Advanced search
Publication Cover
Combustion Science and Technology Volume 188, 2016 - Issue 6
Submit an article Journal homepage
1,241
Views
95
CrossRef citations to date
0
Altmetric
Articles

Experimental Uncertainties of the Heat Flux Method for Measuring Burning Velocities

Vladimir A. AlekseevDivision of Combustion Physics, Lund University, Lund, SwedenCorrespondence[email protected]
,
Jenny D. NauclerDivision of Combustion Physics, Lund University, Lund, Sweden
,
Moah ChristensenDivision of Combustion Physics, Lund University, Lund, Sweden
,
Elna J. K. NilssonDivision of Combustion Physics, Lund University, Lund, Sweden
,
Evgeniy N. VolkovCombustion Technology Section, Mechanical Engineering, Eindhoven University of Technology, Eindhoven, The Netherlands
,
L. Philipus H. de GoeyCombustion Technology Section, Mechanical Engineering, Eindhoven University of Technology, Eindhoven, The Netherlands
&
Alexander A. KonnovDivision of Combustion Physics, Lund University, Lund, Sweden
 show all
Pages 853-894 | Received 15 Oct 2015, Accepted 23 Nov 2015, Published online: 09 May 2016

Citations (95)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (4)

Vinod Kumar Yadav, Shriyansh Srivastava & Vinay Yadav. (2023) Two-dimensional analysis of tapered heat flux burner for measuring laminar burning velocity. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 45:4, pages 11098-11112.
Read now
Vikas Jangir, Anjan Ray & M. R. Ravi. (2023) Determination of Unstretched Laminar Burning Velocity by Simultaneous Measurements of Flame Radius and Pressure-Time Trace Using Constant Volume Method. Combustion Science and Technology 0:0, pages 1-23.
Read now
R. T. Perin, I. M. Machado, L. A. Quezada, C. S. Bresolin & F. M. Pereira. (2022) Experimental and numerical study of the laminar burning velocity of syngas in oxyfuel conditions. Combustion Science and Technology 0:0, pages 1-26.
Read now
Shanmugasundaram Dakshnamurthy, Denis A. Knyazkov, Artem M. Dmitriev, Oleg P. Korobeinichev, Elna J.K. Nilsson, Alexander A. Konnov & Krithika Narayanaswamy. (2019) Experimental Study and a Short Kinetic Model for High-Temperature Oxidation of Methyl Methacrylate. Combustion Science and Technology 191:10, pages 1789-1814.
Read now

Articles from other publishers (91)

Xinlu Han, Shenghui Zhong, Riyi Lin, Hongqing Feng & Kang Pan. (2024) Laminar burning velocity of NH3 + N2 + O2 and NH3 + Ar + O2 flames at ultra-lean and rich conditions. Fuel 369, pages 131713.
Crossref
Xinlu Han, Runfan Zhu, Yong He, Yanqun Zhu & Zhihua Wang. (2024) Experimental and kinetic study on the laminar burning velocities of CH4 + H2S + N2 + O2 flames at atmospheric pressure. Fuel 358, pages 130366.
Crossref
Shengquan Zhou, Xiaochao Zhu, Zhaoting Wu, Wenzhu Wu, Beibei Yan & Guanyi Chen. (2024) Effect of composition of biomass steam-gasified gas on laminar burning velocity and overall activation energy. Biomass and Bioenergy 181, pages 107048.
Crossref
Ziheng Cai, Mingming Huang, Gaofeng Wei, Zhenxian Liu, Haipeng Zhang, Qing Hao & Zewen Yu. (2024) Theoretical study on the inherent relationship between laminar burning velocity, ignition delay time, and NO emission of ammonia-syngas-air mixtures under gas turbine conditions. International Journal of Hydrogen Energy 50, pages 690-705.
Crossref
Sven Eckart, István Gyula Zsély, Hartmut Krause & Tamás Turányi. (2024) Effect of the variation of oxygen concentration on the laminar burning velocities of hydrogen-enriched methane flames. International Journal of Hydrogen Energy 49, pages 533-546.
Crossref
Qianjin Lin, Xianzhong Hu, Jundie Chen & Alexander A. Konnov. (2023) Measurements of laminar burning velocities and an improved kinetic model of methyl isopropyl ketone. Combustion and Flame 258, pages 113041.
Crossref
Xinlu Han, Zhihua Wang, Bo Zhou, Yong He, Yanqun Zhu & Kefa Cen. (2023) Effect of H2 and O2 enrichment on the laminar burning velocities of NH3+H2+N2+O2 flames: Experimental and kinetic study. Applications in Energy and Combustion Science 15, pages 100160.
Crossref
Ziheng Cai, Mingming Huang, Gaofeng Wei, Zhenxian Liu, Huiwei Fang, Yang Song, Mengting Zhang, Weiming Wang, Zhaoqing Ming, Jihang Wang, Wenduo Chang, Xiaolei Fan, Adil Hussain & Qing Hao. (2023) Numerical study of the effect of pressure on the combustion characteristics of ammonia/coal-derived syngas mixture under gas turbine operating conditions. Fuel 347, pages 128463.
Crossref
Jundie Chen, Marco Lubrano Lavadera & Alexander A. Konnov. (2023) An experimental and modeling study on the laminar burning velocities of ammonia + oxygen + argon mixtures. Combustion and Flame 255, pages 112930.
Crossref
Alexander A. Konnov, Jundie Chen & Marco Lubrano Lavadera. (2023) Measurements of the laminar burning velocities of small alkyl esters using the heat flux method: A comparative study. Combustion and Flame 255, pages 112922.
Crossref
Ziyue Zhang, Runfan Zhu, Yanqun Zhu, Wubin Weng, Yong He & Zhihua Wang. (2023) Experimental and Kinetic Study on Laminar Burning Velocities of High Ratio Hydrogen Addition to CH4+O2+N2 and NG+O2+N2 Flames. Energies 16:14, pages 5265.
Crossref
Tao Cai & Dan Zhao. (2023) Overview of Autoignition and Flame Propagation Properties for Ammonia Combustion. AIAA Journal 61:7, pages 2754-2778.
Crossref
Israfil Soyler, Kai Zhang, Christophe Duwig, Xi Jiang & Nader Karimi. (2023) Uncertainty quantification of the premixed combustion characteristics of NH3/H2/N2 fuel blends. International Journal of Hydrogen Energy 48:38, pages 14477-14491.
Crossref
Nitin Lokachari, Goutham Kukkadapu, Brian D. Etz, Gina M. Fioroni, Seonah Kim, Mathias Steglich, Andras Bodi, Patrick Hemberger, Sergey S. Matveev, Anna Thomas, Hwasup Song, Guillaume Vanhove, Kuiwen Zhang, Guillaume Dayma, Maxence Lailliau, Zeynep Serinyel, Alexander A. Konnov, Philippe Dagaut, William J. Pitz & Henry J. Curran. (2023) A comprehensive experimental and kinetic modeling study of di-isobutylene isomers: Part 2. Combustion and Flame 251, pages 112547.
Crossref
S. Eckart, G. Pio, T. Zirwes, F. Zhang, E. Salzano, H. Krause & H. Bockhorn. (2023) Impact of carbon dioxide and nitrogen addition on the global structure of hydrogen flames. Fuel 335, pages 126929.
Crossref
Malte Döntgen, Sven Eckart, Chris Fritsche, Hartmut Krause & K. Alexander Heufer. (2023) Experimental and chemical kinetic modeling study of trimethoxy methane combustion. Proceedings of the Combustion Institute 39:1, pages 305-314.
Crossref
Chenlin Chen, Zhihua Wang, Zuochao Yu, Xinlu Han, Yong He, Yanqun Zhu & Alexander A. Konnov. (2023) Experimental and kinetic modeling study of laminar burning velocity enhancement by ozone additive in NH3+O2+N2 and NH3+CH4/C2H6/C3H8+air flames. Proceedings of the Combustion Institute 39:4, pages 4237-4246.
Crossref
Runfan Zhu, Xinlu Han, Ziyue Zhang, Yong He & Zhihua Wang. (2023) Experimental and kinetic study on laminar burning velocities of NH3/CH4/H2S/air flames. Fuel 332, pages 126174.
Crossref
Tamás Turányi. 2023. Hydrogen for Future Thermal Engines. Hydrogen for Future Thermal Engines 65 92 .
Marco Lubrano Lavadera, Christian Brackmann & Alexander A. Konnov. (2022) Laminar burning velocities and nitric oxide formation in premixed dimethyl ether/air flames: Experiments and kinetic modeling. Combustion and Flame 246, pages 112411.
Crossref
Alexander A. Konnov, Jundie Chen & Marco Lubrano Lavadera. (2022) Laminar burning velocities of cyclopropane flames. Combustion and Flame 246, pages 112395.
Crossref
Marco Lubrano Lavadera, Jundie Chen & Alexander A. Konnov. (2022) Laminar burning velocities of pyrrole/air flames: Experimental and comprehensive modeling study. Combustion and Flame 245, pages 112350.
Crossref
Marco Lubrano Lavadera, Christian Brackmann & Alexander A. Konnov. (2022) Experimental and modeling study of NO formation in ethyl formate + air flames. Combustion and Flame 245, pages 112322.
Crossref
A. S. Semenikhin, S. S. Matveev, I. V. Chechet, S. G. Matveev, D. V. Idrisov, N. I. Gurakov, D. V. Radin, S. S. Novichkova, N. I. Fokin, N. O. Simin, A. A. Ivanovskii & D. S. Tarasov. (2022) Kinetic Models of Methane-Hydrogen Mixture Combustion: Brief Review and Validation. Thermal Engineering 69:10, pages 792-801.
Crossref
Marco Lubrano Lavadera, Shishi Li, Christian Brackmann & Alexander A. Konnov. (2022) Experimental and modeling study of NO formation in methyl acetate + air flames. Combustion and Flame 242, pages 112213.
Crossref
Vladimir A. Alekseev, Nikita Bystrov, Alexander Emelianov, Alexander Eremin, Pavel Yatsenko & Alexander A. Konnov. (2022) High-temperature oxidation of acetylene by N2O at high Ar dilution conditions and in laminar premixed C2H2 + O2 + N2 flames. Combustion and Flame 238, pages 111924.
Crossref
Marco Lubrano Lavadera, Matteo Pelucchi & Alexander A. Konnov. (2022) The influence of ammonia on the laminar burning velocities of methylcyclohexane and toluene: An experimental and kinetic modeling study. Combustion and Flame 237, pages 111839.
Crossref
Yalin Wang, Yu Wang, Xueqian Zhang, Guoping Zhou, Beibei Yan & Rob J. M. Bastiaans. (2022) Experimental and Numerical Study of the Laminar Burning Velocity and Pollutant Emissions of the Mixture Gas of Methane and Carbon Dioxide. International Journal of Environmental Research and Public Health 19:4, pages 2078.
Crossref
Sven Eckart, Loreto Pizzuti, Chris Fritsche & Hartmut Krause. (2022) Experimental study and proposed power correlation for laminar burning velocity of hydrogen-diluted methane with respect to pressure and temperature variation. International Journal of Hydrogen Energy 47:9, pages 6334-6348.
Crossref
Elna J. K. Nilsson, Tomas Hurtig, Andreas Ehn & Christer Fureby. (2021) Laminar Burning Velocity of Lean Methane/Air Flames under Pulsed Microwave Irradiation. Processes 9:11, pages 2076.
Crossref
M.B. Raida, G.J. Hoetmer, A.A. Konnov, J.A. van Oijen & L.P.H. de Goey. (2021) Laminar burning velocity measurements of ethanol+air and methanol+air flames at atmospheric and elevated pressures using a new Heat Flux setup. Combustion and Flame 230, pages 111435.
Crossref
Marco Lubrano Lavadera & Alexander A. Konnov. (2021) Laminar burning velocities of propionic acid + air flames: Experimental, modeling and data consistency study. Combustion and Flame 230, pages 111431.
Crossref
Alexander A. Konnov, Elna J.K. Nilsson, Moah Christensen & Chong-Wen Zhou. (2021) Combustion chemistry of methoxymethanol. Part II: Laminar flames of methanol+formaldehyde fuel mixtures. Combustion and Flame 229, pages 111411.
Crossref
Praise Noah Johnson, Marco Lubrano Lavadera, Alexander A. Konnov & Krithika Narayanaswamy. (2021) Oxidation kinetics of methyl crotonate: A comprehensive modeling and experimental study. Combustion and Flame 229, pages 111409.
Crossref
Zhihua Wang, Xinlu Han, Yong He, Runfan Zhu, Yanqun Zhu, Zhijun Zhou & Kefa Cen. (2021) Experimental and kinetic study on the laminar burning velocities of NH3 mixing with CH3OH and C2H5OH in premixed flames. Combustion and Flame 229, pages 111392.
Crossref
D.V. Idirsov, S.S. Matveev, S.G. Matveev, A.D. Popov & A.N. Belousov. (2021) Laminar Burning Velocity of the Surrogate of Aircraft Kerosene and its Components. Laminar Burning Velocity of the Surrogate of Aircraft Kerosene and its Components.
Xinlu Han, Marco Lubrano Lavadera & Alexander A. Konnov. (2021) An experimental and kinetic modeling study on the laminar burning velocity of NH3+N2O+air flames. Combustion and Flame 228, pages 13-28.
Crossref
Niklas Zettervall, Christer Fureby & Elna J. K. Nilsson. (2021) Evaluation of Chemical Kinetic Mechanisms for Methane Combustion: A Review from a CFD Perspective. Fuels 2:2, pages 210-240.
Crossref
Marco Lubrano Lavadera, Xinlu Han & Alexander A. Konnov. (2020) Comparative Effect of Ammonia Addition on the Laminar Burning Velocities of Methane, n -Heptane, and Iso-octane . Energy & Fuels 35:9, pages 7156-7168.
Crossref
Marco Lubrano Lavadera, Christian Brackmann, Gianluca Capriolo, Torsten Methling & Alexander A. Konnov. (2021) Measurements of the laminar burning velocities and NO concentrations in neat and blended ethanol and n-heptane flames. Fuel 288, pages 119585.
Crossref
Marco Lubrano Lavadera & Alexander A. Konnov. (2021) Laminar burning velocities of methane + formic acid + air flames: Experimental and modeling study. Combustion and Flame 225, pages 65-73.
Crossref
Ahmed Abdulameer Abdulraheem, Adel Mahmood Saleh & Haroun AK Shahad. (2021) Measurements and Data Analysis Review of Laminar Burning Velocity and Flame Speed for Biofuel/Air Mixtures. IOP Conference Series: Materials Science and Engineering 1094:1, pages 012029.
Crossref
Sven Eckart, Chris Fritsche, Cornelius Krasselt & Hartmut Krause. (2020) Determining the laminar burning velocity of nitrogen diluted dimethoxymethane ( OME 1 ) using the heat‐flux burner method: Numerical and experimental investigations . International Journal of Energy Research 45:2, pages 2824-2836.
Crossref
G. Capriolo, C. Brackmann, M. Lubrano Lavadera, T. Methling & A.A. Konnov. (2021) An experimental and kinetic modeling study on nitric oxide formation in premixed C3 alcohols flames. Proceedings of the Combustion Institute 38:1, pages 805-812.
Crossref
Marco Lubrano Lavadera, Christian Brackmann & Alexander A. Konnov. (2021) Experimental and modeling study of laminar burning velocities and nitric oxide formation in premixed ethylene/air flames. Proceedings of the Combustion Institute 38:1, pages 395-404.
Crossref
Xinlu Han, Marco Lubrano Lavadera, Christian Brackmann, Zhihua Wang, Yong He & Alexander A. Konnov. (2021) Experimental and kinetic modeling study of NO formation in premixed CH4+O2+N2 flames. Combustion and Flame 223, pages 349-360.
Crossref
Ilya E. Gerasimov, Denis A. Knyazkov, Tatyana A. Bolshova, Andrey G. Shmakov, Oleg P. Korobeinichev, Maxime Carbonnier, Benoîte Lefort, Alan Kéromnès, Luis Le Moyne, Marco Lubrano Lavadera, Alexander A. Konnov, Chong-Wen Zhou, Zeynep Serinyel, Guillaume Dayma & Philippe Dagaut. (2020) Methyl-3-hexenoate combustion chemistry: Experimental study and numerical kinetic simulation. Combustion and Flame 222, pages 170-180.
Crossref
Shixing Wang, Zhihua Wang, Ayman M. Elbaz, Xinlu Han, Yong He, Mário Costa, Alexander A. Konnov & William L. Roberts. (2020) Experimental study and kinetic analysis of the laminar burning velocity of NH3/syngas/air, NH3/CO/air and NH3/H2/air premixed flames at elevated pressures. Combustion and Flame 221, pages 270-287.
Crossref
Kuiwen Zhang, Gianluca Capriolo, Gihun Kim, Bader Almansour, Anthony C. Terracciano, Subith S. Vasu, William J. Pitz & Alexander A. Konnov. (2020) Experimental and Kinetic Modeling Study of Laminar Burning Velocities of Cyclopentanone and Its Binary Mixtures with Ethanol and n -Propanol . Energy & Fuels 34:9, pages 11408-11416.
Crossref
Xinlu Han, Zhihua Wang, Yong He, Shixing Wang, Yingzu Liu & Alexander A. Konnov. (2020) Temperature dependence of the laminar burning velocity for n-heptane and iso-octane/air flames. Fuel 276, pages 118007.
Crossref
L. van Treek, N. Roth, L. Seidel & F. Mauss. (2020) Measurements of the laminar burning velocities of rich ethylene/air mixtures. Fuel 275, pages 117938.
Crossref
Shixing Wang, Zhihua Wang, Xinlu Han, Chenlin Chen, Yong He, Yanqun Zhu & Kefa Cen. (2020) Experimental and numerical study of the effect of elevated pressure on laminar burning velocity of lean H2/CO/O2/diluents flames. Fuel 273, pages 117753.
Crossref
Gianluca Capriolo & Alexander A. Konnov. (2020) Combustion of propanol isomers: Experimental and kinetic modeling study. Combustion and Flame 218, pages 189-204.
Crossref
Zhihua Wang, Xinlu Han, Yong He, Shixing Wang, Ran Ji, Yanqun Zhu & Kefa Cen. (2020) Investigation of flame and burner plate interaction during the heat flux method used for laminar burning velocity measurement. Fuel 266, pages 117051.
Crossref
G. Walter, H. Wang, A. Kanz, A. Kolbasseff, X. Xu, O. Haidn & N. Slavinskaya. (2020) Experimental error assessment of laminar flame speed measurements for digital chemical kinetics databases. Fuel 266, pages 117012.
Crossref
Marco Lubrano Lavadera & Alexander A. Konnov. (2020) Data Consistency of the Burning Velocity Measurements Using the Heat Flux Method: Syngas Flames. Energy & Fuels 34:3, pages 3725-3742.
Crossref
Junhu Zhou, Guangyi Liu, Zhihua Wang, Weijuan Yang, Jianzhong Liu & Kenfa Cen. (2020) Adiabatic laminar burning velocities of C3H8-O2-CO2 and C3H8-O2-N2 mixtures at ambient conditions-PART I: Experimental and numerical study. Fuel 263, pages 116533.
Crossref
Christian Brackmann, Torsten Methling, Marco Lubrano Lavadera, Gianluca Capriolo & Alexander A Konnov. (2020) Experimental and modeling study of nitric oxide formation in premixed methanol + air flames. Combustion and Flame 213, pages 322-330.
Crossref
Xinlu Han, Zhihua Wang, Yong He, Yanqun Zhu & Kefa Cen. (2020) Experimental and kinetic modeling study of laminar burning velocities of NH3/syngas/air premixed flames. Combustion and Flame 213, pages 1-13.
Crossref
Shixing Wang, Zhihua Wang, Yong He, Xinlu Han, Zhiwei Sun, Yanqun Zhu & Mario Costa. (2020) Laminar burning velocities of CH4/O2/N2 and oxygen-enriched CH4/O2/CO2 flames at elevated pressures measured using the heat flux method. Fuel 259, pages 116152.
Crossref
Lisa van Treek, Marco Lubrano Lavadera, Lars Seidel, Fabian Mauss & Alexander A. Konnov. (2019) Experimental and modelling study of laminar burning velocity of aqueous ethanol. Fuel 257, pages 116069.
Crossref
Xinlu Han, Zhihua Wang, Yong He, Shixing Wang, Yanqun Zhu & Alexander A. Konnov. (2019) Over-rich combustion of CH4, C2H6, and C3H8 +air premixed flames investigated by the heat flux method and kinetic modeling. Combustion and Flame 210, pages 339-349.
Crossref
E. J. K. Nilsson, T. Hurtig, A. Ehn & C. Fureby. (2019) A setup for studies of laminar flame under microwave irradiation. Review of Scientific Instruments 90:11.
Crossref
Sergey S. Matveev, Dmitriy V. Idrisov, Sergey G. Matveev & Alexander A. Konnov. (2019) Laminar burning velocities of surrogate components blended with ethanol. Combustion and Flame 209, pages 389-393.
Crossref
Elna J.K. Nilsson, Astrid van Sprang, Jenny Larfeldt & Alexander A. Konnov. (2019) Effect of natural gas composition on the laminar burning velocities at elevated temperatures. Fuel 253, pages 904-909.
Crossref
Amit Katoch, Adamu Alfazazi, S. Mani Sarathy & Sudarshan Kumar. (2019) Experimental and numerical investigations on the laminar burning velocity of n-butanol + air mixtures at elevated temperatures. Fuel 249, pages 36-44.
Crossref
Xinlu Han, Zhihua Wang, Mário Costa, Zhiwei Sun, Yong He & Kefa Cen. (2019) Experimental and kinetic modeling study of laminar burning velocities of NH3/air, NH3/H2/air, NH3/CO/air and NH3/CH4/air premixed flames. Combustion and Flame 206, pages 214-226.
Crossref
F. Rau, S. Hartl & C. Hasse. (2019) Numerical and experimental investigation of the laminar burning velocity of biofuels at atmospheric and high-pressure conditions. Fuel 247, pages 250-256.
Crossref
Saeid Zare, Shrabanti Roy, Aiman El Maadi & Omid Askari. (2019) An investigation on laminar burning speed and flame structure of anisole-air mixture. Fuel 244, pages 120-131.
Crossref
Alexander A. Konnov. (2019) Yet another kinetic mechanism for hydrogen combustion. Combustion and Flame 203, pages 14-22.
Crossref
Xinlu Han, Zhihua Wang, Shixing Wang, Ronald Whiddon, Yong He, Yu Lv & Alexander A. Konnov. (2019) Parametrization of the temperature dependence of laminar burning velocity for methane and ethane flames. Fuel 239, pages 1028-1037.
Crossref
Laurent Dupont, Hong Quan Do, Gianluca Capriolo, Alexander A. Konnov & Abderrahman El Bakali. (2019) Experimental and kinetic modeling study of para-xylene chemistry in laminar premixed flames. Fuel 239, pages 814-829.
Crossref
Amit Katoch, Adamu Alfazazi, S. Mani Sarathy, Ayush Chauhan, Rohit Kumar & Sudarshan Kumar. (2019) Measurement of laminar burning velocity of n-pentanol + air mixtures at elevated temperatures and a skeletal kinetic model. Fuel 237, pages 10-17.
Crossref
Ahfaz Ahmed, William J. Pitz, Carlo Cavallotti, Marco Mehl, Nitin Lokachari, Elna J.K. Nilsson, Jui-Yang Wang, Alexander A. Konnov, Scott W. Wagnon, Bingjie Chen, Zhandong Wang, Seonah Kim, Henry J. Curran, Stephen J. Klippenstein, William L. Roberts & S. Mani Sarathy. (2019) Small ester combustion chemistry: Computational kinetics and experimental study of methyl acetate and ethyl acetate. Proceedings of the Combustion Institute 37:1, pages 419-428.
Crossref
Vinod Kumar Yadav, Anjan Ray & M.R. Ravi. (2019) Experimental and computational investigation of the laminar burning velocity of hydrogen-enriched biogas. Fuel 235, pages 810-821.
Crossref
Vinod Kumar Yadav, A. R. Khan, Shriyansh Srivastava & Vinay Yadav. 2019. Advances in Engineering Design. Advances in Engineering Design 259 268 .
Ashok Patil Abhishek & G. N. Kumar. 2019. Advances in Fluid and Thermal Engineering. Advances in Fluid and Thermal Engineering 763 772 .
Zhihua Wang, Shixing Wang, Ronald Whiddon, Xinlu Han, Yong He & Kefa Cen. (2018) Effect of hydrogen addition on laminar burning velocity of CH4/DME mixtures by heat flux method and kinetic modeling. Fuel 232, pages 729-742.
Crossref
Gianluca Capriolo, Vladimir A. Alekseev & Alexander A. Konnov. (2018) An experimental and kinetic study of propanal oxidation. Combustion and Flame 197, pages 11-21.
Crossref
Vladimir A. Alekseev, Sergey S. Matveev, Ivan V. Chechet, Sergey G. Matveev & Alexander A. Konnov. (2018) Laminar burning velocities of methylcyclohexane + air flames at room and elevated temperatures: A comparative study. Combustion and Flame 196, pages 99-107.
Crossref
Alexander A. Konnov, Akram Mohammad, Velamati Ratna Kishore, Nam Il Kim, Chockalingam Prathap & Sudarshan Kumar. (2018) A comprehensive review of measurements and data analysis of laminar burning velocities for various fuel+air mixtures. Progress in Energy and Combustion Science 68, pages 197-267.
Crossref
Vladimir A. Alekseev & Alexander A. Konnov. (2018) Data consistency of the burning velocity measurements using the heat flux method: Hydrogen flames. Combustion and Flame 194, pages 28-36.
Crossref
Christian Brackmann, Jenny D. Nauclér, Said El-Busaidy, Ali Hosseinnia, Per-Erik Bengtsson, Alexander A. Konnov & Elna J.K. Nilsson. (2018) Experimental studies of nitromethane flames and evaluation of kinetic mechanisms. Combustion and Flame 190, pages 327-336.
Crossref
Scott W. Wagnon, Sébastien Thion, Elna J.K. Nilsson, Marco Mehl, Zeynep Serinyel, Kuiwen Zhang, Philippe Dagaut, Alexander A. Konnov, Guillaume Dayma & William J. Pitz. (2018) Experimental and modeling studies of a biofuel surrogate compound: laminar burning velocities and jet-stirred reactor measurements of anisole. Combustion and Flame 189, pages 325-336.
Crossref
Carsten Olm, Tamás Varga, Éva Valkó, Henry J. Curran & Tamás Turányi. (2017) Uncertainty quantification of a newly optimized methanol and formaldehyde combustion mechanism. Combustion and Flame 186, pages 45-64.
Crossref
Moah Christensen & Alexander A. Konnov. (2017) Laminar burning velocity of diacetyl + air flames. Further assessment of combustion chemistry of ketene. Combustion and Flame 178, pages 97-110.
Crossref
Elna J.K. Nilsson, Astrid van Sprang, Jenny Larfeldt & Alexander A. Konnov. (2017) The comparative and combined effects of hydrogen addition on the laminar burning velocities of methane and its blends with ethane and propane. Fuel 189, pages 369-376.
Crossref
V.A. Alekseev, J.V. Soloviova-Sokolova, S.S. Matveev, I.V. Chechet, S.G. Matveev & A.A. Konnov. (2017) Laminar burning velocities of n-decane and binary kerosene surrogate mixture. Fuel 187, pages 429-434.
Crossref
Moah Christensen & Alexander A. Konnov. (2016) Laminar burning velocity of acetic acid + air flames. Combustion and Flame 170, pages 12-29.
Crossref
Mahdi Faghih & Zheng Chen. (2016) The constant-volume propagating spherical flame method for laminar flame speed measurement. Science Bulletin 61:16, pages 1296-1310.
Crossref
Jenny D. Naucler, Louis Sileghem, Elna J.K. Nilsson, Sebastian Verhelst & Alexander A. Konnov. (2015) Performance of methanol kinetic mechanisms at oxy-fuel conditions. Combustion and Flame 162:5, pages 1719-1728.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.