Time and spatially resolved temperature measurements of a combusting diesel spray impinging on a wall
Journal article, 2008
The interaction between a combusting diesel spray and a wall
was studied by measuring the spray flame temperature time
and spatially resolved. The influence of injection sequences,
injection pressure and gas conditions on the heat transfer between
the combusting spray and the wall was investigated by
measuring the flame temperature during the complete injection
event.
The flame temperature was measured by an emission based optical
method and determined by comparing the relative emission
intensities from the soot in the flame at two wavelength intervals.
The measurements were done by employing a monochromatic
and non intensified high speed camera, an array of mirrors, interference
filters and a beam splitter. The studies were carried
out in the Chalmers High Pressure High Temperature (HP/HT)
spray rig at conditions similar to those prevailing in a direct injected
diesel engine prior to the injection of fuel. Fuel was injected
into the combustion chamber by a common rail system
using an injector with a single hole nozzle. The combusting
spray impinged on a wall whose temperature was similar to the
combustion chamber gas temperature.
Results of these experiments show variations in the flame temperature
as a consequence of the interaction between the combusting
spray and the wall. There is a reduction in the flame
temperature after impingement followed by a temperature rise
as the wall is heated up by the flame. The effects caused by injection
pressure, injection sequences and gas temperature lead
to differences