Combustion for Low Emission Applications of Natural Gas

Leistungen

Experimental measurements in unsteady laminar flames

Experimental measurements of main combustion products and pollutant emissions will be collected in laminar flames (burning natural gas), submitted to controlled flow or acoustic pulsations.

Analysis of chemical and physical mechanisms leading to the formation of NOx in flames burning natural gas

The chemical and physical mechanisms leading to the formation of nitrogen oxides (NOx) and carbonaceous particles (soot) in laminar coflow flames will be investigated and analyzed on a numerical basis. For this purpose, the numerical code released as deliverable D3.1 will be adopted, in conjunction with the detailed kinetic mechanisms released as deliverable D1.1-D1.3. The comparison with the experimental data available from WP6 will be exploited.

"RANS of ""flameless burners"""

"RANS simulations of industrial burners operating in ""flameless"" conditions will be carried out, with the aim to investigate the ability of numerical simulations to predict important combustion features (such as flame stabilization, pollutant emissions, etc.) in highly diluted combustion regimes."

Experimental data for validation purposes: Rig A

Experimental data will be collected for turbulent flames with different geometry of injectors and different fuels.

Optimization of finite-rate chemistry turbulent combustion models for RANS and LES simulations

Finite-rate chemistry turbulent combustion models for RANS and LES simulations will be optimized for their application to high diluted streams.

Detailed kinetic sub-mechanism of NOx Detailed kinetic sub-mechanism of NOx from natural gas combustion

A detailed kinetic sub-mechanism describing the chemistry of nitrogen oxides (NOx) to be coupled to the mechanism developed in D1.1 will be provided, together with thermodynamic data and transport properties for all the involved chemical species.

Reduced kinetic mechanism for natural gas combustion in non-conventional conditions

The reduced kinetic mechanism released as deliverable D2.1 will be further optimized, in order to improve its predictive capabilities especially in non-conventional conditions (e.g flameless or MILD conditions), by comparing its performances with experimental data available in the scientific literature (ignition delay times, ideal reactors, laminar flame speeds, etc.). The reduced kinetic mechanism will be adopted for performing CFD simulations of large-scale (industrial) geometries (WP8).

Experimental data for validation purposes: Rig C

Experimental data will be collected for turbulent flames running at different thermal efficiencies.

Progress Report

The progress report will present the status of the advancement of the project.

Final report

The final report will summarize the research activities carried out by the four partners during the whole length of the Project and the main results achieved.

Validation of the combustion models using small-scale and semi-industrial scale experimental data

The improved combustion models released as deliverable D4.2 and D4.3 will be validated (and further improved if necessary) with respect to experimental data corresponding to small-scale turbulent flames (Adelaide- and Delft-JHC burners and Cabra flame) and semi-industrial devices (obtained under the International Flame research Foundation (IFRF) Research Programme on MILD combustion.

Administrative Agreement to establish a Joint Doctorate

Administrative agreement to establish a Joint Doctorate between the network's partners.

Reduced kinetic mechanism for natural gas combustion

A reduced kinetic mechanism describing the combustion of natural gas will be provided, together with thermodynamic data and transport properties of all the involved chemical species. The reduction will be applied to the detailed kinetic mechanism developed in work-package WP1 and released as deliverable D1.1.

Extension of flamelet/progress variable models for multiple and highly diluted streams

The turbulent combustion models based on the flamelet/progress variable approach will be extended and optimized to multiple and highly diluted streams, in order to improve their predictive capabilities for flameless or MILD combustion.

LES of conventional swirling turbulent flames

Large Eddy Simulations (LES) of conventional swirling turbulent flames typically encountered in gas turbines and industrial furnaces will be carried out, with the aim to asses the ability of numerical simulations to predict complex dynamic behaviors of flames and formation of pollutant species.

LES of industrial devices burning natural gas in conventional and flameless conditions

Large Eddy Simulations (LES) of large-scale (industrial and/or semi-industrial) devices burning natural gas will be carried out.

Validation of the Combustion LES modeling tool using experimental from the Consortium

The extended Combustion LES modeling tool will be tested and validate with respect to the experimental data available from WP7, in order to provide guidelines for using LES in turbulent combustion of large-scale combustion systems (to be studied in WP8).

Reduced kinetic mechanism for natural gas combustion with pollutant formation

A final version of the reduced kinetic mechanism for natural gas, together with NOx and soot sub-mechanisms, validated on well-characterized laboratory-scale systems will be finally released. This final version will include possible improvements with respect to deliverable D2.2, resulting from the validation process.

Draft Periodic Report

Draft periodic report in order to prepare the mid-term meeting.

Detailed kinetic sub-mechanism of aromatic species and soot Detailed kinetic sub-mechanism of NOx from natural gas combustion

A detailed kinetic sub-mechanism describing the chemistry of carbonaceous particles (soot) to be coupled to the mechanisms developed in D1.1 and D1.2 will be provided, together with thermodynamic data and transport properties for all the involved chemical species.

Experimental measurements in steady-state laminar flames

Experimental measurements of main combustion products and pollutatnt emissions will be collected in steady-state laminar flames burning natural gas.

Supervisory Board

Definition of the Supervisory Board of the network.

Integration of additional effects into the Combustion LES modeling tool

Improved LES combustion models will be developed and released, with additional computational features to face typical modeling issues pertinent to the accurate predictions of real combustion systems.

Assessment of Combustion LES modeling tool

Comparative study of different existing LES combustion models (such as filtered and propagation based flamelet models and various finite rate chemistry models) on a couple of selected combustion test cases, corresponding to the ORACLES rig developed under the FP6 project MOLECULES and the low-swirl stabilized premixed flame of Cheng type.

Detailed kinetic mechanism of natural gas combustion and oxidation

A detailed kinetic mechanism describing the combustion of natural gas will be provided, together with thermodynamic data and transport properties for all the involved chemical species.

A priori evaluation of turbulent combustion closures using DNS simulations

"Typical turbulent combustion closure model will be assessed and analyzed in ""a priori"" approach using DNS simulations. The strengths and weakness of present turbulent combustion models will be compared, especially in terms of applicability to combustion of natural gas in non-conventional conditions (e.g. flameless or MILD conditions)."

Experimental data for validation purposes: Rig B

Experimental data will be collected for turbulent flames operating at different pressure ratios.

Numerical code for multi-dimensional laminar flames with detailed kinetics

A numerical code for the CFD simulation of multi-dimensional laminar flames will be released. The code will be specifically conceived to manage detailed kinetic mechanisms with hundreds of species and thousands of reactions.

Mid-term review meeting

During the mid-term meeting the partners will analyze the status of the Project and will update the activities for the last two years of the Project.

Veröffentlichungen

Effects of the Injector Design on the Transfer Function of Premixed Swirling Flames

Autoren: M. Gatti, R. Gaudron, C. Mirat, T. Schuller
Veröffentlicht in: Volume 4A: Combustion, Fuels and Emissions, Ausgabe GT2017-63874, 2017, Seite(n) V04AT04A054, ISBN 978-0-7918-5084-8
Herausgeber: ASME
DOI: 10.1115/GT2017-63874

Comparison of Monte Carlo Methods Efficiency to Solve Radiative Energy Transfer in High Fidelity Unsteady 3D Simulations

Autoren: Lorella Palluotto, Nicolas Dumont, Pedro Rodrigues, Chai Koren, Ronan Vicquelin, Olivier Gicquel
Veröffentlicht in: Volume 5A: Heat Transfer, 2017, Seite(n) V05AT20A004, ISBN 978-0-7918-5087-9
Herausgeber: ASME
DOI: 10.1115/GT2017-64179

Development of a coupling between OpenSMOKE++ and Dakota for Optimization of chemical kinetics

Autoren: M. Fürst, A. Cuoci, A. Frassoldati, A. Parente
Veröffentlicht in: 37th International Symposium on Combustion, 2018
Herausgeber: The Combustion Institute

THE OPTIMIZATION OF CHEMICAL KINETICS WITH RESPECT TO MILD COMBUSTION

Autoren: M. Furst, a. Parente
Veröffentlicht in: 25th Journées d’etude Belgian Section of the Combustion Institute, Ausgabe 15-16/5/2018, 2018
Herausgeber: The Combustion Institute

Model Reduction by PCA and Kriging

Autoren: Aversano, Gianmarco; Bellemans, Aurélie; Li, Zhiyi; Coussement, Axel; Gicquel, Olivier; Parente, Alessandro
Veröffentlicht in: 14th INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING, Ausgabe 14-18 March 2018, 2018
Herausgeber: AIP

Reactor network modelling of a close to reality combustor using residence time measurements

Autoren: Agizza Maria Angela; Bürkle S.; Becker L.; Greifenstein M.; Doost S.; Janicka J.; Wagner S.; Dreizler Andreas; Faravelli Tiziano; Bagheri Ghobad
Veröffentlicht in: Digital proceedings of the 8th European Combustion Meeting, Ausgabe 18-21 April 2017, 2017
Herausgeber: European Combustion
DOI: 10.5281/zenodo.1473522

Detailed kinetic modeling of soot formation

Autoren: W. Pejpichestakul, A. Frassoldati, T. Faravelli
Veröffentlicht in: XXXIX Meeting of the Italian Section of the Combustion Institute, Ausgabe 4-6 July 2016, 2016
Herausgeber: The Italian Section of the Combustion Institute
DOI: 10.5281/zenodo.582606

“Uncertainty quantification of chemical kinetics for Moderate or Low-oxygen Dilution (MILD) combustion”

Autoren: M. Fürst, A. Cuoci and A. Parente
Veröffentlicht in: 24th Journées d’Etude of the Belgian Section of the Combustion Institute, Ausgabe 19-20 May, 2016
Herausgeber: The Belgian Section of the Combustion Institute
DOI: 10.5281/zenodo.583248

Detailed Kinetic Mechanisms for Combustion and Oxidation of Natural Gas.

Autoren: G. Bagheri, T. Faravelli, A. Frassoldati
Veröffentlicht in: Abstract book of: Analysis, uncertainty quantification, validation, optimization and reduction of detailed combustion mechanism for practical use of Smart Energy Carriers Training School., Ausgabe 4-7 July, 2016, 2016
Herausgeber: COST project CM1404
DOI: 10.5281/zenodo.2637786

Impact of Reduction of Chemistry on Soot Formation and Evolution in Laminar Flames

Autoren: A. Bodor, B. Franzelli, A. Cuoci, A. Stagni, M. Roussillo
Veröffentlicht in: 2017 SIAM International Conference on Numerical Combustion, Ausgabe 3-5 April 2017, 2017
Herausgeber: SIAM
DOI: 10.5281/zenodo.583388

Numerical simulation of novel combustion technologies

Autoren: G. Aversano, M. Fürst, Z. Li, R. Malik and A. Parente
Veröffentlicht in: Deuxième Journée scientifique du Pôle hainuyer, Ausgabe 19 April 2016, 2016
Herausgeber: Pôle hainuyer
DOI: 10.5281/zenodo.583423

Sub-grid models for LES simulation of non-conventional combustion regimes

Autoren: Z. Li, A. Parente
Veröffentlicht in: Winter School on Combustion, Ausgabe 25-28 January 2016, 2016
Herausgeber: ICISS
DOI: 10.5281/zenodo.583291

Numerical Simulation of MILD combustion with adaptive finite rate chemistry

Autoren: Z. Li, A. Cuoci, A. Parente
Veröffentlicht in: 24th Journées d’Etude of the Belgian Section of the Combustion Institute, Ausgabe 19-20 May 2016, 2016
Herausgeber: Belgian Section of the Combustion Institute
DOI: 10.5281/zenodo.583297

Uncertainty Quantification of chemical kinetics for non-conventional combustion regimes

Autoren: M. Fürst, A. Parente, A. Cuoci
Veröffentlicht in: COST Training School on the Analysis of Combustion Mechanisms, Ausgabe 4-7 July 2016, 2016
Herausgeber: COST Training School on the Analysis of Combustion Mechanisms
DOI: 10.5281/zenodo.2637755

Optimization of kinetic mechanisms for non-conventional combustion regimes

Autoren: M. Fürst and A. Parente
Veröffentlicht in: Winter School on Combustion, Ausgabe 25-28 January 2016, 2016
Herausgeber: ICISS
DOI: 10.5281/zenodo.583272

Large Eddy Simulation of Non-Conventional Combustion Regime with Reduced Detailed Chemistry

Autoren: Z. Li, A. Cuoci, A. Sadiki, A. Parente
Veröffentlicht in: SIAM Sixteenth International Conference on Numerical Combustion, Ausgabe 3-5 April 2017, 2017
Herausgeber: SIAM
DOI: 10.5281/zenodo.583420

POD-reduced models & Kriging interpolation for parameter exploration

Autoren: G. Aversano, A. Parente,
Veröffentlicht in: Winter School on Combustion, Ausgabe 25-28 January 2016, 2016
Herausgeber: ICISS
DOI: 10.5281/zenodo.583294

Large eddy simulation of non-premixed combustion with detailed chemistry

Autoren: A. Shamooni, A. Cuoci, T. Faravelli
Veröffentlicht in: XXXIX Meeting of the Italian Section of the Combustion Institute, Ausgabe July 4-6, 2016, 2016
Herausgeber: Italian Section of the Combustion Institute
DOI: 10.5281/zenodo.583289

edcSMOKE: A new combustion solver for stiff chemistry based on OpenFOAM®

Autoren: Z. Li, M.R. Malik, A. Cuoci, A. Parente
Veröffentlicht in: 14th international conference of numerical analysis and applied mathematics, Ausgabe 19-25 September 2016, 2016
Herausgeber: ICNAAM
DOI: 10.5281/zenodo.583421

Uncertainty Quantification of chemical kinetics for MILD Combustion

Autoren: M. Fürst and A. Parente
Veröffentlicht in: 2nd General Meeting and 2nd Workshop on Smart Energy Carriers in Industry, Ausgabe 14-16 November 2016, 2016
Herausgeber: COST
DOI: 10.5281/zenodo.583259

Numerical modeling of soot formation and evolution in laminar-pulsed diffusion flames through the Discrete Sectional Method

Autoren: A. Bodor, B. Franzelli, A. Cuoci
Veröffentlicht in: 8th European Combustion Meeting, Ausgabe April 18-21, 2017, 2017
Herausgeber: European section of the Combustion Institute
DOI: 10.5281/zenodo.582526

Effect of mechanism reduction on the Uncertainty Quantification of chemical kinetics for MILD combustion

Autoren: M. Fürst, A. Frassoldati and A. Parente
Veröffentlicht in: SIAM Sixteenth International Conference on Numerical Combustion, Ausgabe 3-5 April 2017, 2017
Herausgeber: SIAM
DOI: 10.5281/zenodo.583264

Numerical modeling of soot formation and evolution in laminar flames: the limits of the hybrid method of moments

Autoren: A. Bodor, B. Franzelli, A. Cuoci
Veröffentlicht in: XXXIX Meeting of the Italian Section of the Combustion Institute, Ausgabe 4-6 July 2016, 2016
Herausgeber: Italian Section of the Combustion Institute
DOI: 10.5281/zenodo.583273

Surrogate Models based on the combination of PCA and Kriging

Autoren: G. Aversano, O. Gicquel, A. Parente
Veröffentlicht in: SIAM Sixteenth International Conference on Numerical Combustion, 2017
Herausgeber: 3-5 April 2017
DOI: 10.5281/zenodo.583399

PCA & Kriging for Surrogate Models

Autoren: G. Aversano, A. Parente
Veröffentlicht in: 2nd General Meeting and 2nd Workshop on Smart Energy Carriers in Industry, Ausgabe 14-16 November 2016, 2016
Herausgeber: COST
DOI: 10.5281/zenodo.583440

LES modeling of piloted jet flames with inhomogeneous inlets using tabulated chemistry methods

Autoren: Giampaolo Maio, Mélody Cailler, Benoît Fiorina, Renaud Mercier, Vincent Moureau
Veröffentlicht in: 55th AIAA Aerospace Sciences Meeting, 2017, ISBN 978-1-62410-447-3
Herausgeber: American Institute of Aeronautics and Astronautics
DOI: 10.2514/6.2017-1471

PCA & Kriging for model reduction and parameter exploration

Autoren: G. Aversano, A. Parente,
Veröffentlicht in: 24th Journées d’Etude of the Belgian Section of the Combustion Institute, Ausgabe 19-20 May 2016, 2016
Herausgeber: Belgian Section of the Combustion Institute
DOI: 10.5281/zenodo.583298

Large Eddy Simulation of Complex Flow in Combustion Chamber and Residence Time Distribution Calculation

Autoren: R. Mahmoud, A.S. Doost, F. Ries, S. Burkle, A. Sadiki, J. Janicka
Veröffentlicht in: Int. Congress of Materials and Energy, Ausgabe 17.-19. 12, 2016, 2016
Herausgeber: CIMATEN
DOI: 10.5281/zenodo.582615

Flame Describing Functions of a Confined Premixed Swirled Combustor With Upstream and Downstream Forcing

Autoren: R. Gaudron, M. Gatti, C. Mirat, T. Schuller
Veröffentlicht in: Volume 4B: Combustion, Fuels, and Emissions, 2018, Seite(n) V04BT04A021, ISBN 978-0-7918-5106-7
Herausgeber: ASME
DOI: 10.1115/GT2018-76381

A Comparison of the Transfer Functions and Flow Fields of Flames With Increasing Swirl Number

Autoren: M. Gatti, R. Gaudron, C. Mirat, L. Zimmer, T. Schuller
Veröffentlicht in: Volume 4B: Combustion, Fuels, and Emissions, 2018, Seite(n) V04BT04A003, ISBN 978-0-7918-5106-7
Herausgeber: ASME
DOI: 10.1115/gt2018-76105

Injection System Design Impact on the Stabilization and Acoustic Response of Premixed Swirling Flames

Autoren: Gatti , M.; Gaudron , R; Mirat , Clément; Schuller , T.
Veröffentlicht in: https://hal.archives-ouvertes.fr/hal-01877594, Ausgabe 2, 2017
Herausgeber: 8th European Combustion Meeting 2017

Analysis of the Transfer Function of Large and Small Premixed Laminar Conical Flames

Autoren: R. Gaudron, M. Gatti, C. Mirat, T. Schuller
Veröffentlicht in: Volume 4A: Combustion, Fuels and Emissions, 2017, ISBN 978-0-7918-5084-8
Herausgeber: American Society of Mechanical Engineers
DOI: 10.1115/gt2017-64231

Comprehensive numerical study of the Adelaide Jet in Hot-Coflow burner by means of RANS and detailed chemistry

Autoren: Zhiyi Li, Alberto Cuoci, Amsini Sadiki, Alessandro Parente
Veröffentlicht in: Energy, Ausgabe 139, 2017, Seite(n) 555-570, ISSN 0360-5442
Herausgeber: Pergamon Press Ltd.
DOI: 10.1016/j.energy.2017.07.132

Kinetic modeling of soot formation in premixed burner-stabilized stagnation ethylene flames at heavily sooting condition

Autoren: Warumporn Pejpichestakul, Alessio Frassoldati, Alessandro Parente, Tiziano Faravelli
Veröffentlicht in: Fuel, Ausgabe 234, 2018, Seite(n) 199-206, ISSN 0016-2361
Herausgeber: Elsevier BV
DOI: 10.1016/j.fuel.2018.07.022

Thermochemical oscillation of methane MILD combustion diluted with N 2 /CO 2 /H 2 O

Autoren: Ghobad Bagheri, Marco Lubrano Lavadera, Eliseo Ranzi, Matteo Pelucchi, Pino Sabia, Mariarosaria de Joannon, Alessandro Parente, Tiziano Faravelli
Veröffentlicht in: Combustion Science and Technology, 2018, Seite(n) 1-13, ISSN 0010-2202
Herausgeber: Taylor & Francis
DOI: 10.1080/00102202.2018.1452411

Examination of a soot model in premixed laminar flames at fuel-rich conditions

Autoren: Warumporn Pejpichestakul, Eliseo Ranzi, Matteo Pelucchi, Alessio Frassoldati, Alberto Cuoci, Alessandro Parente, Tiziano Faravelli
Veröffentlicht in: Proceedings of the Combustion Institute, 2018, ISSN 1540-7489
Herausgeber: Combustion Institute
DOI: 10.1016/j.proci.2018.06.104

Prediction of Combustion and Heat Release Rates in Non-Premixed Syngas Jet Flames Using Finite-Rate Scale Similarity Based Combustion Models

Autoren: Ali Shamooni, Alberto Cuoci, Tiziano Faravelli, Amsini Sadiki
Veröffentlicht in: Energies, Ausgabe 11/9, 2018, Seite(n) 2464, ISSN 1996-1073
Herausgeber: Multidisciplinary Digital Publishing Institute (MDPI)
DOI: 10.3390/en11092464

Assessment of On-the-Fly Chemistry Reduction and Tabulation Approaches for the Simulation of Moderate or Intense Low-Oxygen Dilution Combustion

Autoren: Zhiyi Li, Michał T. Lewandowski, Francesco Contino, Alessandro Parente
Veröffentlicht in: Energy & Fuels, Ausgabe 32/10, 2018, Seite(n) 10121-10131, ISSN 0887-0624
Herausgeber: American Chemical Society
DOI: 10.1021/acs.energyfuels.8b01001

Optimization of Chemical Kinetics for Methane and Biomass Pyrolysis Products in Moderate or Intense Low-Oxygen Dilution Combustion

Autoren: Magnus Fürst, Pino Sabia, Marco Lubrano Lavadera, Gianmarco Aversano, Mara de Joannon, Alessio Frassoldati, Alessandro Parente
Veröffentlicht in: Energy & Fuels, Ausgabe 32/10, 2018, Seite(n) 10194-10201, ISSN 0887-0624
Herausgeber: American Chemical Society
DOI: 10.1021/acs.energyfuels.8b01022

Application of reduced-order models based on PCA & Kriging for the development of digital twins of reacting flow applications

Autoren: Gianmarco Aversano, Aurélie Bellemans, Zhiyi Li, Axel Coussement, Olivier Gicquel, Alessandro Parente
Veröffentlicht in: Computers & Chemical Engineering, Ausgabe 121, 2019, Seite(n) 422-441, ISSN 0098-1354
Herausgeber: Pergamon Press Ltd.
DOI: 10.1016/j.compchemeng.2018.09.022

Finite-rate chemistry modelling of non-conventional combustion regimes using a Partially-Stirred Reactor closure: Combustion model formulation and implementation details

Autoren: Zhiyi Li, Marco Ferrarotti, Alberto Cuoci, Alessandro Parente
Veröffentlicht in: Applied Energy, Ausgabe 225, 2018, Seite(n) 637-655, ISSN 0306-2619
Herausgeber: Pergamon Press Ltd.
DOI: 10.1016/j.apenergy.2018.04.085

PCA and Kriging for the efficient exploration of consistency regions in Uncertainty Quantification

Autoren: Gianmarco Aversano, John Camilo Parra-Alvarez, Benjamin J. Isaac, Sean T. Smith, Axel Coussement, Olivier Gicquel, Alessandro Parente
Veröffentlicht in: Proceedings of the Combustion Institute, 2018, ISSN 1540-7489
Herausgeber: Combustion Institute
DOI: 10.1016/j.proci.2018.07.040

On the role of mixing models in the simulation of MILD combustion using finite-rate chemistry combustion models

Autoren: Marco Ferrarotti, Zhiyi Li, Alessandro Parente
Veröffentlicht in: Proceedings of the Combustion Institute, 2018, ISSN 1540-7489
Herausgeber: Combustion Institute
DOI: 10.1016/j.proci.2018.07.043

Soot Modeling of Ethylene Counterflow Diffusion Flames

Autoren: Warumporn Pejpichestakul, Alessio Frassoldati, Alessandro Parente, Tiziano Faravelli
Veröffentlicht in: Combustion Science and Technology, 2018, Seite(n) 1-11, ISSN 0010-2202
Herausgeber: Taylor & Francis
DOI: 10.1080/00102202.2018.1540472

Large Eddy Simulation of MILD combustion using finite rate chemistry: Effect of combustion sub-grid closure

Autoren: Zhiyi Li, Alberto Cuoci, Alessandro Parente
Veröffentlicht in: Proceedings of the Combustion Institute, 2018, ISSN 1540-7489
Herausgeber: Combustion Institute
DOI: 10.1016/j.proci.2018.09.033

Finite-rate chemistry modelling of non-conventional combustion regimes

Autoren: Zhiyi Li, Alberto Cuoci, Amsini Sadiki, Alessandro Parente
Veröffentlicht in: Energy Procedia, Ausgabe 142, 2017, Seite(n) 1570-1576, ISSN 1876-6102
Herausgeber: Pergamon Press Ltd.
DOI: 10.1016/j.egypro.2017.12.608

Flame Describing Functions of a Confined Premixed Swirled Combustor With Upstream and Downstream Forcing

Autoren: R. Gaudron, M. Gatti, C. Mirat, T. Schuller
Veröffentlicht in: Journal of Engineering for Gas Turbines and Power, Ausgabe 141/5, 2019, Seite(n) 051016, ISSN 0742-4795
Herausgeber: American Society of Mechanical Engineers
DOI: 10.1115/1.4041000

Direct Assessment of the Acoustic Scattering Matrix of a Turbulent Swirl Combustor by Combining System Identification, Large Eddy Simulation and Analytical Approaches

Autoren: Malte Merk, Camilo Silva, Wolfgang Polifke, Renaud Gaudron, Marco Gatti, Clément Mirat, Thierry Schuller
Veröffentlicht in: Journal of Engineering for Gas Turbines and Power, Ausgabe 141/2, 2019, Seite(n) 021035, ISSN 0742-4795
Herausgeber: American Society of Mechanical Engineers
DOI: 10.1115/1.4040731

Buoyancy effect in sooting laminar premixed ethylene flame

Autoren: Warumporn Pejpichestakul, Alberto Cuoci, Alessio Frassoldati, Matteo Pelucchi, Alessandro Parente, Tiziano Faravelli
Veröffentlicht in: Combustion and Flame, Ausgabe 205, 2019, Seite(n) 135-146, ISSN 0010-2180
Herausgeber: Elsevier BV
DOI: 10.1016/j.combustflame.2019.04.001

Impact of swirl and bluff-body on the transfer function of premixed flames

Autoren: M. Gatti, R. Gaudron, C. Mirat, L. Zimmer, T. Schuller
Veröffentlicht in: Proceedings of the Combustion Institute, Ausgabe 37/4, 2019, Seite(n) 5197-5204, ISSN 1540-7489
Herausgeber: Combustion Institute
DOI: 10.1016/j.proci.2018.06.148

Comprehensive kinetic study of combustion technologies for low environmental impact: MILD and OXY-fuel combustion of methane

Autoren: Ghobad Bagheri, Eliseo Ranzi, Matteo Pelucchi, Alessandro Parente, Alessio Frassoldati, Tiziano Faravelli
Veröffentlicht in: Combustion and Flame, Ausgabe 212, 2020, Seite(n) 142-155, ISSN 0010-2180
Herausgeber: Elsevier BV
DOI: 10.1016/j.combustflame.2019.10.014

Prediction of combustion noise of an enclosed flame by simultaneous identification of noise source and flame dynamics

Autoren: M. Merk, R. Gaudron, C. Silva, M. Gatti, C. Mirat, T. Schuller, W. Polifke
Veröffentlicht in: Proceedings of the Combustion Institute, Ausgabe 37/4, 2019, Seite(n) 5263-5270, ISSN 1540-7489
Herausgeber: Combustion Institute
DOI: 10.1016/j.proci.2018.05.124

Impact of the injector size on the transfer functions of premixed laminar conical flames

Autoren: R. Gaudron, M. Gatti, C. Mirat, T. Schuller
Veröffentlicht in: Combustion and Flame, Ausgabe 179, 2017, Seite(n) 138-153, ISSN 0010-2180
Herausgeber: Elsevier BV
DOI: 10.1016/j.combustflame.2017.01.022

A post processing technique to predict primary particle size of sooting flames based on a chemical discrete sectional model: Application to diluted coflow flames

Autoren: Agnes Livia Bodor, Benedetta Franzelli, Tiziano Faravelli, Alberto Cuoci
Veröffentlicht in: Combustion and Flame, Ausgabe 208, 2019, Seite(n) 122-138, ISSN 0010-2180
Herausgeber: Elsevier BV
DOI: 10.1016/j.combustflame.2019.06.008

In-situ measurement of residence time distributions in a turbulent oxy-fuel gas-flame combustor

Autoren: Sebastian Bürkle, Lukas G. Becker, Maria Angela Agizza, Andreas Dreizler, Volker Ebert, Steven Wagner
Veröffentlicht in: Experiments in Fluids, Ausgabe 58/7, 2017, ISSN 0723-4864
Herausgeber: Springer Verlag
DOI: 10.1007/s00348-017-2366-2

Virtual chemistry for prediction of chemical flame structure in non adiabatic combustion

Autoren: Giampaolo Maio, Renaud Mercier, Mélody Cailler and Benoît Fiorina
Veröffentlicht in: 8th EUROPEAN COMBUSTION MEETING, Ausgabe 18-21 April 2017, 2017
Herausgeber: Adria Combustion Institute
DOI: 10.5281/zenodo.583445

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