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Effects of fuel structure on soot precursors in a laminar co-flow flame
A. Makwana
, A. Jain
, M. Linevsky
,
S. Iyer
, R. Santoro
, T. Litzinger
,
Y. Xuan
,
J. O'Connor
Larson Pennsylvania Transportation Institute
College of Engineering
Mechanical Engineering
Materials Research Institute (MRI)
Leonhard Center for the Enhancement of Engineering Education
Research output
:
Contribution to conference
›
Paper
›
peer-review
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Keyphrases
Polycyclic Aromatic Hydrocarbons
100%
Soot Precursors
100%
Fuel Structure
100%
Coflow Flames
100%
N-Dodecane
66%
Non-premixed
33%
Aromatics
33%
M-xylene
33%
Iso-octane
33%
Jet Flame
33%
Spatial Development
33%
Carbon Flow
16%
Total Carbon
16%
Atmospheric Pressure
16%
Soot Model
16%
Molecular Structure
16%
Premixed Flame
16%
Flame Mode
16%
Spatially Resolved
16%
Equivalence Ratio
16%
Laminar Jet
16%
Hydrocarbon Precursors
16%
Premixed
16%
Laminar Flames
16%
Coflow
16%
Laser-induced Fluorescence Method
16%
Engineering
Aromatics
100%
Isooctane
28%
Flame
28%
Flow Rate
14%
Axisymmetric
14%
Simulation Result
14%
Experimental Result
14%
Equivalence Ratio
14%
Laminar Flows
14%
Aromatic Ring
14%
Downstream Direction
14%
Flow Velocity
14%
Atmospheric Pressure
14%
Premixed Flame
14%