Dr. Roman Pascal Schärer

Persönliches Profil

Tätigkeit an der ZHAW

Associate Researcher

www.zhaw.ch/en/engineering/institutes-centres/icp-institute-of-computational-physics/electrochemical-cells-and-microstructures/

Arbeits- und Forschungsschwerpunkte, Spezialkenntnisse

Modelling of Organic Redox Flow Batteries
Entropy-based moment methods for rarefied gas flows
Numerical methods for hyperbolic PDEs
High-performance computing using GPUs

Aus- und Fortbildung

Doctorate in applied Mathematics, Dr. rer. nat., 2017, RWTH Aachen
Studies in Computational Science & Engineering, Master of Science, 2012, ETH

Beruflicher Werdegang

GNSS Algorithm Engineer, Leica Geosystems AG, 2017-2020

Projekte

• Doktorand:innen-Netzwerk für die Elektrosynthese - neue Synthesekonzepte für die pharmazeutische / feinchemische Industrie / Stellv. ProjektleiterIn / Projekt laufend

Publikationen

• Mourouga, Gaël; Schärer, Roman P.; Yang, Xian; Janoschka, Tobias; Schmidt, Thomas J.; Schumacher, Jürgen O.,

  2022.

  Physics-based 0D-U-I-SoC cell performance model for aqueous organic redox flow batteries.

  Electrochimica Acta.

  415(140185).

  Verfügbar unter: https://doi.org/10.1016/j.electacta.2022.140185

• Wlodarczyk, Jakub; Mourouga, Gaël; Schärer, Roman Pascal; Schumacher, Jürgen,

  2023.

  Continuum modeling and simulation of flow batteries

  .

  In:

  Roth, Christina; Noack, Jens; Skyllas-Kazacos, Maria, Hrsg.,

  Flow batteries : from fundamentals to applications.

  Weinheim:

  Wiley.

  S. 379-412.

  Verfügbar unter: https://doi.org/10.1002/9783527832767.ch17

• Schärer, Roman Pascal; Schumacher, Jürgen,

  2023.

  A transient non-isothermal cell performance model for organic redox flow batteries [Poster].

  In:

  19th Symposium on Modeling and Experimental Validation of Electrochemical Energy Technologies (ModVal), Duisburg, Germany, 21-23 March 2023.

• Schärer, Roman Pascal; Wlodarczyk, Jakub; Schumacher, Jürgen,

  2022.

  Reactive transport in porous electrodes : from pore-scale to macroscale descriptions [Poster].

  In:

  18th Symposium on Modeling and Experimental Validation of Electrochemical Energy Technologies (ModVal), Hohenkammer, Germany, 14-16 March 2022.

  Stuttgart:

  DLR-Institute of Engineering Thermodynamics.

  Verfügbar unter: https://doi.org/10.21256/zhaw-24717

• Noack, Jens; Baudrin, Emmanuel; Fornari, Rocco; Franco, Alejandro A.; Gerlach, Daniel; Guan, Xinjie; Hamaekers, Jan; Maass, Astrid; Menictas, Chris; Mourouga, Gael; Nirschl, Hermann; Roznyatovskaya, Nataliya; Schärer, Roman Pascal; Schumacher, Jürgen; de Silva, Piotr; Skyllas-Kazacos, Maria; Wlodarczyk, Jakub; Wolf, Amadeus; Yu, Jia,

  2022.

  Modelling and simulation for the search for new active materials for redox flow batteries : results of the international project Sonar.

  In:

  241st ECS Meeting, Vancouver, Canada, 29 May - 2 June 2022.

  Verfügbar unter: https://doi.org/10.1149/MA2022-01461954mtgabs

• Schärer, Roman Pascal; Wlodarczyk, Jakub; Schumacher, Jürgen,

  2021.

  Towards multiscale modelling of porous electrodes : connecting the meso- to the macroscopic scale.

  In:

  AMaSiS 2021 Book of Abstracts.

  Applied Mathematics and Simulation for Semiconductors and Electrochemical Systems (AMaSiS), online, 6-9 September 2021.

  Berlin:

  Weierstraß-Institut für Angewandte Analysis und Stochastik (WIAS).

  S. 34.

  Verfügbar unter: https://www.wias-berlin.de/workshops/amasis2021/resources/AMaSiS2021-book_of_abstracts.pdf

Publikationen vor Tätigkeit an der ZHAW

scholar.google.com/citations

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