Advanced search
Publication Cover
Combustion Science and Technology Volume 113, 1996 - Issue 1
Submit an article Journal homepage
138
Views
33
CrossRef citations to date
0
Altmetric
Original Articles

Temperature Distribution Induced by Pre-lgnition Reactions in a Rapid Compression Machine

P. DESGROUX Université des Sciences et Technologies de Lille. Laboratoire de Cinétique et Chimie de la Combustion, URA CNRS 876 - Bâtiment C11, VILLENEUVE, D'ASCQ Cedex, 59655, France
,
R. MINETTI Université des Sciences et Technologies de Lille. Laboratoire de Cinétique et Chimie de la Combustion, URA CNRS 876 - Bâtiment C11, VILLENEUVE, D'ASCQ Cedex, 59655, France
&
L. R. SOCHET Université des Sciences et Technologies de Lille. Laboratoire de Cinétique et Chimie de la Combustion, URA CNRS 876 - Bâtiment C11, VILLENEUVE, D'ASCQ Cedex, 59655, France
Pages 193-203 | Received 01 Mar 1996, Published online: 23 Jun 2010

Citations (33)

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 (2)

Abhinav Tripathi & Zongxuan Sun. (2020) A Controlled Trajectory Rapid Compression and Expansion Machine (CT-RCEM) for Chemical Kinetic Investigations. Combustion Science and Technology 192:9, pages 1754-1771.
Read now
GAURAV MITTAL & CHIH-JEN SUNG*. (2007) A RAPID COMPRESSION MACHINE FOR CHEMICAL KINETICS STUDIES AT ELEVATED PRESSURES AND TEMPERATURES. Combustion Science and Technology 179:3, pages 497-530.
Read now

Articles from other publishers (31)

M.A. Burnett, C. Daniels, L. Wei, M.S. Wooldridge & Z. Wang. (2023) A computational and experimental study of the effects of thermal boundary layers and negative coefficient chemistry on propane ignition delay times. Combustion and Flame 257, pages 112415.
Crossref
H. Ossman, C. Strozzi, J. Sotton & M. Bellenoue. (2023) Thermal and Aerodynamic Characterization of a Creviced and Squared Piston Rapid Compression Machine: Extending the Validity of the Adiabatic Core Hypothesis, Generating Controlled Temperature Gradients. Flow, Turbulence and Combustion 111:4, pages 1371-1394.
Crossref
Maysam Molana & Omid Samimi-Abianeh. (2023) Optical diagnostics of pentane autoignition using corrected filtered natural emission of species (C-FNES) technique. Journal of Quantitative Spectroscopy and Radiative Transfer 296, pages 108444.
Crossref
Christian Michelbach & Alison Tomlin. (2021) An experimental and kinetic modeling study of the ignition delay and heat release characteristics of a five component gasoline surrogate and its blends with iso‐butanol within a rapid compression machine. International Journal of Chemical Kinetics 53:6, pages 787-808.
Crossref
Toby Rockstroh, Aleksandr Fridlyand, Stephen Ciatti, William Cannella & S. Scott Goldsborough. (2019) Autoignition behavior of a full boiling-range gasoline: Observations in RCM and GCI engine environments. Combustion and Flame 209, pages 239-255.
Crossref
Aleksandr Fridlyand, S. Scott Goldsborough, Mariam Al Rashidi, S. Mani Sarathy, Marco Mehl & William J. Pitz. (2019) Low temperature autoignition of 5-membered ring naphthenes: Effects of substitution. Combustion and Flame 200, pages 387-404.
Crossref
Moez Ben Houidi, Julien Sotton, Marc Bellenoue & Camille Strozzi. (2019) Effects of low temperature heat release on the aerodynamics of a flat piston rapid compression machine: Impact on velocity and temperature fields. Proceedings of the Combustion Institute 37:4, pages 4777-4785.
Crossref
S. Scott Goldsborough, Jeffrey Santner, Dongil Kang, Aleksandr Fridlyand, Toby Rockstroh & Mads C. Jespersen. (2019) Heat release analysis for rapid compression machines: Challenges and opportunities. Proceedings of the Combustion Institute 37:1, pages 603-611.
Crossref
S. Scott Goldsborough, Simone Hochgreb, Guillaume Vanhove, Margaret S. Wooldridge, Henry J. Curran & Chih-Jen Sung. (2017) Advances in rapid compression machine studies of low- and intermediate-temperature autoignition phenomena. Progress in Energy and Combustion Science 63, pages 1-78.
Crossref
Jagannath Jayachandran & Fokion N. Egolfopoulos. (2017) Thermal and Ludwig–Soret diffusion effects on near-boundary ignition behavior of reacting mixtures. Proceedings of the Combustion Institute 36:1, pages 1505-1511.
Crossref
Moez Ben Houidi, Julien Sotton & Marc Bellenoue. (2016) Interpretation of auto-ignition delays from RCM in the presence of temperature heterogeneities: Impact on combustion regimes and negative temperature coefficient behavior. Fuel 186, pages 476-495.
Crossref
Chih-Jen Sung & Henry J. Curran. (2014) Using rapid compression machines for chemical kinetics studies. Progress in Energy and Combustion Science 44, pages 1-18.
Crossref
Gaurav Mittal & Mickael Chomier. (2014) Effect of crevice mass transfer in a rapid compression machine. Combustion and Flame 161:2, pages 398-404.
Crossref
Gaurav Mittal & Mickael Chomier. (2014) Interpretation of experimental data from rapid compression machines without creviced pistons. Combustion and Flame 161:1, pages 75-83.
Crossref
Gaurav Mittal & Anil Bhari. (2013) A rapid compression machine with crevice containment. Combustion and Flame 160:12, pages 2975-2981.
Crossref
S.S. Goldsborough, G. Mittal & C. Banyon. (2013) Methodology to account for multi-stage ignition phenomena during simulations of RCM experiments. Proceedings of the Combustion Institute 34:1, pages 685-693.
Crossref
Gaurav Mittal & Sreenath Gupta. (2012) Computational assessment of an approach for implementing crevice containment in rapid compression machines. Fuel 102, pages 536-544.
Crossref
S. Scott Goldsborough, Colin Banyon & Gaurav Mittal. (2012) A computationally efficient, physics-based model for simulating heat loss during compression and the delay period in RCM experiments. Combustion and Flame 159:12, pages 3476-3492.
Crossref
Camille Strozzi, Arnaud Mura, Julien Sotton & Marc Bellenoue. (2012) Experimental analysis of propagation regimes during the autoignition of a fully premixed methane–air mixture in the presence of temperature inhomogeneities. Combustion and Flame 159:11, pages 3323-3341.
Crossref
Gaurav Mittal, Mandhapati P. Raju & Chih-Jen Sung. (2012) Vortex formation in a rapid compression machine: Influence of physical and operating parameters. Fuel 94, pages 409-417.
Crossref
Gaurav Mittal, Mandhapati P. Raju & Anil Bhari. (2011) A numerical assessment of the novel concept of crevice containment in a rapid compression machine. Combustion and Flame 158:12, pages 2420-2427.
Crossref
Frédérique Battin-Leclerc, Edward Blurock, Roda Bounaceur, René Fournet, Pierre-Alexandre Glaude, Olivier Herbinet, Baptiste Sirjean & V. Warth. (2011) Towards cleaner combustion engines through groundbreaking detailed chemical kinetic models. Chemical Society Reviews 40:9, pages 4762.
Crossref
Subith S. Vasu, David F. Davidson & Ronald K. Hanson. (2010) Shock-Tube Experiments and Kinetic Modeling of Toluene Ignition. Journal of Propulsion and Power 26:4, pages 776-783.
Crossref
Gaurav Mittal, Mandhapati P. Raju & Chih-Jen Sung. (2010) CFD modeling of two-stage ignition in a rapid compression machine: Assessment of zero-dimensional approach. Combustion and Flame 157:7, pages 1316-1324.
Crossref
Camille Strozzi, Julien Sotton, Arnaud Mura & Marc Bellenoue. (2009) Characterization of a two-dimensional temperature field within a rapid compression machine using a toluene planar laser-induced fluorescence imaging technique. Measurement Science and Technology 20:12, pages 125403.
Crossref
Gaurav Mittal & Chih-Jen Sung. (2006) Aerodynamics inside a rapid compression machine. Combustion and Flame 145:1-2, pages 160-180.
Crossref
M.T. Donovan, X. He, B.T. Zigler, T.R. Palmer, M.S. Wooldridge & A. Atreya. (2004) Demonstration of a free-piston rapid compression facility for the study of high temperature combustion phenomena. Combustion and Flame 137:3, pages 351-365.
Crossref
J.F Griffiths & B.J Whitaker. (2002) Thermokinetic interactions leading to knock during homogeneous charge compression ignition. Combustion and Flame 131:4, pages 386-399.
Crossref
J Clarkson, J.F Griffiths, J.P MacNamara & B.J Whitaker. (2001) Temperature fields during the development of combustion in a rapid compression machine. Combustion and Flame 125:3, pages 1162-1175.
Crossref
L Brett, J Macnamara, P Musch & J.M Simmie. (2001) Simulation of methane autoignition in a rapid compression machine with creviced pistons. Combustion and Flame 124:1-2, pages 326-329.
Crossref
Daeyup Lee & Simone Hochgreb. (1998) Rapid Compression Machines: Heat Transfer and Suppression of Corner Vortex. Combustion and Flame 114:3-4, pages 531-545.
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.