2022 International Sooting Flame (ISF) Workshop

  • ISF-6 overview

    The ISF Workshop for the Measurement and Computation of Reacting Flows With Carbon Nanoparticles is an ongoing, biennial forum. It was held from 22 - 23 July 2022, timed to occur before the 39th International Combustion Symposium , 24 - 29 July 2022, Vancouver, Canada.

    Organised by researchers, for researchers, to develop improved predictive capability of soot in flames of practical relevance through international collaboration between experimentalists and modellers. It is an open forum held immediately prior to each International Symposium on Combustion.

    Download ISF-6 Program

  • ISF-6 Communique

    A newsletter about ISF-6 is available toÌýdownload.

  • ISF news

    Professor Michael Mueller

    Michael Mueller Awarded Combustion Institute’s Tsuji Award

    Professor Michael Mueller from Princeton University, program leader for the ISF Turbulent Flames program, was awarded the 2022 Hiroshi Tsuji Early Career Researcher award from the Combustion Institute, which was presented at the 39th International Symposium on Combustion. This award recognizes excellence in fundamental or applied combustion science within four to ten yours of completion of a doctoral degree. Amongst other contributions, Professor Mueller has made significant contributions to the computational modeling of soot in turbulent reacting flows. Additional details are available from the .

  • ISF-6 prize recipients

    The ISF Committee is pleased to have introduced to our sixth meeting a series of prizes for PhD students and early career researchers, both for the best 3 minute presentation and for the best poster. ÌýIn so doing, we also wish to thank Dr Benedetta Franzelli (Laboratoire EM2C) and Dr Zhiwei Sun (The ³ÉÈË´óƬ), for organising both the posters and the awards.

    3 minute presentation

    3-MT-prize-winners

    Prize winners for the three-minute presentations. From left to right: Dr Georgios Kelesidis, ETH Zurich, for presentation entitled "Porosity and crystallinity dynamics of carbon black during internal and surface oxidation",Ìý Mohammad Adib, Carleton University, for a presentation entitled "Prediction of mass yield, morphology and composition of soot particles generated by pyrolysis of hydrocarbon", Prof Thomas Dreier, University of Duisburg-Essen (Judging Panel), Professor Christof Schulz, University of Duisburg-Essen (Judging Panel).


    Best poster

    ISF-6-best-posters

    Prize winners for the best poster presentations. From left to right: Dr Med Colket, Consultant to United Technologies Research Centre (Judging Panel), Special Commendation Awardee: H. Maldonado Colman, Special Commendation Awardee: Peng Liu, KAUST, Prize Winner: Una Trivanovic, ETH Zurich, for presentation entitled "High throughtput generation of aircraft-like soot", Prof Bassam Dally, KAUST (Judging Panel).

  • Aims of the ISF-6 Workshop

    • To advance understanding and predictive capability of flames with combustion-generated particles, including soot, to identify gaps in the understanding and to coordinate research programs to address them;
    • To advance understanding and predictive capability of high temperature reacting flows (HTRF) used to produce valuable carbon-based nano-particles and other products, together with fuels, such as hydrogen, with processes such as flame synthesis and pyrolysis;
    • To identify well defined target flames/HTRF and coordinate additional experiments that provide suitable data for model development and validation, spanning a variety of reactants and flow-field environments in each of the research programs;
    • To establish an archive of the detailed data sets of target flames/HTRF with defined accuracy and to provide a forum for the exchange and dissemination of these data;
    • To advance understanding by establishing clear and consistent definitions and terminology.
  • Objectives and targets for ISF-6

    1) To advance understanding of the strengths and limitations of various modelling approaches for sooting flames and HTRF by detailed comparison of predictions with experimental/DNS data of the following environments:

    ÌýÌý a) Turbulent high temperature reacting flows

    • DLR pressurised swirl flame
    • Sandia JP8 jet flame
    • Adelaide bluff body flames

    ÌýÌý b) Laminar high temperature reacting flows

    • Laminar opposed jet flames under conditions and fuels matching turbulent target flames
    • Premixed flames under conditions matching turbulent target flames
    • Laminar flames with a series of fuels
    • Adelaide forced laminar flames

    2) To assess the most effective options with which to advance previous work of the ISF community and to address other HTRF environments involving carbon-based nano-particles;

    3) To review progress in experimental and numerical methods and coordinate programs to continue their advancement.

    The first aim will be met through comparison of recent data contributed by the community that
    compares experiments and models from across the community within the following two research
    programs, for which contributions are invited via the relevant Program Leaders:
    • Laminar reacting flows: Chemical Kinetics (PAH, inception, growth and oxidation); particle
    dynamics (moment methods, sectional models, coalescence vs. aggregation); effect of pressure
    • Turbulent reacting flows: jet flames, bluff body flames, swirl flames, pool fires, influence of
    scale, and effect of pressure.

    The second aim will be met through special discussion panels involving invited presentations from
    leaders in the field, as listed in the program.

    The third aim will be met through open discussion addressing progress and challenges, facilitated by
    the committees, seeking to refine current understanding of the state of the art in developing
    predictive capability in these challenging environments.

    Informal discussions are facilitated through the poster session, details of which will follow soon.

  • Workshop program overview

    Ìý Friday July 22
    Time Topic
    08:00 - 9:00 Registration and coffee
    9:00 - 9:40 Welcome, update, review on ISF-5 and emerging trends
    9:40 - 10:50 Industrial presentations and discussion
    10:50 - 11:20 Coffee
    11:20 - 13:00 Panel session: Research challenges and opportunities in pyrolysis and synthesis of carbon-based particles
    13:00 - 14:00 Lunch
    14:00 - 15:00 Invited presentations on turbulent flames
    15:00 - 15:30 PhD poster pitches
    15:30 - 16:00 Coffee
    16:00 - 18:00 Turbulent flames: Summary and discussion
    18:00- 19:00 Free time
    19:00 - 22:00 Posters and informal dinner
    Ìý Saturday July 23
    9:00 - 10:30 Invited presentations on laminar flames
    10:30 - 11:00 Coffee break
    11:00 - 13:00 Laminar flames: Summary and discussion
    13:00 - 14:00 Lunch
    14:00 - 15:30 Open discussion on progress and challenges
    15:30 - 15:45 Coffee
    15:45 - 16:30 Feedback and suggestions, and close of workshop

Information about the Organising Committees can be found on theÌýAbout ISFÌýpage.