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248 results on '"Kwade, A."'

3. Optimizing Current Collector Interfaces for Efficient “Anode‐Free” Lithium Metal Batteries

Author

Molaiyan, Palanivel, primary, Abdollahifar, Mozaffar, additional, Boz, Buket, additional, Beutl, Alexander, additional, Krammer, Martin, additional, Zhang, Ningxin, additional, Tron, Artur, additional, Romio, Martina, additional, Ricci, Marco, additional, Adelung, Rainer, additional, Kwade, Arno, additional, Lassi, Ulla, additional, and Paolella, Andrea, additional

Published
2023
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5. Artificial Intelligence in Process Engineering

Author

Christoph Thon, Benedikt Finke, Arno Kwade, and Carsten Schilde

Subjects
artificial intelligence, hybrid modeling, mechanistic modeling, predictive modeling, process engineering, Computer engineering. Computer hardware, TK7885-7895, Control engineering systems. Automatic machinery (General), TJ212-225
Abstract

In recent years, the field of Artificial Intelligence (AI) is experiencing a boom, caused by recent breakthroughs in computing power, AI techniques, and software architectures. Among the many fields being impacted by this paradigm shift, process engineering has experienced the benefits caused by AI. However, the published methods and applications in process engineering are diverse, and there is still much unexploited potential. Herein, the goal of providing a systematic overview of the current state of AI and its applications in process engineering is discussed. Current applications are described and classified according to a broader systematic. Current techniques, types of AI as well as pre‐ and postprocessing will be examined similarly and assigned to the previously discussed applications. Given the importance of mechanistic models in process engineering as opposed to the pure black box nature of most of AI, reverse engineering strategies as well as hybrid modeling will be highlighted. Furthermore, a holistic strategy will be formulated for the application of the current state of AI in process engineering.

Published
2021
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22. Production of Nickel‐Rich Cathodes for Lithium‐Ion Batteries from Lab to Pilot Scale under Investigation of the Process Atmosphere

Author

Carina A. Heck, Fabienne Huttner, Julian K. Mayer, Olga Fromm, Markus Börner, Thilo Heckmann, Philip Scharfer, Wilhelm Schabel, Martin Winter, and Arno Kwade

Subjects
upscaling, process atmosphere, General Energy, lithium-ion batteries, nickel-rich cathodes, ddc:620, Engineering & allied operations, moisture content
Abstract

The selection of an appropriate cathode active material is important for operation performance and production of high-performance lithium-ion batteries. Promising candidates are nickel-rich layered oxides like LiNi$_x$Co$_y$Mn$_z$O$_2$ (NCM, x+y+z=1) with nickel contents of ‘x’ ≥ 0.8, characterized by high electrode potential and specific capacity. However, these materials are associated with capacity fading due to their high sensitivity to moisture. Herein, two different polycrystalline NCM materials with nickel contents of 0.81 ≤ ‘x’ ≤ 0.83 and protective surface coatings are processed in dry-room atmosphere (dew point of supply air T$_D$ ≈ −65 °C) at lab scale including the slurry preparation and coating procedure. In comparison, cathodes are produced in ambient atmosphere and both variants are tested in coin cells. Moreover, processing at pilot scale in ambient atmosphere is realized successfully by continuous coating and drying of the cathodes. Relevant electrode properties such as adhesion strength, specific electrical resistance, and pore-size distribution for the individual process steps are determined, as well as the moisture uptake during calendering. Furthermore, rate capability and cycling stability are investigated in pouch cells, wherein initial specific discharge capacities of up to 190 mAh g$^{−1}$ (with regard to the cathode material mass) are achieved at 0.2C.

Published
2023
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29. Modeling of Carbon Black Fragmentation During High‐Intensity Dry Mixing Using the Population Balance Equation and the Discrete Element Method

Author

Ermek Asylbekov, Julian Mayer, Hermann Nirschl, and Arno Kwade

Subjects
population balance equation, Chemical engineering, General Energy, carbon black, ddc:660, Li-ion batteries, modeling, simulations, discrete element method, dry mixing
Abstract

A complex interaction between the process design and the properties of carbon black (CB) during dry mixing of cathode material influences the microstructure and thus the performance of the Li-ion battery. The description of these interactions by means of a coupling of the mixing process simulation and the fragmentation of CB is the focus of this work. The discrete element method provides information about the frequency and intensity of the stress. The change of the CB size distribution is done by the population balance equation. The material strength as well as the fracture behavior are represented with simple models. The calibration of the model parameters is performed using the Nelder–Mead algorithm. The calibrated models provide good agreement with the measurements of the size distributions from experimental investigations. Transfer of the calibrated parameters to other process settings is possible and provides good agreement in some cases. Recalibration of the fracture behavior improves the accuracy of the model so that it can be used as a predictive tool.

Published
2022
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30. Toward a Li‐Ion Battery Ontology Covering Production and Material Structure

Author

Marcel Mutz, Milena Perovic, Philip Gümbel, Veit Steinbauer, Andriy Taranovskyy, Yunjie Li, Lisa Beran, Tobias Käfer, Klaus Dröder, Volker Knoblauch, Arno Kwade, Volker Presser, Dirk Werth, and Tobias Kraus

Subjects
battery research, data structures, taxonomy, General Energy, electrode production, Economics, ddc:330, cell production, ontology, battery production
Abstract

An ontology for the structured storage, retrieval, and analysis of data on lithium-ion battery materials and electrode-to-cell production is presented. It provides a logical structure that is mapped onto a digital architecture and used to visualize, correlate, and make predictions in battery production, research, and development. Materials and processes are specified using a predetermined terminology; a chain of unit processes (steps) connects raw materials and products (items) of battery cell production. The ontology enables the attachment of analytical methods (characterization methods) to items. Workshops and interviews with experts in battery materials and production processes are conducted to ensure that the structure is conformable both for industrial-scale and laboratory-scale data generation and implementation. Raw materials and intermediate products are identified and defined for all steps to the final battery cell. Steps and items are defined based on current standard materials and process chains using terms that are in common use. Alternative structures and the connection of the ontology to other existing ontologies are discussed. The contribution provides a pragmatic, accessible way to unify the storage of materials-oriented lithium-ion battery production data. It aids the linkage of such data with domain knowledge and the automation of data analysis in production and research.

Published
2022
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32. Green batteries for clean skies: Sustainability assessment of lithium‐sulfur all‐solid‐state batteries for electric aircraft

Author

Barke, Alexander, primary, Cistjakov, Walter, additional, Steckermeier, Dominik, additional, Thies, Christian, additional, Popien, Jan‐Linus, additional, Michalowski, Peter, additional, Pinheiro Melo, Sofia, additional, Cerdas, Felipe, additional, Herrmann, Christoph, additional, Krewer, Ulrike, additional, Kwade, Arno, additional, and Spengler, Thomas S., additional

Published
2022
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38. Digitalization Platform for Sustainable Battery Cell Production: Coupling of Process, Production, and Product Models

Author

Ventura Silva, Gabriela, primary, Thomitzek, Matthias, additional, Lippke, Mark, additional, Heckmann, Thilo, additional, Karaki, Hassan, additional, Lischka, Clemens, additional, Möhlen, Felix, additional, Mayer, Dominik, additional, Hagemeister, Jan, additional, Daub, Rüdiger, additional, Fleischer, Jürgen, additional, Nirschl, Hermann, additional, Schröder, Daniel, additional, Scharfer, Philip, additional, Schabel, Wilhelm, additional, Kwade, Arno, additional, and Herrmann, Christoph, additional

Published
2022
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41. Improving Wetting Behavior and C‐Rate Capability of Lithium‐Ion Batteries by Plasma Activation

Author

Frankenberger, Martin, primary, Mock, Christian, additional, Kaden, Nikolaj, additional, Landwehr, Inga, additional, Veitl, Jakob, additional, Ophey, Jannes, additional, Schälicke, Gerrit, additional, Görke, Marion, additional, Holeczek, Harald, additional, Kwade, Arno, additional, Dröder, Klaus, additional, and Pettinger, Karl–Heinz, additional

Published
2022
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43. Toward a Li‐Ion Battery Ontology Covering Production and Material Structure

Author

Mutz, Marcel, primary, Perovic, Milena, additional, Gümbel, Philip, additional, Steinbauer, Veit, additional, Taranovskyy, Andriy, additional, Li, Yunjie, additional, Beran, Lisa, additional, Käfer, Tobias, additional, Dröder, Klaus, additional, Knoblauch, Volker, additional, Kwade, Arno, additional, Presser, Volker, additional, Werth, Dirk, additional, and Kraus, Tobias, additional

Published
2022
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