Numerical analysis of an impinging jet reactor for the CVD and gas-phase nucleation of titania
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Numerical analysis of an impinging jet reactor for the CVD and gas-phase nucleation of titania

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Published by National Aeronautics and Space Administration, National Technical Information Service, distributor in [Washington, DC], [Springfield, Va .
Written in English

Subjects:

  • Titanium.

Book details:

Edition Notes

StatementSuleyman A. Gokoglu ... [et al.].
SeriesNASA technical memorandum -- 106619.
ContributionsGokoglu, Suleyman A., United States. National Aeronautics and Space Administration.
The Physical Object
FormatMicroform
Pagination1 v.
ID Numbers
Open LibraryOL17682199M

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  Numerical analysis of an impinging jet reactor for the CVD and gas-phase nucleation of titania - NASA/ADS We model a cold-wall atmospheric pressure impinging jet reactor to study the CVD and gas-phase nucleation of TiO2 from a titanium tetra-iso-propoxide (TTIP)/oxygen dilute source gas mixture in by: 1. Get this from a library! Numerical analysis of an impinging jet reactor for the CVD and gas-phase nucleation of titania. [Suleyman A Gokoglu; United States. National Aeronautics and . Numerical Analysis of an Impinging Jet Reactor for the CVD and Gas-Phase Nucleation of Titania By Joshua Collins, Gregory D. Stewart, Suleyman A. Gokoglu and Daniel E. Rosner Abstract. Numerical Analysis of an Impinging Jet Reactor for the CVD and Gas-Phase Nucleation of Titania p. Theoretical Modeling of Chemical Vapor Deposition of Silicon Carbide in a Hot Wall Reactor p. Growth of Epitaxial [beta]-SiC Films on Porous Si() Substrates from MTS in a Hot Wall LPCVD Reactor .

We model a cold-wall atmospheric pressure impinging jet reactor to study the CVD and gas-phase nucleation of TiO2 from a titanium tetra-iso-propoxide (TTIP)/oxygen dilute source gas mixture in. There is an abundant amount of literature available to the reader concerning many aspects of the CVD process, such as chemical kinetics, reactor design, and hydrodynamic conditions and their effects. The reactor design most amenable to CVD research is the horizontal epitaxial by: 6. Numerical Analysis of an Impinging Jet Reactor. Local supersaturations and the rapid homogeneous nucleation of often subcooled nanometric particles occur when vapors from . Numerical Analysis of Vacuum Vessel Pressurisation in ITER Fusion Reactor Thibaud Kloczko, Post-doctorant, projet SMASH INRIA Sophia-Antipolis Numerical Flow Models for Controlled Fusion 16 - 20 April Porquerolles, FRANCE.

Numerical simulation of titania deposition in a cold-walled impinging jet type APCVD reactor. S.A. Gokoglu, G.D. Stewart, J. Collins, D.E. RosnerNumerical analysis of an impinging jet reactor for the CVD and gas-phase nucleation of titania NASA Tech. Memo. () Google ScholarCited by: 3. 7. Discussion Growth kinetics and particle formation The formation of gas-phase particles is a serious problem in the CVD of Ge. Nucleation and particle growth start when a significant supersaturation of the gas phase is created. Nucleation and particle growth is quite a complex process. The reader may find a detailed discussion in Ref. [14].Cited by: 5. Continuum and Kinetic Simulations of the Neutral Gas Flow in an Industrial Physical Vapor Deposition Reactor Kirsten Bobzin, 1Ralf Peter Brinkmann, 2Thomas Mussenbrock, Nazlim Bagcivan, Ricardo Henrique Brugnara, 1Marcel Sch afer, and Jan Trieschmann1,2, 1RWTH Aachen University, Faculty of Mechanical Engineering, Surface Engineering Institute, D Aachen, Germany.