Publikationen von Kai Sundmacher
Alle Typen
Buchkapitel (29)
441.
Buchkapitel
Catalyst Layer Modeling. In: Springer Handbook of Electrochemical Energy, S. 259 - 285 (Hg. Breitkopf, C.; Swider-Lyons, K.). Springer, Berlin, Heidelberg (2017)
442.
Buchkapitel
Modeling of Molten Carbonate Fuel Cells. In: Fuel Cell Science and Engineering: Materials, Processes, Systems and Technology, S. 791 - 817 (Hg. Stolten, D.; Emonts, B.). Wiley-VCH, Weinheim (2012)
443.
Buchkapitel
Process Intensification: 1. Fundamentals and Molecular Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 23 p. (Hg. Elvers, B.). Wiley-VCH, Weinheim (2011)
444.
Buchkapitel
Process Intensification: 2. Phase Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 27 p. (Hg. Elvers, B.). Wiley-VCH, Weinheim (2011)
445.
Buchkapitel
Process Intensification: 3. Process Unit Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 24 p. (Hg. Elvers, B.). Wiley-VCH Verlag, Weinheim (2011)
446.
Buchkapitel
Process Intensification: 4. Plant Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 30 p. (Hg. Elvers, B.). Wiley-VCH, Weinheim (2011)
447.
Buchkapitel
Solid Electrolyte Membrane Reactors. In: Membrane Reactors: Distributing Reactants to Improve Selectivity and Yield, S. 193 - 233. Wiley-VCH, Weinheim (2010)
448.
Buchkapitel
Time Dependent Virus Replication in cell Cultures. In: Complex Sciences: First International Conference, Complex 2009, S. 651 - 656 (Hg. Zhou, J.). Springer, Berlin - Heidelberg (2009)
449.
Buchkapitel
Entwicklungslinien der Brennstoffzellentechnologie. In: Die Zukunft der Energie, S. 223 - 245 (Hg. Gruss, P.; Schüth, F.). C. H. Beck, München (2008)
450.
Buchkapitel
Sundmacher, K.; Kienle, A.; Pesch, H. J.; Berndt, J. F.; Huppmann, G.). Wiley-VCH, Weinheim (2007)
Parameter Identification. In: Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation and Control, S. 75 - 123 (Hg. 451.
Buchkapitel
Sundmacher, K.; Kienle, A.; Pesch, H. J.; Berndt, J. F.; Huppmann, G.). Wiley-VCH, Weinheim (2007)
Steady State and Dynamic Process Analysis. In: Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation and Control, S. 125 - 140 (Hg. 452.
Buchkapitel
Efficient distributed power supply with Molten Carbonate Fuel Cells. In: Renewable Resources and Renewable Energy: A Global Challenge, S. 273 - 287 (Hg. Graziani, M.; Fornasiero, P.). CRC Press, Boca Raton [u.a] (2007)
453.
Buchkapitel
Sundmacher, K.; Kienle, A.; Pesch, H. J.; Berndt, J. F.; Huppmann, G.). Wiley-VCH, Weinheim (2007)
MCFC Reference Model. In: Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation and Control, S. 35 - 62 (Hg. 454.
Buchkapitel
Sundmacher, K.; Kienle, A.; Pesch, H. J.; Berndt, J. F.; Huppmann, G.). Wiley-VCH, Weinheim (2007)
Conceptual Design and Reforming Concepts. In: Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation and Control, S. 165 - 182 (Hg. 455.
Buchkapitel
Sundmacher, K.; Kienle, A.; Pesch, H. J.; Berndt, J. F.; Huppmann, G.). Wiley-VCH, Weinheim (2007)
Optimisation of Reforming Catalyst Distribution. In: Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation and Control, S. 211 - 220 (Hg. 456.
Buchkapitel
Sundmacher, K.; Kienle, A.; Pesch, H. J.; Berndt, J. F.; Huppmann, G.). Wiley-VCH, Weinheim (2007)
Hot Spot Formation and Steady State Multiplicities. In: Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation, and Control, S. 141 - 163 (Hg. 457.
Buchkapitel
Multifunctional Reactors. In: Encylopedia of Chemical Sciences, Engineering and Technology Resources of Encyclopedia of Life Support Systems (EOLSS) (Hg. Pohorecki, R.; Bridgwater, J.; Mohlzahn, M.). Eolss Publisher, Oxford, UK (2006)
458.
Buchkapitel
Conceptual Design of Internal Reforming in High Temperature Fuel Cells. In: Integrated Chemical Processes, S. 45 - 67 (Hg.
459.
Buchkapitel
Instabilities in High-Temperature Fuel Cells due to Combined Heat and Charge Transport. In: Integrated Chemical Processes, S. 69 - 84 (Hg.
460.
Buchkapitel
Thermodynamic and Kinetic Effects on the Feasible Products of Reactive Distillation: A-zeo-tropes and A-rheo-tropes. In: Integrated Chemical Processes, S. 85 - 148 (Hg.