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Full-Text Articles in Engineering
12. Pierre Sigwalt, Otto Vogl
17th International Herman F. Mark Symposium: Polypropylene - A Material Of The Future, Otto Vogl, Helga Roder
17th International Herman F. Mark Symposium: Polypropylene - A Material Of The Future, Otto Vogl, Helga Roder
Otto Vogl
No abstract provided.
13. Josef Schurz, Otto Vogl
14. Paolo Galli, Otto Vogl, Anna Maria Marcon-Galli
15. Clement Henry Bamford, Otto Vogl, Daphne Stephen-Bamford
15. Clement Henry Bamford, Otto Vogl, Daphne Stephen-Bamford
Otto Vogl
No abstract provided.
16. Eli M. Pearce, Otto Vogl, Judith Pearce
17. Hermann Klare, Otto Vogl, Burkart Philipp
18. Dieter Freitag, Otto Vogl, Karina Rigby
19. Makoto Okawara, Otto Vogl, Teiji Tsuruta, Seiichi Nakahama
19. Makoto Okawara, Otto Vogl, Teiji Tsuruta, Seiichi Nakahama
Otto Vogl
No abstract provided.
20. Hiroshi Inagaki, Otto Vogl, Takeshi Fukuda, Masaki Tsuji
20. Hiroshi Inagaki, Otto Vogl, Takeshi Fukuda, Masaki Tsuji
Otto Vogl
No abstract provided.
21. Teiji Tsuruta, Otto Vogl
A Model For Stripping Multicomponent Vapor From Unsaturated Soil With Free And Trapped Residual Nonaqueous Phase Liquid, David Ostendorf, Chiu-On Ng, Chiang C. Mei
A Model For Stripping Multicomponent Vapor From Unsaturated Soil With Free And Trapped Residual Nonaqueous Phase Liquid, David Ostendorf, Chiu-On Ng, Chiang C. Mei
David Ostendorf
We present a model for the multicomponent vapor transport due to air venting in an unsaturated zone in the presence of free and trapped phases of residual nonaqueous phase liquid (NAPL). On the microscale the soil particles are assumed to form spherical aggregates with micropores filled with immobile water, trapped phases of NAPL and air. The interaggregate space is occupied with mobile air, and a thin film of free NAPL adheres on the aggregate surface. While the free NAPL can readily be in equilibrium with macropore vapor, the mass transfer from immobile phases in aggregates is rate-limited by aqueous diffusion. …