Sentence examples for jet trajectory from inspiring English sources
The results on the liquid jet trajectory and subsequent droplets flight paths are presented.
A correlation is introduced for the jet trajectory in low crossflow speeds and electric field intensities.
A rigorous mathematical model for the jet trajectory was developed based on geometric analysis, mass conservation, and momentum.
To assess the ability of the mathematical model to predict the jet trajectory, extensive experimental results were extracted for comparison with the mathematical results.
Although both studied models are generally able to reproduce jet trajectory, jet separation downstream of the impingement has been reproduced only by RANS modelling.
The focusing of the electric field and the guiding effect of the jet trajectory due to the additional sharp-pin electrode are studied and demonstrated.
The comparison of the numerical predictions with experimental data for the jet trajectories shows very good agreement.
The proposed SPH model is validated both near the jet nozzle and far from it, comparing the obtained jet trajectories, widths and velocities with other numerical approaches, laboratory experiments and analytical solutions.
Power law correlations for non-reacting JICF trajectory from the literature were found to over-predict the experimental non-reacting jet trajectories due to the greater degree of confinement present in the experimental configuration compared to previous studies.
Further, to developing a theory on the isolated jet pair in a previous publication, where the jet trajectories were predicted and compared with experimental data with good agreement, new experimental results of cold modeling by using flow visualization and laser Doppler velocimetry (LDV) are reported in this paper.
The Federal Aviation Administration noise contours of the modeled annual 65 dB A-weighted equivalent (LAeq) noise threshold are shown extending eastward along the predominant downwind direction and reflect the jet trajectories used for landing.
