Daniel E. Rosner
Affiliations: | Yale University, New Haven, CT |
Area:
Chemical Engineering, Mechanical EngineeringWebsite:
https://seas.yale.edu/faculty-research/faculty-directory/daniel-e-rosnerGoogle:
"Daniel E. Rosner"Bio:
https://www.proquest.com/openview/d9766884a1d2e7a3f1d5bc0af65ef76f/1
Parents
Sign in to add mentor| Martin Summerfield | grad student | 1961 | Princeton (Chemistry Tree) | |
| (The Theory of Diffusion, Heat Exchange and Chemical Surface Catalysis in Flow Systems With Application to the Development of a Differential Thermometric Catalytic Probe for the Determination of Local Atom Concentrations in Supersonic Streams) | ||||
Children
Sign in to add trainee| Juan Fernandez de la Mora | grad student | 1980 | Yale |
| Mauricio Zurita Gotor | grad student | 2004 | Yale |
| Barbara C. La Mantia | grad student | 2006 | Yale |
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Publications
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| Rosner DE, Arias-Zugasti M. (2020) Predicting the Aerosol Capture Characteristics of Fibrous Filters. I. Exact- and TracTable (3-Moment) Approximate- Methods to Incorporate Aerosol Polydispersity Effects with a Multi-Mechanism, Semi-Analytic Single-Fiber Particle Capture Fraction Separation and Purification Technology. 117676 |
| Arias-Zugasti M, Rosner DE, Fernandez de la Mora J. (2019) Low Reynolds number capture of small particles on a cylinder by diffusion, interception, and inertia at subcritical Stokes numbers: Numerical calculations, correlations, and small diffusivity asymptote Aerosol Science and Technology. 53: 1367-1380 |
| Fernandez de la Mora J, Rosner DE. (2019) Low Reynolds number capture of small particles on cylinders by diffusion, interception, and inertia at subcritical Stokes numbers Aerosol Science and Technology. 53: 647-662 |
| Rosner DE, Tandon P. (2018) Aggregation- and rarefaction-effects on particle mass deposition rates by convective-diffusion, thermophoresis or inertial impaction: Consequences of multi-spherule ‘momentum shielding’ Aerosol Science and Technology. 52: 330-346 |
| Rosner DE, Tandon P. (2017) Knudsen transition effects on the thermophoretic properties of fractal-like aggregates: Implications for thermophoretic sampling of high-pressure flames Aerosol Science and Technology. 51: 1262-1274 |
| Rosner DE, Arias-Zugasti M. (2015) Idealized Mathematical Model for Pharmaceutical Powder “Micronization” Using Compressed Gas Antisolvent (Re-)Precipitation (GASP): Predicted Performance for the Model Ternary System: Phenanthrene/Toluene/CO2 Industrial & Engineering Chemistry Research. 54: 10383-10400 |
| Rosner DE, Arias-Zugasti M. (2015) Transport-shifted multi-component non-ideal acid dew-point predictions and generalization/application of the mist-onset “tangency condition” for ideal vapor mixtures near cool surfaces Chemical Engineering Science. 129: 168-179 |
| Rosner DE, Arias-Zugasti M. (2014) Surface Energy Evolution in Pharmaceutical Powder Micronization Using Compressed Gas Antisolvent (Re-)Precipitation Industrial & Engineering Chemistry Research. 53: 4489-4498 |
| Rosner DE, Arias-Zugasti M. (2012) Estimating transport-shifted acid dew-point surface temperatures and conditions for the avoidance of acid mists in energy recovery operations Chemical Engineering Science. 75: 243-249 |
| Arias-Zugasti M, Rosner DE. (2011) Thermophoretically modified aerosol brownian coagulation. Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics. 84: 021401 |