Use of Maximum Entropy Principle as a Guide in Design of Spray Nozzles.
Abstract
The maximum entropy model predicted, under certain operating conditions, that a spray will have a bimodal size distribution. Experiments were performed that verified this prediction. In searching the literature, other researchers have observed bimodal size distributions over limited range of operation. Their experimental results were compared with the calculated values and they agreed. Experiments were performed on the disentegration of a cylindrical liquid jet (Rayleigh problem). This flow results in a very strong bimodal size distribution consisting of primary drops and satellite drops. The maximum entropy theory was modified to account for non-sphericity of the droplets. The computed size and velocity distributions (non-Gaussian) agreed with theory. Experiments were also performed on a heated cylindrical liquid jet. The maximum entropy theory was extended to include not only size and velocity distributions but also temperature distributions. There is agreement between theory and experiments.
Document Details
- Document Type
- Technical Report
- Publication Date
- Aug 21, 1995
- Accession Number
- ADA299119
Entities
People
- Long P. Chin
- P. C. Hsing
- Richard S. Tankin
Organizations
- Northwestern University