RT Journal Article
ID 121773bd66a2fefc
A1 Marx, K. D.
A1 Edwards, Christopher F.
A1 Chin, W. K.
T1 LIMITATIONS OF THE IDEAL PHASE-DOPPLER SYSTEM: EXTENSION TO SPATIALLY AND TEMPORALLY INHOMOGENEOUS PARTICLE FLOWS
JF Atomization and Sprays
JO AAS
YR 1994
FD 1994-03-01
VO 4
IS 1
SP 1
OP 40
AB The effect of the single-particle constraint on the response of phase-Doppler instruments is determined for particle flows that are spatially nonuniform and time-dependent. Poisson statistics are applied to particle positions and arrival times within the phase-Doppler probe volume to determine the probability that a particle is measured successfully. It is shown that the single-particle constraint can be viewed as applying spatial and temporal filters to the particle flow. These filters have the same meaning as those that were defined previously for uniform, steady-state sprays &#91;1&#93;, but in space- and time-dependent form. Criteria are developed for determining when a fully inhomogeneous analysis of a flow is required and when a quasi-steady analysis will suffice. A new bias due to particle arrival time displacement is identified, and the conditions under which it must be considered are established.<br>The present work provides the means to rigorously investigate the response of phase-Doppler measurement systems to transient sprays such as those that occur in diesel engines. To this end, the results are applied to a numerical simulation of a diesel spray. The calculated hypothetical response of the ideal instrument provides a quantitative demonstration of the regimes within which measurements can accurately be made in such sprays.
PB Begell House
LK https://www.dl.begellhouse.com/journals/6a7c7e10642258cc,63414ea74bc2f191,121773bd66a2fefc.html