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54 (13-14), S. 2937 - 2945 (1999)
Design, operation and analysis of a membrane reactor for electrochemical gas purification. Chemical Engineering Science 502.
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54, S. 2927 - 2936 (1999)
Direct methanol polymer electrolyte fuel cell: analysis of charge and mass transfer in the vapour-liquid-solid system. Chemical Engineering Science 503.
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54 (13-14), S. 2839 - 2847 (1999)
Multiple reactions in catalytic distillation processes for the production of the fuel oxygenates MTBE and TAME: analysis by rigorous model and experimental validation. Chemical Engineering Science Buch (6)
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Integrated Chemical Processes in Liquid Multiphase Systems: from Chemical Reaction to Process Design and Operation. De Gruyter, Berlin/Boston (2022), 622 S.
505.
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Large-Scale Networks in Engineering and Life Sciences. Springer International Publishing, Switzerland (2014), 388 S.
506.
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Fuel Cell Engineering. (2012), 467 S.
507.
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Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation, and Control. Wiley-VCH, Weinheim (2007), XVI, 243 S.
508.
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Integrated Chemical Processes. Wiley VCH, Weinheim (2005), XXVI, 540 S.
509.
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Reactive distillation: status and future directions. Wiley-VCH, Weinheim (2003), XX, 287 S.
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510.
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Integrated Process Design. In: Integrated Chemical Processes in Liquid Multiphase Systems, S. 509 - 573 (Hg. Kraume, M.; Enders, S.; Drews, A.; Schomäcker, R.; Engell, S. et al.). De Gruyter (2022)
511.
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Power-to-Chemicals: A Superstructure Problem for Sustainable Syngas Production. In: Mathematical Modeling, Simulation and Optimization for Power Engineering and Management, S. 145 - 168 (Hg. Göttlich, S.; Herty, M.; Milde, A.) (2021)
512.
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Numerical Methods for Coupled Population Balance Systems Applied to the Dynamical Simulation of Crystallization Processes. In: Dynamic Flowsheet Simulation of Solids Processes, S. 475 - 518 (Hg. Heinrich, S.). Springer International Publishing, Cham (2020)
513.
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Spezielle labortechnische Reaktoren: Wendelrohrreaktor. In: Handbuch Chemische Reaktoren: Springer Reference Naturwissenschaften, S. 1289 - 1320 (Hg. Reschetilowski, W.). Springer Spektrum, Berlin, Heidelberg (2020)
514.
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Porous Electrodes in Bioelectrochemistry. In: Encyclopedia of Interfacial Chemistry: Surface Science and Electrochemistry, S. 392 - 401. Elsevier (2018)
515.
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Energy Conversion Based on Bio(electro)catalysts. In: Springer Handbook of Electrochemical Energy, S. 757 - 777 (Hg. Breitkopf, C.; Swider-Lyons, K.). Springer, Berlin, Heidelberg (2017)
516.
Buchkapitel
Catalyst Layer Modeling. In: Springer Handbook of Electrochemical Energy, S. 259 - 285 (Hg. Breitkopf, C.; Swider-Lyons, K.). Springer, Berlin, Heidelberg (2017)
517.
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Benchmarking a Simple Yet Effective Approach for Inferring Gene Regulatory Networks from Systems Genetic Data. In: Gene Network Inference: Verification of Methods for Systems Genetic Data., S. 33 - 47. Springer, Heidelberg (2013)
518.
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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)
519.
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Process Intensification: 1. Fundamentals and Molecular Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 23 p. (Hg. Elvers, B.). Wiley-VCH, Weinheim (2011)
520.
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Process Intensification: 2. Phase Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 27 p. (Hg. Elvers, B.). Wiley-VCH, Weinheim (2011)
521.
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Process Intensification: 3. Process Unit Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 24 p. (Hg. Elvers, B.). Wiley-VCH Verlag, Weinheim (2011)
522.
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Process Intensification: 4. Plant Level. In: Ullmann´s Encyclopedia of Industrial Chemistry, 30 p. (Hg. Elvers, B.). Wiley-VCH, Weinheim (2011)
523.
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)
524.
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Entwicklungslinien der Brennstoffzellentechnologie. In: Die Zukunft der Energie, S. 223 - 245 (Hg. Gruss, P.; Schüth, F.). C. H. Beck, München (2008)
525.
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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. 526.
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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. 527.
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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)
528.
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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. 529.
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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. 530.
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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. 531.
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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. 532.
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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)
533.
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Conceptual Design of Internal Reforming in High Temperature Fuel Cells. In: Integrated Chemical Processes, S. 45 - 67 (Hg.
534.
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Instabilities in High-Temperature Fuel Cells due to Combined Heat and Charge Transport. In: Integrated Chemical Processes, S. 69 - 84 (Hg.
535.
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Autonome mobile Roboter und Brennstoffzellen. In: Physikunterricht modernisieren - Erfahrungen aus Kooperationsprojekten zwischen Schule und Wissenschaft, S. 198 - 200 (Hg. Engeln, K.; Euler, M.). Leibniz-Institut für die Pädagogik der Naturwissenschaften (IPN), Kiel (2005)
536.
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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.
537.
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Catalytic Distillation Technology Applied to Ether Production. In: Handbook of MTBE and Other Gasoline Oxygenates, S. 159 - 202 (Hg. Hamid., H.; Ali, M. A.). Marcel Dekker, New York (2004)
538.
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Sundmacher, K.; Kienle, A.). Wiley-VCH, Weinheim (2003)
Importance of reaction kinetics for catalytic distillation processes. In: Reactive distillation: status and future directions, S. 97 - 142 (Hg. Konferenzbeitrag (138)
539.
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Learning Reduced-Order Models for Dynamic CO2 Methanation using Operator Inference. In: Proceedings of the 34th European Symposium on Computer Aided Process Engineering / 15th International Symposium on Process Systems Engineering (ESCAPE34/PSE24). ESCAPE34/PSE24, Florence, Italy, 02. Juni 2024 - 06. Juni 2024. (angenommen)
540.
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Techno-Economic Process Analysis of the Chemical Recycling of Nylon 6 Using Phosphoric Acid. In: 33rd European Symposium on Computer Aided Process Engineering, S. 2393 - 2398 (Hg. Kokossis, A.; Georgiadis, M. C.; Pistikopoulos, E.). 33rd European Symposium on Computer Aided Process Engineering, Athen, Greece, 18. Juni 2023 - 21. Juni 2023. Elsevier, Amsterdam/Netherlands (2023)
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Hybrid modeling of the catalytic CO2 methanation using process data and process knowledge. In: 33rd European Symposium on Computer Aided Process Engineering, S. 1489 - 1494 (Hg. Kokossis, A.; Georgiadis, M. C.; Pistikopoulos, E.). 33rd European Symposium on Computer Aided Process Engineering, Athen, Greece, 18. Juni 2023 - 21. Juni 2023. Elsevier, Amsterdam/Netherlands (2023)
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52, S. 2037 - 2042. 33rd European Symposium on Computer Aided Process Engineering, Athen, Greece, 18. Juni 2023 - 21. Juni 2023. Elsevier, Amsterdam/Netherlands (2023)
Solvent pre-selection for extractive distillation using Gibbs-Helmholtz Graph Neural Networks. In: 33rd European Symposium on Computer Aided Process Engineering, Bd. 543.
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Molecular Property Targeting for Optimal Solvent Design in Extractive Distillation Processes. In: 33rd European Symposium on Computer Aided Process Engineering: Computer Aided Chemical Engineering, S. 1247 - 1252 (Hg. Kokossis, A.; Georgiadis, M. C.; Pistikopoulos, E.). 33rd European Symposium on Computer Aided Process Engineering, Athen, Greece, 18. Juni 2023 - 21. Juni 2023. Elsevier, Amsterdam/Netherlands (2023)
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Optimal Design of Anion-pillared Metal-organic Frameworks for Gas Separation. In: 33rd European Symposium on Computer Aided Process Engineering, S. 991 - 996 (Hg. Kokossis, A.; Georgiadis, M. C.; Pistikopoulos, E.). 33rd European Symposium on Computer Aided Process Engineering, Athen, Greece, 18. Juni 2023 - 21. Juni 2023. Elsevier (2023)
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A Novel Machine Learning-Based Optimization Approach for the Molecular Design of Solvents. In: 32nd European Symposium on Computer Aided Process Engineering, S. 1477 - 1482. 32nd European Symposium on Computer Aided Process Engineering : ESCAPE 32, Toulouse, France, 12. Juni 2022 - 15. Juni 2022. Elsevier (2022)
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Metal-Organic Framework Targeting for Optimal Pressure Swing Adsorption Processes. In: 14th International Symposium on Process Systems Engineering:, S. 295 - 300 (Hg. Yamashita, Y.; Kano, M.). 14th International Symposium on Process Systems Engineering - PSE 2021 +, Kyoto, Japan, 19. Juni 2022 - 23. Juni 2022. Elsevier (2022)
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A New Machine Learning Framework for Efficient MOF Discovery: Application to Hydrogen Storage. In: 14th International Symposium on Process Systems Engineering:, S. 1807 - 1812 (Hg. Yamashita, Y.; Kano, M.). 14th International Symposium on Process Systems Engineering - PSE 2021+, Kyoto, Japan, 19. Juni 2022 - 23. Juni 2022. Elsevier (2022)
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Optimal Catalyst-Reactor Design for Load-Flexible CO2 Methanation by Multi-Period Design Optimization. In: 14th International Symposium on Process Systems Engineering:, S. 841 - 846 (Hg. Yamashita, Y.; Kano, M.). 14th International Symposium on Process Systems Engineering - PSE 2021 +, Kyoto, Japan, 19. Juni 2022 - 23. Juni 2022. Elsevier (2022)
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Metabolic Network Reconstruction from Time-Series of Concentration Data: Evaluation of the Numerical Matrices Methods. In: 31st European Symposium on Computer Aided Process Engineering, Bd. 550.
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Non-intrusive Time Galerkin POD for Optimal Control of a Fixed-Bed Reactor for CO2 Methanation. 16th IFAC Symposium on Advanced Control of Chemical Processes - ADCHEM 2021, Venice, Italy, 13. Juni 2021 - 16. Juni 2021. IFAC-PapersOnLine