Schmuck | Complex Heterogeneous Systems | Buch | 978-3-11-057953-6 | sack.de

Buch, Englisch, 284 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 521 g

Reihe: De Gruyter STEM

Schmuck

Complex Heterogeneous Systems

Thermodynamics, Information Theory, Composites, Networks, and Electrochemistry
1. Auflage 2024
ISBN: 978-3-11-057953-6
Verlag: De Gruyter

Thermodynamics, Information Theory, Composites, Networks, and Electrochemistry

Buch, Englisch, 284 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 521 g

Reihe: De Gruyter STEM

ISBN: 978-3-11-057953-6
Verlag: De Gruyter

The author's research on energy storage systems generally was confronted with five characteristics, i.e., complex, interacting, transporting, reacting, and heterogeneous systems. Hence, we refer to these kind of systems as Complex Heterogeneous Systems (CHeSs). The work considers interacting systems that exchange energy, mass, information, etc. in various ways. The elementary building blocks of CHeSs are based on fundamental thermodynamic, chemical, material, physical, and mathematical principles such as variational and graph-theoretic concepts. It investigates ways of defining complexity, computing percolation thresholds, making smart decisions also by learning from data/past experiences (e.g., providing a systematic approach towards battery management systems), and identifying battery life (e.g., by blow-up analysis of highly nonlinear concentrated solutions). Ultimately, the elaborated tools shall allow the reader to obtain a general understanding for simulating (also on quantum computers), controlling, and developing CHeSs as well as to pave the way for a general theory on CHeSs generalizing the view on complexity, measurement, estimation, and control.

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Zielgruppe

Career starters and graduate students in materials science, physi

Autoren/Hrsg.

Schmuck, Markus

Fachgebiete

Weitere Infos & Material

M. Schmuck currently is a research scientist and development engineer for a Switzerland-wide Sensor and Data Fusion System as well as an Academic Visitor of the Faculty of Engineering, Imperial College, London. He obtained his MSc degree from ETH Zürich and his PhD from Universität Tübingen, both in Mathematics. Subsequently, he was awarded a prospective researcher grant from the Swiss National Science Foundation funding his research on the development of rigorous mathematical methods in electrochemistry at Engineering and Mathematics Departments of the Massachusettes Institute of Technology (MIT), Cambridge. He continued his line of research with a focus on fluid flow at the Imperial College, London, again jointly in Engineering and Mathematics Departments before his appointment as an Assistant Professor in 2013 at the Maxwell Institute for Mathematical Sciences and Heriot-Watt University, Edinburgh. Thanks to a research award from the Engineering and Physical Sciences Research Council (EPSRC) for a project on the rigorous and systematic upscaling and the simulation of lithium batteries taking also phase transforming intercalation hosts into account, he was promoted to Associate Professor in 2017.

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