simulations Aleksi Aukusti Rintanen, Ilya Morev, Parsa Tamadonfar, Shervin Karimkashi, Ville Vuorinen (Aalto university, Finland) |
||||||||
| ICNC2024-1392 |
High-fidelity Large-Eddy Simulations of ignition of lean H2/air flames: Unveiling the role of hydrogen diffusivity and extinction strain rate on the flame dynamics. Tarik Yahou (Norwegian University of Science and Technology, Norway), Nicola Detomaso (CERFACS, France), Davide Laera (Polytechnic University of Bari, Italy), Laurent Selle, Thierry Poinsot, Thierry Schuller (Institut de M ́ecanique des Fluides de Toulouse, France), James R Dawson (Norwegian University of Science and Technology, NTNU, Norway) |
||||||||
| ICNC2024-1007 |
Numerical Study on Controlling Factors Affecting Flow Dynamics of Combustion Gases in Municipal Solid Waste Incinerators Kazuyuki Takase, Kazuaki Kusakabe (Fukushima Prefectural Centre for Environmental Creation, Japan) |
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| Room E | |||||||||
Track12-1. Fires (1)
|
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| ICNC2024-1162 |
Large-Eddy Simulation of aeronautical fire certification: coupling strategies for multi-physics modeling Roxane Letournel (SAFRAN Tech, France), Adrien Grenouilloux (CORIA, France), Renaud Mercier (SAFRAN Tech , France), Vincent Moureau (CORIA, France) |
||||||||
| ICNC2024-1355 |
Large eddy simulation of turbulent tandem diffusion flames under crosswind conditions Kazui Fukumoto, Yuhang Chen (University of Science and Technology of China, China), Yanli Miao (University of Science and Technology, China), Fei Tang, Longhua Hu (University of Science and Technology of China, China) |
||||||||
| ICNC2024-1466 |
Large-eddy simulation of a methane fire plume using steady and unsteady flamelet models Xu Wen, Yunxiao Yan (University of Science and Technology of China, China) |
||||||||
| ICNC2024-1332 |
Feasibility of a simple dust-explosion model to predict limit conditions Supanat Vichienpattayakom, Kazunori Kuwana (Tokyo University of Science, Japan), Shigetoshi Yazaki (Meiji University, Japan), Rinrin Saeki, Wookyung Kim (Hiroshima University, Japan) |
||||||||
| ICNC2024-1369 |
Flame retardant effects on non-premixed boundary layer flames Raúl Felipe Corrales Flores, Christoph Möller (Technical University of Darmstadt, Germany), Federica Ferraro (Technical University of Braunschweig, Germany), Andreas Dreizler, Arne Scholtissek (Technical University of Darmstadt, Germany) |
||||||||
| ICNC2024-1431 |
Simulation study of fire dynamics and heat transfer: the effects of wind and slope Yong Hu, Chenyao Su (University of Science and Technology of China, China) |
||||||||
| ICNC2024-1553 |
Swift Flame-to-Fuel Heat Transfer Evaluation in Simulation via Deep Learning and Fire Images Caiyi Xiong (South China University of Technology, Guangzhou, China, China), Zilong Wang, Xinyan Huang (The Hong Kong Polytechnic University, Hong Kong) |
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| Room F | |||||||||
Track18-3. Simulations with AI technologies (3)
|
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| ICNC2024-1159 |
Hybrid LES-CFD modeling with machined learning methodology on Tangentially-Fired Coal Combustion System Siyi Huang, Min-Min Zhou (SouthEast University, China), Wojciech Adamczyk (Silesian University of Technology, Poland), Lunbo Duan (SouthEast University, China), Philip J. Smith (University of Utah, United States) |
||||||||
| ICNC2024-1222 |
Detailed simulation of LOX/GCH4 flame-vortex interaction in supercritical Taylor-Green flows with machine learning Jiayang Xu (AI for Science Institute, Beijing, China), Yifan Xu (Peking University, China), Zifeng Weng (Tsinghua University, China), Yuqing Cai (Tianjin University, China), Runze Mao, Ruixin Yang (Peking University, China), Zhi Chen (State Key Laboratory of Turbulence and Complex Systems, Aeronautics and Astronautics, College of Engineering, Peking University, China) |
||||||||
| ICNC2024-1320 |
Reducing memory requirements of In-Situ Adaptive Manifolds using neural network coupled binary trees Stephen Trevor Fush, Israel J Bonilla, Michael E Mueller (Princeton University, United States) |
||||||||
| ICNC2024-1331 |
High-resolution three-dimensional reconstruction of velocity for turbulent flames with physics-informed neural networks Shiyu Liu, Haiou Wang, Kun Luo, Jianren Fan (Zhejiang University, China) |
||||||||
| ICNC2024-1428 |
Multi-Component Temporal Clustering Analysis in Reaction Phase Space for Hydrogen Jet Flames Vansh Sharma (University of Michigan, United States), Shivam Barwey (Argonne National Laboratory, United States), Venkat Raman (University of Michigan, United States) |
||||||||
| ICNC2024-1471 |
Unveiling Flame Characteristics for Combustion Process of Ammonia Blends using Machine Learning Aswitha Tadepalli, Richie Shaji Mathew, Raja Banerjee, Kishalay Mitra (Indian Institute of Technology Hyderabad, India) |
||||||||
| ICNC2024-1500 |
Machine learning implemented large eddy simulation of turbulent premixed flames by an AI-assisted fractal dynamic sub-grid scale (FDSGS) model Yuka Suga, Haruya Shimamoto, Hironobu Minami, Ye Wang, Mamoru Tanahashi (Tokyo Institute of Technology, Japan) |
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| Room G | |||||||||
MS11. Liquid Rocket Engine Combustion
|
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| ICNC2024-1006 |
Large-Eddy Simulations of subscale LOX/GH2 rocket combustors with different fuel injection temperatures Takanori Haga, Taro Shimizu (Japan Aerospace Exploration Agency, Japan) |
||||||||
| ICNC2024-1145 |
Injection parameter identification for severe pressure oscillations in a high-pressure H2/O2 rocket-type chamber Riku Shimoyama, Atsushi Kubota, Hiroshi Terashima (Hokkaido University, Japan) |
||||||||
| ICNC2024-1316 |
Characterization of injectors near field in LRE firing plates Pasquale Eduardo Lapenna, Arianna Remiddi (Sapienza University of Rome, Italy), Marco Pizzarelli, Rocco Pellegrini, Enrico Cavallini (Italian Space Agency, Italy), Mauro Valorani, Francesco Creta (Sapienza University of Rome, Italy) |
||||||||
| ICNC2024-1015 |
Modeling of Wall Heat Flux in Liquid Rocket Engines Matthew Harvazinski (United States Air Force Research Laboratory, United States) |
||||||||
| ICNC2024-1052 |
Determination of the Drop Size and Distributions during Liquid Injection: Impinging and Effervescent Sprays Jungeun Park, T.-W. Lee (Arizona State University, United States) |
||||||||
| ICNC2024-1106 |
An efficient numerical algorithm for solving multi-component real fluid flows in rocket engines Sho Wada (Kyoto University, Japan), Reo Kai (Kyushu University, Japan), Abhishek Lakshman Pillai, Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1389 |
Interface-Capturing Simulations of Transcritical LOX/GH2 Injection using Unified-Fluids Regularized-Interface Method Nguyen Ly, Matthias Ihme (Stanford University, United States) |
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| Room H | |||||||||
MS16. High-fidelity numerical simulations using FUGAKU-scale supercomputers in Academic-Industrial Collaborations
|
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| ICNC2024-1340 |
Development of High-fidelity numerical simulations for aviation and powerplant gasturbune combustors Nobuyuki Oshima (Hokkaido university, Japan), Ryoichi Kurose (Kyoto university, Japan), Takeo Oda, Tomoko Tsuru (Kawasaki Heavy Industries, Japan) |
||||||||
| ICNC2024-1492 |
Evaluation of Ignition Feasibility in an Aviation Engine: Preliminary Equivalence Ratio Results and Ongoing Developments in FUGAKU-Enabled, BCM-Based Large-Eddy Simulations Younghwa Cho, Nobuyuki Oshima (Hokkaido University, Japan), Rahul Bale (RIKEN Center for Computational Science, Japan), Chung-Gang Li (National Cheng Kung University, Taiwan), Makoto Tsubokura (RIKEN Center for Computational Science, Japan), Tomoko Tsuru, Takeo Oda (Kawasaki Heavy Industries, Ltd., Japan) |
||||||||
| ICNC2024-1453 |
Performance Evaluation of Aero Engine Combustor by LES Integrating Turbulent Atomization Model Yusuke Komatsu (IHI corporation, Japan), Junya Yoshida (Numerical Flow Designing CO.,LTD., Japan), Junji Shinjo (Shimane university, Japan), Hiroaki Watanabe (Kyushu university, Japan), Masahiro Uchida (IHI corporation, Japan) |
||||||||
| ICNC2024-1135 |
Numerical investigation of oxygen-hydrogen combustion with steam dilution for a zero-emission power generation system Hiroki Kasuya, Yasunori Iwai, Masao Itoh, Yuichi Morisawa (Toshiba Energy Systems & Solutions Corporation, Japan), Takayuki Nishiie (Numerical Flow Designing CO., LTD., Japan), Kazuhiro Kinuta, Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1156 |
Numerical simulation of boundary layer flashback of hydrogen-air premixed flame using an LES/NA-FGM-PD approach Shinichi Fukuba (Mitsubishi Heavy Industries, Ltd., Japan), Takayuki Nishiie (Numerical Flow Designing CO.,LTD., Japan), Kazuhiro Kinuta, Kazuya Iwata, Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1512 |
Super-simulation of Coal Gasification Facility on Fugaku Shinobu Yoshimura (The University of Tokyo, Japan), Hiroaki Watanabe (Kyushu University, Japan), Ryoichi Kurose (Kyoto University, Japan), Tomonori Yamada, Shigeki Kaneko (The University of Tokyo, Japan) |
||||||||
| ICNC2024-1339 |
Multi-objective optimization of operating conditions and reactor configuration of gasifier for solid fuels using FUGAKU Kenji Tanno, Satoshi Umemoto (Central Research Institute of Electric Power Industry, Japan), Hiroaki Watanabe (Kyushu University, Japan), Ryoichi Kurose (Central Research Institute of Electric Power Industry, Japan) |
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| Room I | |||||||||
Track11-3. Gas turbines, engines and furnaces (3)
|
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| ICNC2024-1524 |
Evaluation of Preferential Diffusion in RANS Simulation of H2-Air Turbulent Flames with FGM Model Alex M Garcia (RWTH Aachen University, Germany), E. M. Fortes, E. J. Perez-Sanchez, D. Mira (Barcelona Supercomputing Center, Spain), M. Vivenzo, M. Gauding, Heinz Pitsch, Nico Schmitz, Herbert Pfeifer (RWTH Aachen University, Germany) |
||||||||
| ICNC2024-1076 |
Hydrogen combustion and NOx generation characteristics for a scaled hydrogen-fueled gas turbine combustor for aircraft propulsion Junji Shinjo (Shimane University, Japan), Keiichi Okai (Japan Aerospace Exploration Agency, Japan) |
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| ICNC2024-1105 |
Combustion and emission characteristics of oxy-syngas O2-CH4/H2/CO flames in a swirl premixed model gas turbine combustor Medhat Ahmed Nemitallah (king fahd university of petrolum and minerals, Saudi Arabia) |
||||||||
| ICNC2024-1497 |
Turbulent combustion model sensitivity in LES of model gas-turbine combustor Alessandro Ercole (Lund University, Sweden), Daniel Lörstad (Siemens Energy AB, Sweden), Christer Fureby (Lund University, Sweden) |
||||||||
| ICNC2024-1098 |
LES of spray combustion in a lean direct injection combustor using a novel subgrid-scale stress model Yicun Wang, Kun Luo, Hualin Xiao, Tai Jin (Zhejiang University, China), Jiangkuan Xing (Kyoto University, Japan), Jianren Fan (Zhejiang University, China) |
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| ICNC2024-1581 |
Large eddy simulations for investigating combustor-turbine interaction: a machine learning approach to reduce discrepancies between single-component and multi-component simulations Jingke Su, Anxiong Liu, Kun Luo, Jianren Fan (Zhejiang University, China) |
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| ICNC2024-1317 |
Effects of Detailed Chemistry and Molecular Differential Diffusion on a Reacting Jet in Cross-Flow Gihun Shim, Navneeth Srinivasan, Taaresh Sanjeev Taneja (University of Minnesota, United States), Vishal Acharya (Georgia Institute of Technology, United States), Suo Yang (University of Minnesota, United States) |
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| Room J | |||||||||
MS09. Numerical Combustion Research on Fundamental Phenomena in Automobile Engines
|
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| ICNC2024-1199 |
Numerical analysis of the initial flame kernel development with spark channel elongation in spark ignition process under turbulent tumble flow conditions using LES/FGM Shinji Nakaya, Fangsi Ren, Mitsuhiro Tsue (The University of Tokyo, Japan) |
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| ICNC2024-1417 |
Effect of flame quenching distance and flame-wall geometry on the near-wall CO formation for turbulent premixed CH4-air combustion in a constant volume vessel Ye Wang, Mamoru Tanahashi (Tokyo Institute of Technology, Japan) |
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| ICNC2024-1570 |
Combustion characteristics of ammonia-hydrogen mixtures by turbulent jet ignition Dong Han, Jinlu Huo (Shanghai Jiao Tong University, China) |
||||||||
| ICNC2024-1060 |
Numerical Simulation of Spark Ignition Processes Considering Preferential Diffusion and Thermal Plasma Tsukasa Hori, Naohiro Yoshinaga (Osaka University, Japan), Shota Yamada (Osaka Univeristy, Japan), Yusuke Oda, Shinya Sawada, Fumiteru Akamatsu (Osaka University, Japan) |
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| ICNC2024-1559 |
Autoignition behaviour of n-heptane studied using 2D DNS Ajit Kumar Dubey (Indian Institute of Technology Roorkee, India), Youhi Morii, Kaoru Maruta (Tohoku University, Japan) |
||||||||
| ICNC2024-1449 |
Prediction of Knock Intensity for an Optical SI Engine with Various Primary Reference Fuels Jiabo Zhang (Shanghai Jiao Tong University, China), Shi Hao (King Abdullah University of Science and Technology, Saudi Arabia), Dong Han, Zhen Huang (Shanghai Jiao Tong University, China) |
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| ICNC2024-1307 |
Numerical investigation of the effect of combustion process on material thermal load under internal combustion engines conditions Chunkan Yu, Ulrich Maas (Karlsruhe Institute of Technology, Germany) |
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| Room K | |||||||||
MS20. Modeling and Simulation of High-speed Compressible Reacting Flows
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| ICNC2024-1593 |
Stability and Dynamics of High-speed, Compressible, Premixed and Non-premixed Turbulent Reacting Flows Alexei Poludnenko (University of Connecticut, United States) |
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| ICNC2024-1470 |
Effect of Fuel Dispersion on Reaction Structure in Supersonic Flowpaths Shivank Sharma, Venkat Raman (University of Michigan, United States) |
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| ICNC2024-1534 |
High-Order Discontinuous Galerkin Methods for Compressible, Chemically Reacting, Multicomponent Flows Eric J Ching, Ryan F Johnson (US Naval Research Laboratory, United States) |
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| ICNC2024-1579 |
LARGE EDDY SIMULATION (LES) OF HIGH SPEED COMPRESSIBLE REACTIVE FLOWS Christer Fureby (Lund University, Sweden) |
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| ICNC2024-1558 |
Chemical Kinetic Modeling for High-Speed Compressible Combusting Flows Hai Wang, Kevin Dong, Yue Zhang (Stanford University, United States), Gregory P. Smith (Stanford Research Institute (SRI), United States) |
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| ICNC2024-1469 |
Modelling strategies for Large Eddy Simulation of high-speed reacting flows. Salvador Navarro-Martinez (Imperial College London, United Kingdom) |
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| ICNC2024-1591 |
An analysis of non-premixed ethylene-air flame stabilization in a cavity flameholder with orthogonal fuel injection Priyabrat Dash, Konduri Aditya (Indian Institute of Science, Bengaluru, India) |
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| ICNC2024-1531 |
Effect of a Turbulent Chemistry Interaction Model on Prediction of Scramjet Combustor Flows Masatoshi Kodera, Masahiro Takahashi, Kan Kobayashi, Sadatake Tomioka (Japan Aerospace Exploration Agency, Japan) |
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| Room L | |||||||||
Track09-3. Heterogeneous combustion (3)
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| ICNC2024-1022 |
3D CFD particle-resolved simulations of heterogeneous combustion of non-porous char in a fixed-bed reactor Andrés Ignacio Arriagada Romero (University of Alberta - Universidad Técnica Federico Santa María, Canada), Mario Toledo Torres (Universidad Técnica Federico Santa María, Chile), Robert Hayes, Petr Nikrityuk (University of Alberta, Canada) |
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| ICNC2024-1102 |
Numerical study of the mechanisms of convective burning of black powder Pavel Utkin (Harbin Institute of Technology, China), Petr Chuprov (Institute for Computer Aided Design of the Russian Academy of Sciences, Russian Federation) |
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| ICNC2024-1119 |
Heterogeneous Combustion of AP/HTPB/RDX Propellants with Detailed Kinetics Pierre Bernigaud, Dmitry Davidenko (ONERA, France), Laurent Catoire (ENSTA Paris, France) |
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| ICNC2024-1122 |
Numerical approach to understand factors affecting catalytic decomposition of methane Vivek Kumar, Sourabh Shrivastava, Pravin Nakod (Ansys INC, India), Krishna Kishore Chavan, Shruti Pradeep Chavan (Cummins college of engineering for women, India) |
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| ICNC2024-1138 |
Parametric study on optimal operation of burning-off process for the removal of deposited carbon in a coke oven Keh-Chin Chang, Yi-Da Chung (National Cheng Kung University, Taiwan) |
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| ICNC2024-1160 |
A priori analysis on an extended flamelet/progress variable model for coal/ammonia co-firing flame Xue Qing Qing Qing Qing Qing Qing, Xing Jiang Kuan Xing Jiang Kuan, Tang Xin Zhou Tang Xin Zhou, Luo Kun Luo Kun, Fan Jian Ren Fan Jian Ren (Zhejiang University, China) |
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| ICNC2024-1213 |
Numerical Analysis of MILD Combustion of Pulverized Biomass-Coal Flame Ali Cemal Benim, Cansu Deniz Canal (Düsseldorf University of Applied Sciences, Germany) |
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| Room M | |||||||||
Track01-2. Laminar flames (2)
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| ICNC2024-1097 |
DMD analysis on quasi-steady behaviors of sporadic flames in counterflow under low-speed low-Lewis-number conditions Takaki Akiba, Akira Tsunoda, Youhi Morii, Hishashi Nakamura, Kaoru Maruta (Tohoku University, Japan) |
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| ICNC2024-1168 |
Measurement of Laminar Burning Velocity for pre-mixed fuel air mixtures at elevated temperatures and pressures Subhashree Sampath (Sastra Deemed University, India) |
||||||||
| ICNC2024-1181 |
Numerical investigation of effects of pressure and equivalence ratio on laminar hydrogen flame flashback behavior Kazuhiro Kinuta, Takatomo Yasuda, Kotaro Yada, Naoki Sugimura, Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1382 |
Flashback limits of H2 premixed laminar flames: a numerical investigation based on the “1+M” multi-component diffusion model Alberto Cuoci (Politecnico di Milano, Italy), Bertrand Naud (Centre for Energy, Environmental and Technological Research (CIEMAT), Spain), Manuel Arias-Zugasti (Departamento de Física Matemática y de Fluidos, Facultad de Ciencias UNED, Spain), Alessio Frassoldati (Politecnico di Milano, Italy) |
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| ICNC2024-1338 |
Ignition delay based estimation of laminar burning velocity as the minima of autoignitive reaction wave speed with unity Lewis number Youhi Morii, Kaoru Maruta (Tohoku University, Japan) |
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| ICNC2024-1362 |
Study on heat losses and flow rate on premixed hydrogen-air flame shape from thickness of Hele-Shaw burner Ziyin Chen, Pierre Boivin (M2P2 (CNRS, Centrale Marseille, Aix-Marseille University), France), Christophe Almarcha (IRPHE (CNRS, Centrale Marseille, Aix-Marseille University), France), Song Zhao (M2P2 (CNRS, Centrale Marseille, Aix-Marseille University), France) |
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| ICNC2024-1450 |
Multi-point optimization for laminar hydrogen flames Cristopher Lorenzo Morales Ubal, Nijso Beishuizen, Jeroen Van Oijen (Eindhoven University of Technology, Netherlands) |
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| ICNC2024-1544 |
Numerical Investigation on Flame Spread over a Thin Circular Duct Vipin Kumar, Kambam Naresh, Arvind Bharath S R, Amit Kumar (Indian Institute of Technology Madras Chennai, India, India) |
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|
May 10 (Fri.)
|
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| Room A (TERRSA Hall) | |||||||||
Invited Lecture 4
|
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|
Advances in Simulations of Dual-fuel Combustion Epaminondas Mastorakos (Department of Engineering, University of Cambridge, UK) |
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Track04-5. Turbulent combustion (5)
|
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| ICNC2024-1010 |
Experimental and Numerical Investigation of Lean Blowoff Dynamics in Swirl-Stabilized Premixed Flame Vishnu Raj, Chockalingam Prathap (Indian Institute of Space Science and Technology, India) |
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| ICNC2024-1040 |
Performance of flame surface density and scalar dissipation rate based mean reaction rate closures for fuel-lean hydrogen-air turbulent premixed flames Vishnu Mohan, Frederick W Young, Umair Ahmed, Nilanjan Chakraborty (Newcastle University, United Kingdom) |
||||||||
| ICNC2024-1286 |
Dynamic Tracking of Surface Topology in Turbulent Premixed Flames using Machine-Learning Hassan Farooq Ahmed, R Stewart Cant (University of Cambridge, United Kingdom) |
||||||||
| ICNC2024-1308 |
Role of Dilatation in the Injection and Redistribution of Turbulent Kinetic Energy in Premixed Reacting Flows Arnab Moitro (University of Connecticut, United States), Alan R Kerstein (72 Lomitas Road, Danville, CA 94526, United States), Alexei Y Poludnenko (University of Connecticut, United States) |
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| ICNC2024-1535 |
On flame displacement speed variation due to flame-flame interaction Yuvraj Yuvraj (University of Toronto, Canada, Canada), Jen Zen Ho, Mohsen Talei (University of Melbourne, Australia, Australia), Swetaprovo Chaudhuri (University of Toronto, Canada, Canada) |
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| ICNC2024-1486 |
Differential diffusion modelling for LES of a hydrogen-fuelled swirled burner with axial air injection Gioele Ferrante, Giacomo Abbasciano, Arvind Gangoli Rao, Ivan Langella (Delft University of Technology, Netherlands) |
||||||||
| ICNC2024-1490 |
Large eddy simulation of a turbulent jet ignition process of hydrogen lean mixture with a super-rich pre-chamber Haoming Gu, Fangsi Ren, Shinji Nakaya, Mitsuhiro Tsue (The University of Tokyo, Japan) |
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Track04-6. Turbulent combustion (6)
|
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| ICNC2024-1280 |
Manifold-based modeling of supersonic turbulent combustion: Direct inclusion of high-speed effects John Boerchers (Princeton University, United States), Hariswaran Sitaraman (National Renewable Energy Laboratory, United States), Michael E Mueller (Princeton University, United States) |
||||||||
| ICNC2024-1285 |
Numerical simulation of CH4/LOx supercritical flame Florian Monnier, Guillaume Ribert, Louis Duhem-Duvilla (CNRS & INSA de Rouen, France) |
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| ICNC2024-1378 |
Study on soot oxidation and leakage in a turbulent non-premixed jet flame Gandolfo Scialabba (RWTH Aachen University, Germany), Antonio Attili (University of Edinburgh, United Kingdom), Francesca Loffredo, Heinz Pitsch (RWTH Aachen University, Germany) |
||||||||
| ICNC2024-1467 |
Influence of Turbulence on Soot formation in Iso-octane Outwardly Propagating Rich Unstable Flames Takashi Ikeda, Hiroaki Watanabe, Ekenechukwu Chijioke Okafor (Kyushu University, Japan), Ryoichi Kurose (Kyoto University, Japan), Toshiaki Kitagawa (Kyushu University, Japan) |
||||||||
| ICNC2024-1585 |
Numerical assessment for turbulent partially-premixed combustion using reaction-diffusion manifold based model reduction “on the fly” Prashant Shrotriya, Robert Schießl, Chunkan Yu, Ulrich Maas (Karlsruhe Institute of Technology, Germany) |
||||||||
| ICNC2024-1193 |
Controlling the resolved flame thickness of diffusion flames in LES with filtered tabulated chemistry Samuel Dillon (EM2C Laboratory, CNRS, CentraleSupélec, Université Paris-Saclay, France), Renaud Mercier (Safran Tech, Digital Sciences & Technologies Department, France), Benoît Fiorina (EM2C Laboratory, CNRS, CentraleSupélec, Université Paris-Saclay, France) |
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| Room B | |||||||||
Track10-3. Detonation, explosions (3)
|
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| ICNC2024-1034 |
Numerical simulations of the run-up distance to detonation in hydrogen-methane blends Milin Martin, Elaine S Oran, Ashwath Sethu Venkataraman (Texas A&M University, College Station, United States) |
||||||||
| ICNC2024-1224 |
Revisiting the issue of deflagration-to-detonation transition in an unconfined system via highly-resolved 2D axisymmetric simulations Kazuya Iwata, Sho Wada, Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1371 |
Transition from autoignitive reaction wave to detonation under transonic conditions for methane mixture Haru Okada, Youhi Morii, Akira Tsunoda, Keisuke Akita, Kaoru Maruta (Institute of Fluid Science, Tohoku University, Japan) |
||||||||
| ICNC2024-1395 |
Semi-Confined Reaction Zone Effects in Gaseous Detonations Stephen Voelkel, Mark Short, Carlos Chiquete (Los Alamos National Laboratory, United States) |
||||||||
| ICNC2024-1586 |
Detailed Numerical Simulations of Explosive Post-Detonation Afterburning Ryan Houim, Anthony Egeln (University of Florida, United States) |
||||||||
MS05-1. Liquid Ammonia Spray and Combustion: Numerical Modelling (1)
|
|||||||||
| ICNC2024-1001 |
High-fidelity modelling of liquid ammonia spray and combustion Jiangkuan Xing, Zhenhua An, Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1173 |
Computational singular perturbation analysis applied to evaporation of ammonia droplets Lorenzo Angelilli (University of Michigan, United States), Riccardo Malpica Galassi, Pietro Paolo Ciottoli (Sapienza, Italy), Francisco E Hernandez-Perez (KAUST, Saudi Arabia), Mauro Valorani (Sapienza, Italy), Hong G Im (KAUST, Saudi Arabia), Venkat Raman (University of Michigan, United States) |
||||||||
| ICNC2024-1573 |
Observation of liquid ammonia spray structure injected from a pressure-swirl nozzle up to elevated pressure Akihiro Hayakawa, Hirofumi Yamashita, Kohei Oku, Keito Honda (Tohoku University, Japan), Sophie Colson (IHI Corporation, Japan), Gauthier Reibel, Chen Yi-rong, K.D. Kunkuma A. Somarathne (Tohoku University, Japan), Ekenechukwu C. Okafor (Kyushu University, Japan), Taku Tsujimura (National Institute of Advanced Industrial Science and Technology, Japan), Shintaro Ito, Masahiro Uchida (IHI Corporation, Japan), Taku Kudo, Hideaki Kobayashi (Tohoku University, Japan) |
||||||||
| ICNC2024-1196 |
Numerical study of the flame structure and interaction between droplet/flame of LNH3 spray flame in a swirl combustor Jiawen Liu, Meng Zhang (Xi'an Jiaotong University, China), Zhenhua An (Kyoto University, Japan), Jinhua Wang, Zuohua Huang (Xi'an Jiaotong University, China) |
||||||||
| ICNC2024-1344 |
Direct numerical simulations of combustion characteristics with liquid ammonia direct injection under engine-like conditions Ziwei Huang, Haiou Wang, Kun Luo, Jianren Fan (Zhejiang University, China) |
||||||||
| ICNC2024-1346 |
Liquid ammonia spray : flash-boiling phenomenon Christine Rousselle, Camille Hespel (UNiversité d'Orléans, France) |
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MS05-2. Liquid Ammonia Spray and Combustion: Numerical Modelling (2)
|
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| ICNC2024-1365 |
Models for liquid ammonia sprays: developments on Eulerian and Lagrangian approaches Michele Battistoni (University of Perugia, Italy) |
||||||||
| ICNC2024-1025 |
Numerical investigation of flash-boiling atomization characteristics of liquid-ammonia fuel at various superheat degrees Kunkuma Amila Somarathne, Hirofumi Yamashita, Kohei Oku, Keito Honda, Taku Kudo, Akihiro Hayakawa, Hideaki Amila Kobayashi (Tohoku University, Japan) |
||||||||
| ICNC2024-1272 |
Internal and Near-Nozzle Flow of Ammonia Using the ECN Spray G Injector Daniel Goette (University of Stuttgart, Germany), Sampath Rachakonda (University of Massachusetts, United States), David Schmidt (University of Massachusetts Amherst, United States) |
||||||||
| ICNC2024-1142 |
Numerical investigation of liquid ammonia combustion in MILD conditions Zhenhua An, Jiangkuan Xing, Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1244 |
Numerical investigation of hydrogen-fired prechamber ignition of the ammonia main charge in reciprocating engines Thomas Indlekofer, Nils Erland L. Haugen, Andrea Gruber (SINTEF Energy Research, Norway) |
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| Room C | |||||||||
MS10. Sustainable Aviation Fuel: Modeling Challenges and Opportunities
|
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| ICNC2024-1380 |
Challenges and Opportunities in Using Numerical Simulations for Increased Adoption of Sustainable Aviation Fuels Shashank Yellapantula, Bruce Perry, Sreejith Nadakkal Appukuttan, Marc Day (National Renewable Energy Laboratory, United States) |
||||||||
| ICNC2024-1208 |
Modeling sustainable aviation fuel combustion kinetics with a functional group approach Pierantonio Lo Greco, Sirio Brunialti, Qi Wang (KAUST, Saudi Arabia), Xiaoyuan Zhang (USTC, China), Mani Sarathy (KAUST, Saudi Arabia) |
||||||||
| ICNC2024-1398 |
A perspective on supercritical fuel-flow modeling needs with SAF Guillaume Ribert (CNRS & INSA de Rouen, France) |
||||||||
| ICNC2024-1309 |
Toward comprehensive manifold-based combustion modeling of multi-component Sustainable Aviation Fuels in turbulent reacting flows Michael Edward Mueller, Israel J Bonilla, S Trevor Fush, Philip Satterthwaite (Princeton University, United States) |
||||||||
| ICNC2024-1143 |
Experimental Approaches for Validation of SAF Combustion Tonghun Lee, Audrey Godsell, Casey O'Brien, Paxton Wiersema (University of Illinois Urbana-Champaign, United States) |
||||||||
| ICNC2024-1327 |
Combustion dynamics in a lab-scale combustor using DNS Bruno S. Soriano, Christian Lacey, Jacqueline Chen (Sandia National Laboratories, United States) |
||||||||
MS03-1. Combustion Noise and Thermoacoustic Instabilities (1)
|
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| ICNC2024-1217 |
A Hybrid CFD/CAA Solver for Simulating Noise Generation in Real Fluid Flows under Transcritical and Supercritical Conditions Abhishek Lakshman Pillai, Takuto Yamada, Sho Wada, Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1435 |
What is the potential of next-generation aviation gas turbine combustors for noise reduction? Matthias Ihme, Davy Brouzet, Benyamin Krisna (Stanford University, United States), Duane McCormick, C Aaron Reimann, Jeff Mendoza (Raytheon Technologies Research Center, United States) |
||||||||
| ICNC2024-1447 |
Numerical Analysis of Thermodiffusive Unstable Premixed Lean Hydrogen-Air Slit Flames Borja Pedro Beltran, Matthias Helmut Meinke, Wolfgang Schroeder (RWTH Aachen University, Germany) |
||||||||
| ICNC2024-1163 |
Exploring the connection between combustion noise and thermoacoustic instability Mohsen Talei, Jenzen Ho (The University of Melbourne, Australia), Sandeep Jella (Siemens Energy Canada , Canada) |
||||||||
| ICNC2024-1041 |
On the roles of spray response to pressure oscillations in combustion instability in a combustor with a lean-burn coaxially-staged fuel injector Kazuaki Matsuura, Kodai Kato (Japan Aerospace Exploration Agency, Japan), Riko Hosoi, Yuta Sasaki, Yoshio Zama (Gunma University, Japan), Takeshi Yamamoto (Japan Aerospace Exploration Agency, Japan), Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1031 |
High-frequency transverse combustion instabilities of lean-premixed pure hydrogen-air flames Kyutae Kim (Korea Advanced Institute of Science and Technology, Korea) |
||||||||
MS03-2. Combustion Noise and Thermoacoustic Instabilities (2)
|
|||||||||
| ICNC2024-1129 |
Modeling Considerations for Combustion Dynamics ROM Tools Vishal Acharya (Georgia Institute of Technology, United States) |
||||||||
| ICNC2024-1336 |
Numerical Analysis of Amplifying Longitudinal Combustion Instability in a Self-Excited Combustor Seiji Tsutsumi, Noriyasu Omata, Taro Shimizu (Japan Aerospace Exploration Agency, Japan), Masahito Akamine (University of Tokyo, Japan), Junya Aono (Research Center of Computational Mechanics, Inc., Japan) |
||||||||
| ICNC2024-1341 |
Application of Matveev–Culick Model to Combustion Instability in a Self-Excited Combustor Masahito Akamine (University of Tokyo, Japan), Seiji Tsutsumi, Taro Shimizu, Noriyasu Omata (Japan Aerospace Exploration Agency, Japan), Junya Aono (Research Center of Computational Mechanics, Inc., Japan) |
||||||||
| ICNC2024-1149 |
Azimuthal instabilities in annular combustors Nicholas Alexander Worth (Norwegian University of Science and Technology, Norway), Håkon Nygård, Abhijat Verma (NTNU, Norway) |
||||||||
| ICNC2024-1546 |
LES Study of Combustion Instability in a Laboratory-Scale Rocket Combustor Shingo Matsuyama (Japan Aerospace Exploration Agency, Japan) |
||||||||
| ICNC2024-1576 |
Numerical investigation of thermoacoustic oscillation of a hydrogen micromix flame with LES Daniel Kroniger, Hiromu Kamiya, Atsushi Horikawa (Kawasaki Heavy Industries, Ltd., Japan), Ryuta Suzuki (Siemens K.K., Japan), Erik Munktell (Siemens Industry Software AB, Sweden), Rene Braun (Siemens Digital Industries Software, Germany) |
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| Room D | |||||||||
Track18-4. Simulations with AI technologies (4)
|
|||||||||
| ICNC2024-1132 |
Kinetic reduction for efficient turbulent combustion kinetic uncertainty quantification via active subspace enabled by neural network Benjamin Koenig, Sili Deng (Massachusetts Institute of Technology, United States) |
||||||||
| ICNC2024-1266 |
Jacobian-Informed Clustering for Sample-Partitioning Adaptive Reduced Chemistry Methods Pietro Pagani (Université Catholique de Louvain, Belgium), Riccardo Malpica Galassi (La Sapienza, Italy), Alessandro Parente (Université Libre de Bruxelles, Belgium), Francesco Contino (Université Catholique de Louvain, Belgium) |
||||||||
| ICNC2024-1533 |
Deep learning-based chemical kinetic surrogate model with strictly enforced conservation laws Tinghao Wang (Peking University, China), Tianhan Zhang (Southern University of Science and Technology, China), Zhi-Qin John Xu, Yuxiao Yi, Junjie Yao (Shanghai Jiao Tong University, China), Zheng Chen (Peking University, China) |
||||||||
| ICNC2024-1086 |
Large eddy simulation of swirling flames: GPU/DNN-accelerated finite rate chemistry Min Zhang, Runze Mao, Han Li, Ruixin Yang, Zhi X. Chen (Peking University, China) |
||||||||
Track04-7. Turbulent combustion (7)
|
|||||||||
| ICNC2024-1064 |
A generic multispecies combustion regime identification for turbulent nonpremixed flame simulations Pascale Domingo (CNRS, France), Luc Vervisch, Florian Kissel, Guillaume Ribert (INSA ROUEN NORMANDY , France) |
||||||||
| ICNC2024-1077 |
Flame transition in a highly-lifted premixed jet flame in a hot cross flow Harikrishna Tummalapalli, Evatt Robert Hawkes (The University of New South Wales, Australia) |
||||||||
| ICNC2024-1238 |
Numerical prediction of blow-out in bluff-body stabilized turbulent flames controlled by thermo-diffusive instabilities Andrea Gruber (SINTEF Energy Research, Norway), Jonas T Aannestad (Norwegian University of Science and Techonology, Norway), Samuel M Wiseman (SINTEF Energy research, Norway), James R Dawson (Norwegian University of Science and Technology, Norway) |
||||||||
| ICNC2024-1277 |
Simulation of attached and lifted swirl-stabilised hydrogen–air flames James C Massey, Nedunchezhian Swaminathan (University of Cambridge, United Kingdom) |
||||||||
| ICNC2024-1383 |
Numerical investigation on ignition characteristics of an igniting under-expanded hydrogen jet Hesheng Bao, Jeroen Van Oijen (Eindhoven University of Technology, Netherlands) |
||||||||
Track04-8. Turbulent combustion (8)
|
|||||||||
| ICNC2024-1054 |
Large-Eddy Simulations of Fuel Jet Combustion Assisted by the Cylindrical Hot Surface Sayop Kim (New York University Abu Dhabi, United Arab Emirates), Tonghun Lee (University of Illinois Urbana-Champaign, United States), Kenneth S. Kim, Chol-Bum M. Kweon (Army Research Laboratory, United States), Je Ir Ryu (New York University Abu Dhabi, United Arab Emirates) |
||||||||
| ICNC2024-1063 |
High-dimensional FGM/ResNet modeling of turbulent spray combustion: Effects of evaporation heat loss and combustion scalar correlation Dong Wang, Haixiao X. Wang, Min X. Zhang, Ruixin X. Yang, Zhi X. Chen (Peking Univeristy, China) |
||||||||
| ICNC2024-1095 |
Large-eddy simulation of high-pressure auto-igniting hydrogen injections using tabulated chemistry Alessandro Ballatore, Jeroen Van Oijen (Eindhoven University of Technology, Netherlands) |
||||||||
| ICNC2024-1111 |
Flame structure and stabilisation mechanism of a high-pressure hydrogen micromix combustor Thomas Howarth (RWTH Aachen University, Germany), Mark Picciani (Sunborne Systems Ltd., United Kingdom), Edward Richardson (University of Southampton, United Kingdom), Marcus Day (National Renewable Energy Laboratory, United States), Andrew Aspden (Newcastle University, United Kingdom) |
||||||||
| ICNC2024-1386 |
Soret effect modelling in flamelet-based LES with presumed FDF for lean premixed hydrogen flames Alessandro Porcarelli, Gioele Ferrante, Ivan Langella (Delft University of Technology, Netherlands) |
||||||||
| ICNC2024-1504 |
Modelling of Spark Ignition Process in High-speed Turbulent Flows using Large Eddy Simulation Based on Strained Flamelet Generated Method Fangsi Ren, Shinji Nakaya, Mitsuhiro Tsue (the University of Tokyo, Japan) |
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| Room E | |||||||||
Track02-2. Kinetics, mechanism reduction (2)
|
|||||||||
| ICNC2024-1032 |
Development of a Kinetic Mechanism for Ammonia blended Combustion Applications in CI Engines and Gas Turbines Sayak Banerjee, Raja Banerjee, Dinesh Prabhakaran (Indian Institute of Technology Hyderabad, India) |
||||||||
| ICNC2024-1347 |
A skeletal chemical kinetic mechanism for ammonia-kerosene oxidation in air Vijrumbana Yempally, Vanteru Mahendra Reddy (Indian Institute of Technology Kharagpur, India) |
||||||||
| ICNC2024-1607 |
Developing an Ionic Mechanism for Numerical Modeling of Ion Currents in Ammonia-Air Flames Dhaminda Hewavitarane, Sadami Yoshiyama, Ryo Kudo, Boseok Jeong (The University of Kitakyushu, Japan), Mitsuhiro Izumi, Tsutomu Kusuhara (Diamond & Zebra Electric Mfg. Co. Ltd, Japan) |
||||||||
| ICNC2024-1269 |
Simplified chemical reaction model and its application in combustion and detonation Yuanxiang Sun (Beijing Institute of Technology, China) |
||||||||
Track10-4. Detonation, explosions (4)
|
|||||||||
| ICNC2024-1186 |
Continuum Modeling of Steady 1-D and 2-D Detonation Wave Propagation in Porous High Explosives Joshua Garno, Mark Short, Carlos Chiquete, Stephen Voelkel (Los Alamos National Laboratory, United States) |
||||||||
| ICNC2024-1194 |
Dynamics of Jet-Stabilized Detonation Waves Calvin Colby, Alexei Poludnenko, Sai Sandeep Dammati (University of Connecticut, United States) |
||||||||
| ICNC2024-1223 |
Flow characteristics of oblique detonation wave/boundary layer interactions under a hypersonic reactive flow Jie Sun (Peking University, China), Pengfei Yang (Institute of Mechanics, Chinese Academy of Sciences, China), Zheng Chen (Peking University, China) |
||||||||
| ICNC2024-1304 |
Detonation Cell Size Prediction with Artificial Neural Networks and Non-Dimensional Features Georgios Bakalis, Hoi Dick Ng (Concordia University, Canada) |
||||||||
| ICNC2024-1329 |
Modulation of the Unstable Cellular Detonation Structure with Microplates Georgios Bakalis, Chian Yan (Concordia University, Canada), Kelsey Tang-Yuk (McGill University, Canada), Hoi Dick Ng (Concordia University, Canada), Xiaocheng Mi (Eindhoven University of Technology, Netherlands) |
||||||||
| ICNC2024-1443 |
What controls the cell size in gaseous detonations? Abeetath Ghosh, Sandeep Dammati, Alexei Poludnenko (University of Connecticut, United States) |
||||||||
Track10-5. Detonation, explosions (5)
|
|||||||||
| ICNC2024-1079 |
Influence of SGS combustion models in LES of methane-air deflagration Mahesh Somasani, Vagesh D. Narasimhamurthy (Indian Institute of Technology Madras, India), Trygve Skjold (UNIVERSITY OF BERGEN, Norway) |
||||||||
| ICNC2024-1094 |
Numerical Modeling a Polymer-bonded Explosive Frictionally Heated by an Ultrasonic Horn. Kibaek Lee (Florida Institute of Technology, United States), Alberto Hernández (Torch Technologies, United States), D. Scott Stewart (University of Florida, United States) |
||||||||
| ICNC2024-1312 |
DDT as a Hopf bifurcation Luc Bauwens (University of Calgary, Canada), Josue Melguizo-Gavilanes (Shell, Netherlands) |
||||||||
| ICNC2024-1319 |
Effects of vitiation and thermal boundary conditions on flame acceleration in microchannels: A numerical study Suryanarayan Ramachandran, Navneeth Srinivasan (University of Minnesota, Twin Cities, United States), Zhiyan Wang, Arsam Behkish (ExxonMobil Technology and Engineering Company, United States), Suo Yang (University of Minnesota, Twin Cities, United States) |
||||||||
| ICNC2024-1429 |
A computational singular perturbation-based assessment of chemical models for two-dimensional hydrogen detonation simulations Vigneshwaran Sankar, Karl P Chatelain (King Abdullah Unibersity of Science and Technology, Saudi Arabia), Rémy Mével (Tsinghua University, China), Deanna A Lacoste (King Abdullah Unibersity of Science and Technology, Saudi Arabia) |
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| Room F | |||||||||
Track15-4. Numerical methods for reacting flows (4)
|
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| ICNC2024-1115 |
Dual-scale flamelet tabulation using the multi-gate mixture of experts Xinzhou Tang, Yicun Wang, Jiangkuan Xing, Ruipeng Cai, Kun Luo, Jianren Fan (Zhejiang University, China) |
||||||||
| ICNC2024-1357 |
On the impact of scalar boundedness in high-order LES of a nonpremixed jet flame Ye Wang (The University of New South Wales, Australia), Armin Wehrfritz (University of Turku, Finland), Evatt R. Hawkes (The University of New South Wales, Australia) |
||||||||
| ICNC2024-1460 |
Modelling of Turbulent Non-premixed Blend of NH3/H2/CH4 in a Jet Flame Using Flamelet Model Richie Shaji Mathew, Dinesh Prabhakaran, Sayak Banerjee, Raja Banerjee (Indian Institution of Technology Hyderabad, India) |
||||||||
| ICNC2024-1596 |
Large-Eddy Simulation of Nanoparticle Synthesis in Turbulent Spray Flames Using a Lagrangian FDF Approach with Different Mixing Models Amir Karimi Noughabi, Seung-Jin Baik, Irenäus Wlokas, Andreas Kempf (University of Duisburg-Essen, Germany) |
||||||||
| ICNC2024-1267 |
Robust dynamic stencil construction for high-order Adaptive Mesh Refinement in Direct Numerical Simulation of combustion Stewart Cant (University of Cambridge, United Kingdom), Umair Ahmed (Newcastle University, United Kingdom) |
||||||||
Track15-5. Numerical methods for reacting flows (5)
|
|||||||||
| ICNC2024-1179 |
A high-order compressible Eulerian stochastic fields solver based on AMReX Tin-Hang Un, Salvador Navarro-Martinez (Imperial College London, United Kingdom) |
||||||||
| ICNC2024-1241 |
Bayesian optimization of in-situ adaptive tabulation for marine diesel engine CFD simulations Daniel Virokannas (Aalto University, Finland), Bulut Tekgul, Èric Lendormy (Wärtsilä Finland, Finland), Ville Vuorinen (Aalto University, Finland) |
||||||||
| ICNC2024-1394 |
Adjoint-based numerical and experimental data assimilation for shock-tube ignition delay predictions Katherine R Pielemeier, Conrad Delgado, Jonathan MacArt (University of Notre Dame, United States) |
||||||||
| ICNC2024-1437 |
Development of a New Library in OpenFOAM for Simulations of Reacting Flows with Surface Reactions Danh Nam Nguyen, Jae Hun Lee (Ulsan National Institute of Science and Technology, Korea), Hae Won Seo, Hyung Jun Ahn (Hydrogen and Low Carbon Energy R&D Lab, POSCO Holdings, Korea), Chun Sang Yoo (Ulsan National Institute of Science and Technology, Korea) |
||||||||
| ICNC2024-1214 |
Explicit filtering LES of turbulent lifted jet flames with a multi-regime combustion model Anindya Datta, Santosh Hemchandra (Indian Institute of Science, India) |
||||||||
Track15-6. Numerical methods for reacting flows (6)
|
|||||||||
| ICNC2024-1210 |
Numerical Analysis of Hydrogen Microjet Flames Ali Cemal Benim (Düsseldorf University of Applied Sciences, Germany) |
||||||||
| ICNC2024-1379 |
Application of a reduced chemical mechanism for combustion in vitiated air conditions in RANS simulations Daria Burot (Safran Aircraft Engines, France) |
||||||||
| ICNC2024-1381 |
Acceleration of multidimensional simulations with detailed kinetics via Chemistry Agglomeration Alberto Cuoci (Politecnico di Milano, Italy), Temistocle Grenga (University of Southampton, United Kingdom) |
||||||||
| ICNC2024-1420 |
Effects of radiation- and combustor-wall boundary condition on LES of turbulent combustion Björn Jarfors, Alessandro Ercole, Christer Fureby (Lund University, Sweden) |
||||||||
| ICNC2024-1474 |
Numerical Investigation on the Effect of H2 Enrichment in Jet-A1 Fuel Combustion in Steam Diluted Environments Mani Bhusan Rajguru Mohapatro (Indian Institute of Technology Kharagpur, India), Anand Shankar Singh (Indian Institute of Technology Bombay, India), Debojit Sharma, Reddy Mahendra Vanteru (Indian Institute of Technology Kharagpur, India) |
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| Room G | |||||||||
MS07-1. Computational Tools for Detonation-Driven Propulsion Physics (1)
|
|||||||||
| ICNC2024-1328 |
Numerical Analysis of the Characteristic Chemical Time-scale in a C2H4/O2 Non-premixed Rotating Detonation Engine Jeong-Yeol Choi, Mohammedniyasdeen Nejaamtheen (Pusan National University, Korea) |
||||||||
| ICNC2024-1301 |
Lagrangian Particle Analysis of Detonations in Stratified Reactant Mixtures Michael Ullman, Ral Bielawski, Venkat Raman (University of Michigan, United States) |
||||||||
| ICNC2024-1538 |
Two-dimensional Numerical Simulation on Dimethyl Ether / Oxygen Premixture Detonation in a Narrow Channel Using Reduced Chemical Reaction Model: Effects of Numerical Accuracy on Formation of Cellular Sub-Structure Nobuyuki Tsuboi, Daiki Kubota (Kyushu Institute of Technology, Japan), A. Koichi Hayashi (Aoyama Gakuin University, Japan) |
||||||||
| ICNC2024-1330 |
Massless-tracer analysis of detonation-turbulence interaction in non-diluted stoichiometric hydrogen/oxygen mixture: a DNS study Sou Suzuki, Kazuya Iwata (Kyoto University, Japan), Reo Kai (Kyushu University, Japan), Ryoichi Kurose (Kyoto University, Japan) |
||||||||
| ICNC2024-1252 |
LES simulation of Tangential-mode Combustion Instability in the Rocket Combustor with Multiple Impinging-type Injectors Bu-Kyeng Sung, Jeong-Yeol Choi (Pusan National University, Korea) |
||||||||
| ICNC2024-1550 |
Numerical Analysis on Pressure Gain Combustion of Radial-Rotating Detonation Engine A. Koichi Hayashi (Aoyama Gakuin University, Japan), Takumi Ito, Nobuyuki Tsuboi, Kohei Ozawa (Kyushu Institute of Technology, Japan), Yuta Otsuka, Kazuhiro Ishii (Yokohama National University, Japan) |
||||||||
MS07-2. Computational Tools for Detonation-Driven Propulsion Physics (2)
|
|||||||||
| ICNC2024-1577 |
3D Evaluation of H2-Air Non-Premixed Gas Injection Ports Number on Flow Field in Disk RDE Takumi Ito, Nobuyuki Tsuboi, Kouhei Ozawa (Kyushu Institute of Technology, Japan), Koichi A Hayashi (Aoyama Gakuin University, Japan) |
||||||||
| ICNC2024-1219 |
LES Modeling and Analysis of Flow and Combustion Dynamics in a Hydrogen-air Rotating Detonation Engine Coupled with Diverging Nozzle and Turbine Stator Blades Pinaki Pal (Argonne National Laboratory, United States) |
||||||||
| ICNC2024-1482 |
Numerical Investigation of the Interaction between the Exhaust Flow of Reflective Shuttling Detonation Combustor and Supersonic Turbulent Flow Moeno Miyashita, Akiko Matsuo, Eiji Shima (Keio University, Japan), Noboru Itouyama (Nagoya University, Japan), Akira Kawasaki (Shizuoka University, Japan), Ken Matsuoka, Jiro Kasahara (Nagoya University, Japan) |
||||||||
| ICNC2024-1495 |
Numerical Consideration to Geometry of Diverging Rotating Detonation Engine Takumi Sada, Akiko Matsuo, Eiji Shima (Keio University, Japan), Noboru Itouyama (Nagoya University, Japan), Akira Kawasaki (Shizuoka University, Japan), Ken Matsuoka, Jiro Kasahara (Nagoya University, Japan) |
||||||||
| ICNC2024-1426 |
A low-dimensional modeling approach to acceleration of an internal flow of a rotating detonation engine Kotaro Nakata, Noboru Itouyama, Ken Matsuoka, Jiro Kasahara (Nagoya University, Japan), Akira Kawasaki (Shizuoka University, Japan), Hiroaki Watanabe (École nationale supérieure de mécanique et d'aérotechnique, France), Akiko Matsuo (Keio University, Japan), Ikkoh Funaki (Institute of Space and Astronautical Science, Japan), Kazuyuki Higashino (Nets Co., Ltd., Japan) |
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Track06-2. Emissions and pollution (2)
|
|||||||||
| ICNC2024-1151 |
Effect of oxygenates on soot formation during the combustion of fuel-rich CH4 mixtures Mustapha Fikri (Institute for Energy and Materials Processes – Reactive Fluids, University of Duisburg-Essen, Germany) |
||||||||
| ICNC2024-1211 |
Chemical Effects of Ammonia Addition on Soot Formation and Evolution in Ethylene Diffusion Flames: a Numerical Study and Updated Chemical Mechanisms Tongtong Yan, Zhiwei Zhao (Shanghai Jiao Tong University, China), Dezhi Zhou (UM-SJTU Joint Institute, Shanghai Jiao Tong University, China) |
||||||||
| ICNC2024-1276 |
Modal analysis of flow dynamics and soot evolution in an aero-engine model Jinbo Cheng, Yihao Tang, Wang Han, Lijun Yang (BeiHang University, China) |
||||||||
| ICNC2024-1414 |
Numerical Computation of Sooting Flames with a New Soot Fusing Model Daniel O'Sullivan (Imperial College London, United Kingdom), Russel Bertrum, JR. Diemer (University of Delaware, United States), Stelios Rigopoulos (Imperial College London, United Kingdom) |
||||||||
| ICNC2024-1605 |
An LES-PDF-DPBE method for the flow dynamics and soot formationin in an aero-engine model combustor: an insight into the soot micromixing requency Anxiong Liu, Kun Luo (Zhejiang University, China) |
||||||||
| ICNC2024-1547 |
NUMERICAL INVESTIGATION ON THE FUEL FLEXIBILITY OF A TYPICAL AERO-ENGINE SWIRL-STABILIZED FLAME Pierre Vauquelin, Bora Cakir, Christer Fureby, Xue-Song Bai, Mattias Richter, Arman Ahamed Subash, David Sanned, Megha Prakash (Lund University, Sweden) |
||||||||
| ICNC2024-1231 |
Novel multiscale modeling methodology for chemical kinetic modeling of fuel oxidation using atomistic calculations: Application towards hydrogen combustion Bhuvan Raj Maddipati, Aditya Konduri, Phani Sudheer Motamarri (Indian Institute of Science, Bengaluru, India) |
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| Room H | |||||||||
MS18. Data-driven tools for HPC simulations of e-fuels combustion
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| ICNC2024-1235 |
A workflow for the semidetailed modeling of complex e-fuels: application to oxymethylene ethers Alessandro Stagni, Timoteo Dinelli, Alessandro Pegurri (Politecnico di Milano, Italy), Andrea Bertolino, Alessandro Parente (Université Libre de Bruxelles, Belgium), Marco Mehl, Tiziano Faravelli (Politecnico di Milano, Italy) |
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| ICNC2024-1299 |
Leveraging data assimilation techniques to integrate experimental and synthetic measurements in the kinetic mechanisms of e-fuels Timoteo Dinelli (Stanford University, United States), Tiziano Faravelli, Alessandro Stagni (Politecnico di Milano, Italy), Matthias Ihme (Stanford University, United States) |
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| ICNC2024-1513 |
A latent variable transport framework for reacting flows Eva Muñoz (Université Libre de Bruxelles, Belgium), Mohammad Rafi Malik (Brussels Institute for Thermal-fluid systems and clean Energy (BRITE), ULB and VUB, Belgium), Hong G. Im (CCRC, Physical Science and Engineering, King Abdullah University of Science and Technology (KAUST), Saudi Arabia), Alessandro Parente (Université Libre de Bruxelles, Belgium) |
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| ICNC2024-1491 |
Evaluation of Neural Network Performance for Chemistry Closure through Domain Decomposition T.jeremy Karpowski (TU Darmstadt, Germany), Federica Ferraro (TU Braunschweig, Germany), Arne Scholtissek, Christian Hasse (TU Darmstadt, STFS, Germany) |
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| ICNC2024-1595 |
Analysis of flamelet-based manifolds for turbulent H2-flames subject to thermo-diffusive instabilities Hannes Böttler, Driss Kaddar, Jeremy Karpowski (Technische Universität Darmstadt, Germany), Federica Ferraro (Technische Universität Braunschweig, Germany), Arne Scholtissek, Hendrik Nicolai, Christian Hasse (Technische Universität Darmstadt, Germany) |
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| ICNC2024-1501 |
A universal LES subfilter model based on AI super-resolution and application to hydrogen flames Mathis Bode (Forschungszentrum Jülich GmbH, Germany), Bogdan Danciu, Christos Frouzakis (ETH Zuerich, Switzerland) |
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MS13-1. Advances in dimensionality reduction and manifold learning for the parametrization and modeling of large combustion systems (1)
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| ICNC2024-1496 |
Dynamic Mode Decomposition analysis of premixed flames Temistocle Grenga (University of Southampton , United Kingdom), Antonio Attili (The University of Edinburgh, United Kingdom) |
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| ICNC2024-1050 |
Vector Quantization Partial Least Square (VQPLS) for enhanced semi-supervised clustering for combustion manifold regression Matteo Savarese (Universite Libre de Bruxelles, Belgium), Rafi Malik (King Abdullah University of Science and Technology, Saudi Arabia), Himanshu Dave, Alessandro Parente (Universite Libre de Bruxelles, Belgium) |
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| ICNC2024-1391 |
Application of In-Situ Adaptive Manifolds (ISAM) for the study of highly stratified multi-regime flames Anurag Surapaneni (Barcelona Supercomputing Center, Spain) |
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| ICNC2024-1582 |
On-the-fly reduced-order modeling of large combustion systems leveraging time-dependent bases with CUR decomposition Ki Sung Jung, Cristian Lacey (Sandia National Laboratories, United States), Hessam Babaee (University of Pittsburgh, United States), Jacqueline Chen (Sandia National Laboratories, United States) |
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| ICNC2024-1354 |
Understanding the role of latent variables in accelerated integration of stiff chemical systems using autoencoders Vijayamanikandan Vijayarangan, Harshavardhana A Uranakara, Francisco E Hernández Pérez, Hong G Im (King Abdullah University of Science and Technology, Saudi Arabia) |
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| ICNC2024-1479 |
Effect of Parametric Uncertainty in Numerical Simulations Using Dimensionality Reduction and Non-linear Regression: Application to a Hydrogen-Fueled Flameless Combustion Furnace Ruggero Amaduzzi (Univeristé Libre de Bruxelles, Belgium) |
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MS13-2. Advances in dimensionality reduction and manifold learning for the parametrization and modeling of large combustion systems (2)
|
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| ICNC2024-1310 |
Generalized progress variable and cross-dissipation rate in turbulent lifted flames using a multi-modal manifold-based combustion model Israel Joseph Bonilla (Princeton University, United States), Cristian E. Lacey (Sandia National Laboratories, United States), Michael E. Mueller (Princeton University, United States) |
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| ICNC2024-1262 |
Dynamic Cell Clustering with Principal Component Analysis for massively parallel multi-regime reactive flows Antoine Stock, Vincent Moureau (COmplexe de Recherche Interprofessionnel en Aérothermochimie, France), Julien Leparoux, Renaud Mercier (Safran Tech, France) |
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| ICNC2024-1502 |
JuLES: A Data-Driven Framework for Subfilter Model Development of Reactive Flows on Supercomputers at Scale Mathis Bode (Forschungszentrum Jülich GmbH, Germany) |
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| ICNC2024-1572 |
A Co-kurtosis PCA based Dimensionality Reduction for Chemical Kinetics: A-Posteriori Analysis Shiva Sai Tadikonda (Indian Institute of Science, India), Hemanth Kolla (Sandia National Laboratories, United States), Aditya Konduri (Indian Institute of Science, India) |
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| ICNC2024-1254 |
Effects of combustor wall temperature on the low-temperature chemistry in turbulent premixed DME/air swirl flames Wenjun Lin (Xi'an jiaotong University, China), Zhenhua An (Kyoto University, Japan), Weijie Zhang, Jinhua Wang, Zuohua Huang (Xi'an Jiaotong University, China), Huangwei Zhang (National University of Singapore, Singapore) |
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| Room I | |||||||||
Track11-4. Gas turbines, engines and furnaces (4)
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| ICNC2024-1298 |
Prediction of heat release and wall heat transfer in a scramjet combustor via Pareto-efficient combustion modeling Matthew Bonanni (Stanford University, United States), Andrew Norris (NASA Langley Research Center, United States), Matthias Ihme (Stanford University, United States) |
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| ICNC2024-1410 |
Numerical modelling of combustion stability prediction in a dual mode ramjet with a cavity flameholder Mehdi Riis, Alessandro Piscopo, Alessandro Parente, Axel Coussement (Université libre de Bruxelles, Belgium) |
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| ICNC2024-1514 |
NOx Formation Analysis Applying Clustering Method using Adversarial Autoencoder to numerical results on Hydrogen-Rich Ram Combustion with LES Kotaro Nakayama, Koichi Omi (Department of Aeronautics and Astronautics, The University of Tokyo, Japan), Hideyuki Taguchi (Japan Aerospace Exploration Agency, Japan), Kengo Takizawa, Shinji Nakaya, Mitsuhiro Tsue (Department of Aeronautics and Astronautics, The University of Tokyo, Japan) |
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| ICNC2024-1560 |
Wavelet optical flow velocimetry of a scramjet combustor using high-speed frame-straddling focusing schlieren images Bo Zhou (Southern University Of Science And Technology, China) |
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| ICNC2024-1057 |
A Bayesian optimization framework for the control of combustion instability of a bluff-body stabilized combustor Changxiao Shao (Harbin Institute of Technology, Shenzhen, China) |
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| ICNC2024-1507 |
Investigation of the simple CFD methods to predict the flame holder flow field of the hypersonic jet engines Kotaro Iguchi, Hideki Moriai (Kanazawa Institute of Technology, Japan) |
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Track12-2. Fires (2)
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| ICNC2024-1182 |
Numerical study of pyrolysis, flaming and smoldering of wildland fuels using detailed kinetics coupled with a multi-region single-particle model Mohamed M Ahmed, Chiara Saggese (Lawrence Livermore National Laboratory, United States) |
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| ICNC2024-1200 |
A model for fire growth and suppression of thin melting plastics in FireFOAM Alex Krisman (FM Global, Australia) |
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| ICNC2024-1247 |
Numerical Simulation of Flame Spread on an Inclined Thin Paper using the Fire Dynamics Simulator (FDS) Shinnosuke Nishiki (Teikyo University, Japan) |
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| ICNC2024-1464 |
Numerical Investigation on the Effects of Char Oxidation in Near-limit Flame Spread over a Solid Fuel in Microgravity Arvind Bharath S R (Indian Institute of Technology Madras, India), Praveen Kumar B (Seimens Technology and Services Pvt Ltd, India, India), Kambam Naresh, Amit Kumar (Indian Institute of Technology Madras, India) |
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Track12-3. Fires (3)
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| ICNC2024-1462 |
Role of Numerical Combustion for Improved Understanding of Wildland-Urban Interface (WUI) Fires Samuel L. Manzello (Tohoku University, Japan and Reax Engineering, USA, Japan), Sayaka Suzuki (Tokyo Institute of Technology, Japan) |
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| ICNC2024-1509 |
CFD analysis of tunnel fire under rainfall using species-transport and discrete phase model Dia Luan (Central South University, China), Jakub Bielawski (Building Research Institute, Poland), Xinyan Huang ( The Hong Kong Polytechnic University, China), Chuangang Fan (Central South University, China) |
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| ICNC2024-1618 |
Canceled |
||||||||
| ICNC2024-1505 |
AI-based fire smoke simulation for buildings with complex geometry Yanfu Zeng, Tianhang Zhang, Zilong Wang, Xinyan Huang (The Hong Kong Polytechnic University, Hong Kong) |
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| ICNC2024-1554 |
Linking Real Fires to Numerical Simulations with Image-Based Flame Identification Zilong Wang (The Hong Kong Polytechnic University, Hong Kong), Caiyi Xiong (South China University of Technology, Guangzhou, China, China), Xinyan Huang (The Hong Kong Polytechnic University, Hong Kong) |
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| Room J | |||||||||
MS04. Linearized Modelling of Flame Dynamics
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| ICNC2024-1011 |
On the importance of turbulence modelling in a linear mean field analysis of turbulent flame configurations Thomas Ludwig Kaiser (Technical University Berlin, Germany), Thorsten Zirwes (Universität Stuttgart, Germany), Feichi Zhang (Karlsruhe Institute of Technology, Germany), Kilian Oberleithner (Technical University Berlin, Germany) |
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| ICNC2024-1289 |
Tri-Global stability analysis of reacting, swirling flows Parth Patki, Benjamin Emerson, Vishal Acharya, Timothy Lieuwen (Georgia Institute of Technology, United States) |
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| ICNC2024-1218 |
Identifying flame response mechanisms in a swirl-stabilised combustor using multi-layer networks Vivek Thazhathattil, Anindya Datta, Saarthak Gupta, Santosh Hemchandra (Indian Institute of Science, India) |
||||||||
| ICNC2024-1290 |
Structural sensitivity analysis to identify driving flow regions of intrinsic thermoacoustic instabilities Philipp Brokof, Grégoire Varillon, Wolfgang Polifke (Technical University of Munich, Germany) |
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| ICNC2024-1072 |
Subcritical bifurcation of a premixed annular V-flame Chuhan Wang (Tsinghua University, China), Lutz Lesshafft (CNRS, Ecole Polytechnique, Institut Polytechnique de Paris, United States), Christopher Douglas (Massachusetts Institute of Technology, United States), Chun-Xiao Xu (Tsinghua University, China) |
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Track02-3. Kinetics, mechanism reduction (3)
|
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| ICNC2024-1012 |
On the kinetics of oxidation of n-butane at high-pressure Philippe Dagaut, Guillaume Dayma (Centre National de la Recherche Scientifique, France) |
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| ICNC2024-1555 |
Effect of Oxygen Enrichment on the Combustion and Emission Characteristics of Premixed n-Butane/Air Flames Debojit Sharma (Indian Institute of Technology, Kharagpur, India), Mani Bhusan Rajguru Mohapatro (Indian Institute of Technology Kharagpur, India), Vanteru Mahendra Reddy (Indian Institute of Technology, Kharagpur, India) |
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| ICNC2024-1584 |
Reduced models for the methane-hydrogen air systems using Reaction Diffusion Manifolds accounting for differential diffusion Sudhi Shashidharan, Viatcheslav Bykov, Ulrich Maas (Karlsruhe Institute of Technology, Germany) |
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| ICNC2024-1018 |
A ethanol reduced mechanism using real gas equation of state and its application in virtual chemistry Paulo Vitor Ribeiro Plácido, Henrique Beneduzzi Mantovani, Rogério Gonçalves Dos Santos (Universidade Estadual de Campinas, Brazil), Dario Alviso (Facultad de Ingeniería, Universidad de Buenos Aires/CONICET, Argentina) |
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| ICNC2024-1324 |
A two-step virtual optimized kinetic mechanism for butanol from a newly developed detailed mechanism for alcohol fuels Henrique Beneduzzi Mantovani, Rogério Gonçalves Dos Santos (University of Campinas, Brazil) |
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| Room K | |||||||||
MS02-1. Direct numerical simulations, analysis, and modeling of premixed hydrogen flames (1)
|
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| ICNC2024-1114 |
Thermodiffusively-unstable lean premixed hydrogen flames: Length scale effects and turbulent flame speed modelling E. F. Hunt, A. J. Aspden (Newcastle University, United Kingdom) |
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| ICNC2024-1248 |
DNS of a hydrogen flame interacting with homogeneous isotropic turbulence maintained by a deterministic force Yifan Xu (Peking University, China), Jian Fang (Science and Technology Facilities Council, United Kingdom), Zhen Lu (Peking University, China), Xiaojun Gu (Science and Technology Facilities Council, United Kingdom), Zhi X. Chen (Peking University, China) |
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| ICNC2024-1441 |
Effects of Reynolds number on thermodiffusive flame instabilities: Direct numerical simulations of turbulent lean hydrogen jet flames Michael Gauding, Thomas Howarth, Lukas Berger, Heinz Pitsch (RWTH Aachen University, Germany) |
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| ICNC2024-1569 |
Direct Numerical Simulation of a Lean-Premixed Turbulent Swirling Hydrogen Flame Abhishek Lakshman Pillai (Kyoto University, Japan), Umair Ahmed, Nilanjan Chakraborty (Newcastle University, United Kingdom), Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1212 |
DNS study of turbulent boundary layer flashback in parallel channel for lean hydrogen-air premixed flame Reo Kai (Kyushu University, Japan), Kotaro Yada, Kazuhiro Kinuta (Kyoto University, Japan), Hiroaki Watanabe (Kyushu University, Japan), Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1521 |
DNS of a laboratory lean CH4/H2 low-swirl flame impinging on an inclined wall Mohammadreza Nozari, Olivier Chabot (Polytechnique Montréal, Canada), Sandeep Jella (Siemens Energy Canada Limited, Canada), Martin Vabre (Polytechnique Montréal, Canada), Luming Fan (National Research Council Canada, Canada), Marc Day (National Renewable Energy Laboratory, Canada), Patrizio Vena (National Research Council Canada, Canada), Lucas Esclapez (National Renewable Energy Laboratory, United States), Bruno Savard (Polytechnique Montréal, Canada) |
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MS02-2. Direct numerical simulations, analysis, and modeling of premixed hydrogen flames (2)
|
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| ICNC2024-1419 |
DNS on flame structure and species distribution of a partially premixed steam-diluted oxygen/hydrogen combustion with inclining impinging jets geometry Shan Jiang, Ye Wang (Tokyo Institute of Technology, Japan), Masayasu Shimura (National Institute of Advanced Industrial Science and Technology, Japan), Mamoru Tanahashi (Tokyo Institute of Technology, Japan) |
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| ICNC2024-1415 |
Near-wall dynamics of V-shape hydrogen-air flame in a turbulent channel flow Ye Wang, Mamoru Tanahashi (Tokyo Institute of Technology, Japan) |
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| ICNC2024-1580 |
Inducing Spiky Flame Fronts in Lean Hydrogen Flames through Expansion Waves Samir Boset Rojas Chavez (King Abdullah University of Science and Technology, Saudi Arabia), Hongxia Yang, Kevin Cheevers (University of Ottawa, Canada), Deanna Lacoste (King Abdullah University of Science and Technology, Saudi Arabia), Matei Radulescu (University of Ottawa, Canada) |
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| ICNC2024-1480 |
On the behaviour of Reynolds stresses and their dissipation rates during boundary layer flashback of a rich hydrogen-air premixed flame within a turbulent channel flow Umair Ahmed (Newcastle Univeristy, United Kingdom), Abhishek Pillai (Kyoto University, Japan), Nilanjan Chakraborty (Newcastle University, United Kingdom), Ryoichi Kurose (Kyoto Univeristy, Japan) |
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| ICNC2024-1401 |
Impact of the Soret Effect on the Thermodiffusive Instability in Hydrogen Flames Sofiane Al Kassar, Ollie Moore, William Lauder (The University of Edinburgh, United Kingdom), Lukas Berger, Heinz Pitsch (RWTH Aachen University, Germany), Antonio Attili (The University of Edinburgh, United Kingdom) |
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| ICNC2024-1376 |
Analysis of thermodiffusive fluxes in hydrogen premixed flames using flamelet generated manifolds Emiliano M. Fortes, Eduardo J. Pérez-Sánchez, Ambrus Both (Barcelona Supercomputing Center , Spain), Temistocle Grenga (University of Southampton, United Kingdom), Daniel Mira (Barcelona Supercomputing Center , Spain) |
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MS02-3. Direct numerical simulations, analysis, and modeling of premixed hydrogen flames (3)
|
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| ICNC2024-1154 |
Data-driven modeling of thermo-diffusively unstable hydrogen-air flames Pasquale Eduardo Lapenna, Arianna Remiddi, Francesco D'Alessio (Sapienza University of Rome , Italy), Guido Troiani (ENEA Research Center, Italy), Francesco Creta (Sapienza University of Rome , Italy) |
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| ICNC2024-1021 |
Modelling of Turbulent Boundary Layer Flashback of a Lean Premixed Hydrogen Flame with Large Eddy Simulation and Flamelet Generated Manifolds Including Preferential Diffusion Stijn Schepers, Rob Bastiaans, Roy Hermanns, Jeroen Van Oijen (Eindhoven University of Technology, Netherlands) |
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| ICNC2024-1108 |
Flamelet Generated Manifolds for lean premixed turbulent hydrogen flames Gabriela Sanchez, Jeroen Van Oijen (Eindhoven University of Technology, Netherlands) |
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| ICNC2024-1124 |
Filtered tabulated chemistry for multi-regime hydrogen combustion Samuel Dillon (EM2C Laboratory, CNRS, CentraleSupélec, Université Paris-Saclay, France), Renaud Mercier (Safran Tech, Digital Sciences & Technologies Department, France), Benoît Fiorina (EM2C Laboratory, CNRS, CentraleSupélec, Université Paris-Saclay, France) |
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| ICNC2024-1172 |
Manifold-based modeling for differential diffusion in turbulent premixed lean hydrogen flames Katie VanderKam, Sydney Rzepka, Michael E Mueller (Princeton University, United States) |
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| ICNC2024-1171 |
Response of two-dimensional lean hydrogen-air laminar premixed flames to acoustic oscillations Frederick William Young, Umair Ahmed, Nilanjan Chakraborty (Newcastle University, United Kingdom) |
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| ICNC2024-1291 |
Propagation characteristics of lean turbulent premixed ammonia-hydrogen flames Ruslan Khamedov, Mohammad Rafi Malik, Francisco E. Hernández Pérez, Hong G. Im (King Abdullah University of Science and Technology, Saudi Arabia) |
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| Room L | |||||||||
MS19. Tabulation Methods for Homogeneous and Heterogeneous Reacting Flow: Machine Learning and Other Approaches
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| ICNC2024-1421 |
Machine Learning Tabulation of Chemical Kinetics for Turbulent Combustion Simulations Stelios Rigopoulos, Thomas Readshaw, Tianjie Ding, William Philip Jones (Imperial College London, United Kingdom) |
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| ICNC2024-1065 |
Criteria to switch from tabulation to neural networks in computational combustion Zacharias Nikolaou, Luc Vervisch (INSA ROUEN NORMANDY, France), Pascale Domingo (CNRS , France) |
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| ICNC2024-1152 |
Classification of thermochemical states in turbulent premixed combustion using autoencoder neural networks Cheng Chi, Pascal Bock, Gabor Janiga, Dominique Thévenin (Otto-von-Guericke University Magdeburg, Germany) |
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| ICNC2024-1153 |
Harnessing a reduced order representation to solve the spatially inhomogeneous population balance equation Fabian Sewerin (Otto von Guericke University Magdeburg, Germany) |
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| ICNC2024-1161 |
Modeling of Turbulent Reactive Flows Using a Self-Learning Reduced Order Model Kai Niemietz (RWTH Aachen University, Germany), Clément Scherding (Sorbonne University, France), Walter Gemassmer (RWTH Aachen University, Germany), Taraneh Sayadi (CNAM, France), Heinz Pitsch (RWTH Aachen University, Germany) |
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| ICNC2024-1175 |
Data driven modelling of sub-grid micro-mixing for PDF methods Salvador Navarro-Martinez, Tin-Hang Un (Imperial College London, United Kingdom) |
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| ICNC2024-1288 |
Evaluation of Breakpoint Optimization Procedure for High dimensional Flamelet Tables Himeko Yamamoto, Takanori Haga (Japan Aerospace Exploration Agency, Japan) |
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MS17-1. Machine learning techniques for reacting flow simulation and analysis (1)
|
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| ICNC2024-1005 |
Data-driven identification of precursors of extreme events in reacting flows Mihnea Khoa Floris (Delft University of Technology, Netherlands), Tadikonda Shiva Sai Sai, Dibyajyoti Nayak (Indian Institute of Science, India), Ivan Langella (Delft University of Technology, Netherlands), Konduri Aditya (Indian Institute of Science, India), Nguyen Anh Khoa Doan (Delft University of Technology, Netherlands) |
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| ICNC2024-1412 |
Synchronized state and formation mechanism of spray combustion oscillations in a backstepped combustor Kenta Kato, Hiroyuki Hashiba (Tokyo University of Science, Japan), Jun Nagao (Kyoto University, Japan), Hiroshi Gotoda, Yusuke Nabae (Tokyo University of Science, Japan), Ryoichi Kurose (Kyoto University, Japan) |
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| ICNC2024-1180 |
Probabilistic Machine Learning for Data-Based Flame Dynamics Modeling Axel Zimmermann, Alexander J. Eder, Camilo F. Silva, Wolfgang Polifke (Technical University of Munich, Germany) |
||||||||
| ICNC2024-1039 |
Data assimilation for reacting flows: Deep learning PDE models to augment turbulent combustion simulations Priyesh Rajesh Kakka, Jonathan F MacArt (University of Notre Dame, United States) |
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| ICNC2024-1400 |
A Probabilistic Framework for Data Assimilation of Reacting Dynamical Systems using a Gaussian Process Regression-based Reduced-Order Model and Sparse Measurements Alberto Procacci, Salvatore Iavarone, Laura Donato, Axel Coussement, Alessandro Parente (Université Libre de Bruxelles, Belgium) |
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| ICNC2024-1073 |
Turbulence Fine-scale Reconstruction Using Learning Techniques Andreas H Rauch, Anthony Carreon, Venkat Raman (University of Michigan, United States) |
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MS17-2. Machine learning techniques for reacting flow simulation and analysis (2)
|
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| ICNC2024-1047 |
A Dynamic Data-Driven Mixed Model for the Subgrid-Scale Stress Tensor and Scalar Fluxes in Large-Eddy Simulation of Turbulent Lean Hydrogen Flames Ludovico Nista, Fabian Fröde (RWTH Aachen University, Germany), Temistocle Grenga (University of Southampton, United Kingdom), Jonathan F. MacArt (University of Notre Dame, United States), Antonio Attili (University of Edinburgh, United Kingdom), Heinz Pitsch (RWTH Aachen University, Germany) |
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| ICNC2024-1066 |
Large-Eddy Simulation of flameless combustion with neural-network driven chemistry Luc Vervisch (INSA ROUEN NORMANDY, France), Huu-Tri Nguyen (Verallia , France), Camille Barnaud (Ariane Group, France), Danh Nguyen (ArcelorMittal, France), Pascale Domingo (CNRS, France) |
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| ICNC2024-1192 |
A comprehensive study on the accuracy and generalization of deep learning-generated chemical ODE integrators Ruixin Yang, Han Li, Zhi X Chen (Beijing University, China) |
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| ICNC2024-1302 |
A combined PCA-CSP solver for dimensionality and stiffness reduction in reacting flow simulations Rafi Malik (King Abdullah University of Science and Technology, Saudi Arabia), Riccardo Malpica Galassi (Sapienza University, Italy), Hong G. Im (King Abdullah University of Science and Technology, Saudi Arabia), Mauro Valorani (Sapienza University, Italy) |
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| ICNC2024-1458 |
Physics-Informed Neural Networks for Turbulent Combustion: Extracting Closure from Multiscalar Measurements Arsalan Taassob, Anuj Kumar, Kevin M. Gitushi (North Carolina State University, United States), Rishikesh Ranade (Ansys, Inc., United States), Tarek Echekki (North Carolina State University, United States) |
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| ICNC2024-1567 |
Sparse data and reactive flow physics-informed neural networks Abdulla Ghani (Technische Universität Berlin, Germany) |
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| Room M | |||||||||
Track01-3. Laminar flames (3)
|
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| ICNC2024-1174 |
Effect of confinement on the propagation patterns of lean hydrogen-air flames Anne Dejoan (Centro de Investigaciones Energeticas, Mediambientales y Tecnologicas, Spain), Zhenghong Zhou (University of Southern California, United States), Daniel Fernandez-Galisteo (Centro de Investigaciones Energeticas, Mediambientales y Tecnologicas, Spain), Paul David Ronney (University of Southern California, United States), Vadim N. Kurdyumov (Centro de Investigaciones Energeticas, Mediambientales y Tecnologicas, Spain) |
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| ICNC2024-1255 |
Effect of Taylor dispersion on triple flame propagation Shumeng Xie (Peking University, China), Joel Daou, Prabakaran Rajamanickam (University of Manchester, United Kingdom), Zheng Chen (Peking University, China) |
||||||||
| ICNC2024-1265 |
Thermal Radiation Effects in Spherical Flame Simulations of Steam-diluted Hydrogen-Air Mixtures Julie Ben Zenou, Ronan Vicquelin (Université Paris-Saclay, CNRS, CentraleSupélec, Laboratoire EM2C, France) |
||||||||
| ICNC2024-1273 |
Propagation and self-acceleration of circular expanding hydrogen/air flames at cryogenic temperature Linlin Yang, Zheng Chen (Peking University, China) |
||||||||
| ICNC2024-1275 |
Numerical studies on the propagation of ultra-lean hydrogen/air flames in a narrow gap Linlin Yang, Zheng Chen (Peking University, China) |
||||||||
| ICNC2024-1364 |
The propagation mechanism of laminar, premixed DME/air flames Mohammad I Radaideh (University of Michigan, United States), Dimitrios C Kyritsis, Dimitris A Goussis (Khalifa University, United Arab Emirates) |
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Track01-4. Laminar flames (4)
|
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| ICNC2024-1565 |
Effect of Ozone Addition on Extinction limits of Hydrogen/Ammonia-Air Premixed Counterflow Flames Krishnakant Agrawal, Mayank Pandey (Indian Institute of Technology (IIT) Delhi, India) |
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| ICNC2024-1515 |
Optimized Progress variable for methane-hydrogen flames Fatemeh Chitgarha, Fathollah Ommi (Tarbiat Modares university, Iran, Islamic Republic of), Amir Mardani (Sharif university of technology, Iran, Islamic Republic of) |
||||||||
| ICNC2024-1087 |
Estimating Soot Formation/Oxidation Rates using Explainable Machine Learning Andisheh Khanehzar, Seth Dworkin (Toronto Metropolitan University , Canada) |
||||||||
| ICNC2024-1055 |
Numerical Study of Co-combustion Characteristics of Ammonia and Coke Oven Gas Zongyu Pan (National Cheng Kung University, Taiwan), Ta-Hui Lin (National Chen Kung University, Taiwan), Fang-Hsien Wu, Guan-Bang Chen (National Cheng Kung University, Taiwan) |
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| ICNC2024-1133 |
Numerical Study on Hydrogen Peroxide Effect on Syngas/Air Premixed Combustion Annas Fauzy, Guan-Bang Chen, Fang-Hsien Wu, Ta-Hui Lin (National Cheng Kung University, Taiwan) |
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Track01-5. Laminar flames (5)
|
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| ICNC2024-1100 |
Regimes of autoignitive stretched flame bounded by “Explosive transition of deflagration” and spontaneous ignition front Akira Tsunoda, Youhi Morii, Kaoru Maruta (Institute of Fluid Science, Tohoku University, Japan) |
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| ICNC2024-1283 |
Evaluation of Soret Diffusion Models for Hydrogen Combustion Thorsten Zirwes, Andreas Kronenburg (University of Stuttgart, Germany) |
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| ICNC2024-1385 |
Numerical investigation of a water droplet interacting with an hydrogen/air counterflow flame Maria Rosaria Acquaviva, Biagio Cassese, Alessandro Porcarelli, Ivan Langella (Delft University of Technology, Netherlands) |
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| ICNC2024-1463 |
Nozzle Angle Effect on Premixed Conical Flame-Flickering Characteristics Chenghao Qian, Gaofeng Wang, Haroun Hassan, Keqi Hu (Zhejiang University, China) |
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| ICNC2024-1592 |
Three-dimensional simulations of ultra-lean hydrogen-air flames in narrow gaps Ruben Palomeque-Santiago (Universidad Carlos III de Madrid, Spain), Anne Dejoan (Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas, Spain), Daniel Fernandez-Galisteo (Centro de Investigaciones Energeticas, Mediambientales y Tecnologicas, Spain), Mario Sánchez-Sanz (Universidad Carlos III de Madrid, Spain) |
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| ICNC2024-1600 |
Numerical Investigation of micro-combustion flame dynamics on wavy systems: materials and performance analysis David D. Dias (CEFT / FEUP, Portugal), Pedro Resende (MorPheus / IPVC, Portugal), Alexandre M. Afonso (CEFT / FEUP , Portugal) |
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