Deutsche Forschungsgemeinschaft
SPP 1679
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Veröffentlichungen

Autor:  
Alle :: <, A, B, C, D, E, F, G, H, J, K, L, M, N, O, P, R, S, T, V, W, Y, Z 
Alle :: John 
Referenzen

Artikel:

6.
Wiedmeyer, V., Anker, F., Bartsch, C., Voigt, A., John, V.; Sundmacher, K.
Continuous Crystallization in a Helically Coiled Tube: Analysis of Flow Field, Residence Time Behavior and Crystal Growth
Industrial & Engineering Chemistry Research,
2017
5.
Wilbrandt, U., Bartsch, C., Ahmed, N., Alia, N., Anker, F., Blank, L., Caiazzo, A., Ganesan, S., Giere, S., Matthies, G., Meesala, R., Shamin, A., Venkatesan, J.; John, V.
ParMooN -- a modernized program package based on mapped finite elements
Computers & Mathematics with Applications,
2017
4.
Barrenechea, G. R., John, V.; Knobloch, P.
Analysis of algebraic flux correction schemes
SIAM J. Numer. Anal., 54(4):2427--2451
2016
3.
Anker, F., Ganesan, S., John, V.; Schmeyer, E.
A comparative study of a direct discretization and an operator-splitting solver for population balance systems
Computers &amp; Chemical Engineering, 75:95 - 104
2015
ISSN: 0098-1354

Technische Berichte:

2.
Barrenechea, G. R., John, V.; Knobloch, P.
A linearity preserving algebraic flux correction scheme satisfying the discrete maximum principle on general meshes
Preprint
Dokument Nummer: 2016-06
Nec\vas Center for Mathematical Modeling,
2016

Bemerkung: in revision (Mathematical Models and Methods in Applied Sciences)

Vorträge und Poster:

1.
Wiedmeyer, V., Anker, F., Voigt, A., John, V.; Sundmacher, K.
CRYSTAL SHAPE EVOLUTION IN A CONTINUOUS HELICALLY COILED FLOW TUBE CRYSTALLIZER
ECCE10 - 10th European Congress of Chemical Engineering
0
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