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Autoignited DME/air coflow flames in oscillating flows
Sili Deng
, Peng Zhao
,
Michael Edward Mueller
,
Chung King Law
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Princeton Institute for Computational Science and Engineering
Princeton Materials Institute
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Keyphrases
Autoignition
100%
Coflow Flames
100%
Dimethyl Ether
100%
Air Coflow
100%
Oscillatory Flow
100%
Tribrachial Flame
42%
Flow Velocity
28%
Inlet Velocity
28%
Residence Time
14%
Elevated Temperature
14%
Non-premixed
14%
Elevated Pressure
14%
Flame Propagation
14%
Hysteretic
14%
Coflow
14%
Steady Flow
14%
Detailed Chemistry
14%
Thermal Structure
14%
Low Velocity
14%
Dominant Pathways
14%
Reacting Flow
14%
Displacement Velocity
14%
Hysteretic Behavior
14%
Oscillation Cycle
14%
Induction Time
14%
Velocity Limit
14%
Velocity Oscillation
14%
Combustion Mode Transition
14%
Heat Accumulation
14%
Normalized Displacement
14%
Flow Transition
14%
Finite Induction
14%
Engineering
Autoignition
100%
Oscillating Flow
100%
Flow Velocity
28%
Inlet Velocity
28%
Elevated Temperature
14%
Elevated Pressure
14%
Flame Propagation
14%
Harmonics
14%
Combustion Mode
14%
Steady Flow
14%
Reacting Flow
14%
Oscillation Cycle
14%
Induction Time
14%