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Atomization and Sprays

Published 12 issues per year

ISSN Print: 1044-5110

ISSN Online: 1936-2684

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) IF: 1.2 To calculate the five year Impact Factor, citations are counted in 2017 to the previous five years and divided by the source items published in the previous five years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) 5-Year IF: 1.8 The Immediacy Index is the average number of times an article is cited in the year it is published. The journal Immediacy Index indicates how quickly articles in a journal are cited. Immediacy Index: 0.3 The Eigenfactor score, developed by Jevin West and Carl Bergstrom at the University of Washington, is a rating of the total importance of a scientific journal. Journals are rated according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals. Eigenfactor: 0.00095 The Journal Citation Indicator (JCI) is a single measurement of the field-normalized citation impact of journals in the Web of Science Core Collection across disciplines. The key words here are that the metric is normalized and cross-disciplinary. JCI: 0.28 SJR: 0.341 SNIP: 0.536 CiteScore™:: 1.9 H-Index: 57

Indexed in

A BOUNDARY-ELEMENT METHOD FOR ATOMIZATION OF A FINITE LIQUID JET

Volume 5, Issue 6, 1995, pp. 621-638
DOI: 10.1615/AtomizSpr.v5.i6.60
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ABSTRACT

A boundary-element method (BEM) has been developed to investigate the nonlinear evolution of the surface of liquid jets injected from circular orifices. The current treatment focuses on the low-speed jet in which liquid viscosity and gas-phase pressure interactions are of minor importance. The model properly reflects both the presence of the orifice as well as the internal flow geometry. The model has been validated against nonlinear droplet oscillation calculations of other researchers. Results arc presented for flows within the dripping and Rayleigh breakup regimes.

CITED BY
  1. Hilbing James H., Heister Stephen D., Droplet size control in liquid jet breakup, Physics of Fluids, 8, 6, 1996. Crossref

  2. Park Hongbok, Yoon Sam S., Heister Stephen D., A nonlinear atomization model for computation of drop size distributions and spray simulations, International Journal for Numerical Methods in Fluids, 48, 11, 2005. Crossref

  3. Heister S.D., Boundary element methods for two-fluid free surface flows, Engineering Analysis with Boundary Elements, 19, 4, 1997. Crossref

  4. Park Hongbok, Heister Stephen D., Nonlinear simulation of free surfaces and atomization in pressure swirl atomizers, Physics of Fluids, 18, 5, 2006. Crossref

  5. Chao Chien-Chi, Three-dimensional free surface simulation, Mathematics and Computers in Simulation, 81, 6, 2011. Crossref

  6. Sirignano W.A, Mehring C, Review of theory of distortion and disintegration of liquid streams, Progress in Energy and Combustion Science, 26, 4-6, 2000. Crossref

  7. Padrino J. C., Joseph D. D., Viscous irrotational analysis of the deformation and break-up time of a bubble or drop in uniaxial straining flow, Journal of Fluid Mechanics, 688, 2011. Crossref

  8. Park Ki Sun, Heister Stephen D., On the parallelization of unsteady BEM problems with variable mesh size, Engineering Analysis with Boundary Elements, 34, 3, 2010. Crossref

  9. Murray I.F., Heister S.D., On a droplet's response to acoustic excitation, International Journal of Multiphase Flow, 25, 3, 1999. Crossref

  10. Chao Chien-Chi, Heister Steve D, Contributions of atomization to F-1 engine combustion instabilities, Engineering Analysis with Boundary Elements, 28, 9, 2004. Crossref

  11. Ahmed M., Youssef M., Abou-Al-Sood M., Two-dimensional modeling of viscous liquid jet breakup, Acta Mechanica, 224, 3, 2013. Crossref

  12. Heister S. D., Rutz M. W., Hilbing J. H., Effect of Acoustic Perturbations on Liquid Jet Atomization, Journal of Propulsion and Power, 13, 1, 1997. Crossref

  13. Yoon Sam S., Heister Stephen D., A fully non-linear model for atomization of high-speed jets, Engineering Analysis with Boundary Elements, 28, 4, 2004. Crossref

  14. Distortion and Disintegration of Liquid Streams, in Liquid Rocket Thrust Chambers, 2004. Crossref

  15. Li Yibao, Yun Ana, Kim Junseok, An immersed boundary method for simulating a single axisymmetric cell growth and division, Journal of Mathematical Biology, 65, 4, 2012. Crossref

  16. Setiawan E.R., Heister S.D., Nonlinear modeling of an infinite electrified jet, Journal of Electrostatics, 42, 3, 1997. Crossref

  17. Rump K. M., Heister S. D., Modeling the Effect of Unsteady Chamber Conditions on Atomization Process, Journal of Propulsion and Power, 14, 4, 1998. Crossref

  18. Chung H M, Seok J K, Moon S Y, Lee C W, A theoretical study of the longitudinal motion of a vertical liquid jet, Journal of Physics A: Mathematical and General, 34, 34, 2001. Crossref

  19. Yoon S. S., Heister S. D., Modeling Atomization Using Boundary Element Methods (BEM), in Handbook of Atomization and Sprays, 2011. Crossref

  20. Heister S. D., Plain Orifice Spray Nozzles, in Handbook of Atomization and Sprays, 2011. Crossref

  21. Heister S., Modeling primary atomization processes, 34th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, 1998. Crossref

  22. Heister S, Rutz M, Hilbing J, Effect of acoustic perturbations on liquid jet atomization, 31st Joint Propulsion Conference and Exhibit, 1995. Crossref

  23. Popp Michael, Hulka James, Yang Vigor, Habiballah Mohammed, Liquid Rocket Thrust Chambers, 2004. Crossref

  24. Murray Ian, Murray Ian, Modeling acoustically induced oscillations of droplets, 35th Aerospace Sciences Meeting and Exhibit, 1997. Crossref

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