Prof. Dr.-Ing. habil. Michael Mangold
FB 2 - Technik, Informatik und Wirtschaft, Technische Hochschule Bingen
- 06721/409-139
Hanke-Rauschenbach, Richard; Mangold, Michael; Sundmacher, Kai
Nonlinear dynamics of fuel cells: a reviewReviews in Chemical Engineering. Bd. 27. H. 1-2. Walter de Gruyter 2011 S. 23 - 52
Schenkendorf, René; Mangold, Michael
Qualitative and Quantitative Optimal Experimental Design for Parameter Identification of a MAP Kinase ModelIFAC Proceedings Volumes. Bd. 44. H. 1. Elsevier BV 2011 S. 11666 - 11671
Lemoine-Nava, Roberto; Hanke-Rauschenbach, Richard; Mangold, Michael et al.
The gas diffusion layer in polymer electrolyte membrane fuel cells: A process model of the two-phase flowInternational Journal of Hydrogen Energy. Bd. 36. H. 2. Elsevier BV 2011 S. 1637 - 1653
Zahn, Volker M.; Mangold, Michael; Seidel-Morgenstern, Andreas
Autothermal operation of an adiabatic simulated counter current reactorChemical Engineering Science. Bd. 65. H. 1. Elsevier BV 2010 S. 458 - 465
Mangold, M.
Control of a PEM fuel cell based on a distributed modelProceedings of the 2010 American Control Conference. Baltimore: IEEE 2010 S. 6630 - 6635
Mangold, Michael; Schmidt, Jürgen; Tobiska, Lutz et al.
Modeling of Membrane ReactorsSeidel-Morgenstern, Andreas (Hrsg). Membrane Reactors. 1. Aufl. Aufl. Weinheim: Wiley 2010 S. 29 - 62
Steyer, C.; Mangold, M.; Sundmacher, K.
Modeling of Particle Size Distribution for Semibatch Precipitation of Barium Sulfate Using Different Activity Coefficient ModelsIndustrial & Engineering Chemistry Research. Bd. 49. H. 5. American Chemical Society (ACS) 2010 S. 2456 - 2468
Mangold, Michael; Zhang, Fan; Kaspereit, Malte et al.
Nonlinear Dynamics of Membrane ReactorsSeidel-Morgenstern, Andreas (Hrsg). Membrane Reactors. 1. Aufl. Aufl. Weinheim: Wiley 2010 S. 235 - 262
Mangold, Michael; Bück, Andreas; Hanke-Rauschenbach, Richard
Passivity based control of a distributed PEM fuel cell modelJournal of Process Control. Bd. 20. H. 3. Elsevier BV 2010 S. 292 - 313
Krasnyk, Mykhaylo; Mangold, Michael
Reduction of a Urea Crystallizer Model by Proper Orthogonal Decomposition and Best-Points InterpolationIndustrial & Engineering Chemistry Research. Bd. 49. H. 20. American Chemical Society (ACS) 2010 S. 9887 - 9898