This study presents fundamentals of spray and partially premixed combustion characteristics of directly injected methane in a constant volume combustion chamber (CVCC). The constant volume vessel is a cylinder with inside diameter of 135 mm and inside height of 135 mm. Two end of the vessel are equipped with optical windows. A high speed complementary metal oxide semiconductor (CMOS) camera capable of capturing pictures up to 40,000 frames per second is used to observe flow conditions inside the chamber. The injected fuel jet generates turbulence in the vessel and forms a turbulent heterogeneous fuel–air mixture in the vessel, similar to that in a compressed natural gas (CNG) direct-injection (DI) engine. The fuel–air mixture is ignited by centrally located electrodes at a given spark delay timing of 1, 40, 75, and 110 ms. In addition to the four delay times, a 5 min waiting period was used in order to make sure of having laminar homogeneous combustion. Spray development and characterization including spray tip penetration (STP), spray cone angle (SCA), and overall equivalence ratio were investigated under 30–90 bar fuel pressures and 1–5 bar chamber pressure. Flame propagation images and combustion characteristics were determined via pressure-derived parameters and analyzed at a fuel pressure of 90 bar and a chamber pressure of 1 bar at different stratification ratios (S.R.) (from 0% to 100%) at overall equivalence ratios of 0.6, 0.8, and 1.0. Shorter combustion duration and higher combustion pressure were observed in direct injection-type combustion at all fuel air equivalence ratios compared to those of homogeneous combustion.
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Sharif University of Technology,
Tehran, 11155-8639,
e-mail: o_asgari@mech.sharif.edu
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: metghalchi@coe.neu.edu
Sharif University of Technology,
Tehran, 11155-8639,
e-mail: hannani@sharif.edu
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: moghaddas.a@neu.edu
KNTU University of Technology,
Tehran, 19991-43344,
e-mail: rebrahimi@kntu.ac.ir
IAUCTB University,
Tehran, 14168-94351,
e-mail: hadismech@gmail.com
Article navigation
June 2013
Research-Article
Fundamental Study of Spray and Partially Premixed Combustion of Methane/Air Mixture
Omid Askari,
Sharif University of Technology,
Tehran, 11155-8639,
e-mail: o_asgari@mech.sharif.edu
Omid Askari
Department of Mechanical Engineering
,Sharif University of Technology,
Tehran, 11155-8639,
Iran
e-mail: o_asgari@mech.sharif.edu
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Hameed Metghalchi,
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: metghalchi@coe.neu.edu
Hameed Metghalchi
Department of Mechanical and
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: metghalchi@coe.neu.edu
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Siamak Kazemzadeh Hannani,
Sharif University of Technology,
Tehran, 11155-8639,
e-mail: hannani@sharif.edu
Siamak Kazemzadeh Hannani
Department of Mechanical Engineering
,Sharif University of Technology,
Tehran, 11155-8639,
Iran
e-mail: hannani@sharif.edu
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Ali Moghaddas,
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: moghaddas.a@neu.edu
Ali Moghaddas
Department of Mechanical and
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: moghaddas.a@neu.edu
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Reza Ebrahimi,
KNTU University of Technology,
Tehran, 19991-43344,
e-mail: rebrahimi@kntu.ac.ir
Reza Ebrahimi
Department of Aerospace Engineering
,KNTU University of Technology,
Tehran, 19991-43344,
Iran
e-mail: rebrahimi@kntu.ac.ir
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Hadis Hemmati
IAUCTB University,
Tehran, 14168-94351,
e-mail: hadismech@gmail.com
Hadis Hemmati
Department of Mechanical Engineering
,IAUCTB University,
Tehran, 14168-94351,
Iran
e-mail: hadismech@gmail.com
Search for other works by this author on:
Omid Askari
Department of Mechanical Engineering
,Sharif University of Technology,
Tehran, 11155-8639,
Iran
e-mail: o_asgari@mech.sharif.edu
Hameed Metghalchi
Department of Mechanical and
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: metghalchi@coe.neu.edu
Siamak Kazemzadeh Hannani
Department of Mechanical Engineering
,Sharif University of Technology,
Tehran, 11155-8639,
Iran
e-mail: hannani@sharif.edu
Ali Moghaddas
Department of Mechanical and
Industrial Engineering,
Northeastern University,
Boston, MA 02115
e-mail: moghaddas.a@neu.edu
Reza Ebrahimi
Department of Aerospace Engineering
,KNTU University of Technology,
Tehran, 19991-43344,
Iran
e-mail: rebrahimi@kntu.ac.ir
Hadis Hemmati
Department of Mechanical Engineering
,IAUCTB University,
Tehran, 14168-94351,
Iran
e-mail: hadismech@gmail.com
Contributed by the Internal Combustion Engine Division of ASME for publication in the Journal of Energy Resources Technology. Manuscript received April 30, 2012; final manuscript received October 6, 2012; published online December 19, 2012. Assoc. Editor: Kevin M. Lyons.
J. Energy Resour. Technol. Jun 2013, 135(2): 021001 (9 pages)
Published Online: December 19, 2012
Article history
Received:
April 30, 2012
Revision Received:
October 6, 2012
Citation
Askari, O., Metghalchi, H., Kazemzadeh Hannani, S., Moghaddas, A., Ebrahimi, R., and Hemmati, H. (December 19, 2012). "Fundamental Study of Spray and Partially Premixed Combustion of Methane/Air Mixture." ASME. J. Energy Resour. Technol. June 2013; 135(2): 021001. https://doi.org/10.1115/1.4007911
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