The present study investigates the effect of injection pressure and ambient oxygen concentration variations on the Engine Combustion Network Spray A flame. The two-stage ignition and combustion processes for individual injections are characterized using a high-speed planar laser-induced fluorescence (PLIF) and schlieren imaging diagnostic at high pressure (near 6 MPa). For PLIF measurements, we use a pulse-burst-mode Nd:YAG laser capable of producing a 6 ms long 355-nm pulse-train with 300 pulses at 70 mJ/pulse, separated by 20 µs. The PLIF imaging at high-acquisition rate offers unique insights into understanding the spatiotemporal distribution of formaldehyde (CH2O) and polycyclic aromatic hydrocarbons (PAH). High-speed line-of-sight schl...
Most practical propulsion and power generation systems based on gas turbine engines operate at eleva...
The detection of the formyl radical (HCO) is of great interest in the field of combustion research s...
This article deals with the application of OH planar laser-induced fluorescence (PLIF) to the study ...
The present study investigates the effect of injection pressure and ambient oxygen concentration var...
The low- and high-temperature ignition and combustion processes in a high-pressure spray flame of n-...
The interaction of multiple injections in a diesel engine facilitates a complex interplay between fr...
Copyright © 2017 by ASME. Studies are performed in a constant volume preburn type combustion vessel ...
The transient and quasi-steady flame structure of reacting fuel sprays produced by single-hole injec...
Simultaneous laser-induced fluorescence (LIF) imaging of formaldehyde and a fuel-tracer have been pe...
Planar laser-induced fluorescence (PLIF) is a spectroscopic diagnostic method used widely in combust...
Multiple-injection strategies are characterized by a complex and transient interplay between high- a...
For better understanding of the transient behavior of the flow/flame interaction in highly turbulent...
In order to obtain more detailed characteristics and information in highly turbulent flames, for a b...
Abstract Recently, we have completed the development of an The ability to obtain quantitative planar...
Most practical propulsion and power generation systems based on gas turbine engines operate at eleva...
The detection of the formyl radical (HCO) is of great interest in the field of combustion research s...
This article deals with the application of OH planar laser-induced fluorescence (PLIF) to the study ...
The present study investigates the effect of injection pressure and ambient oxygen concentration var...
The low- and high-temperature ignition and combustion processes in a high-pressure spray flame of n-...
The interaction of multiple injections in a diesel engine facilitates a complex interplay between fr...
Copyright © 2017 by ASME. Studies are performed in a constant volume preburn type combustion vessel ...
The transient and quasi-steady flame structure of reacting fuel sprays produced by single-hole injec...
Simultaneous laser-induced fluorescence (LIF) imaging of formaldehyde and a fuel-tracer have been pe...
Planar laser-induced fluorescence (PLIF) is a spectroscopic diagnostic method used widely in combust...
Multiple-injection strategies are characterized by a complex and transient interplay between high- a...
For better understanding of the transient behavior of the flow/flame interaction in highly turbulent...
In order to obtain more detailed characteristics and information in highly turbulent flames, for a b...
Abstract Recently, we have completed the development of an The ability to obtain quantitative planar...
Most practical propulsion and power generation systems based on gas turbine engines operate at eleva...
The detection of the formyl radical (HCO) is of great interest in the field of combustion research s...
This article deals with the application of OH planar laser-induced fluorescence (PLIF) to the study ...