Research at INES

Cooperations

There are numerous opportunities for companies to pursue research-and-development projects related to energy engineering: From the generation, storage and distribution of energy to its applications. Much of our work is based on experiments and the use of numerical methods, often complemented by field studies and monitoring campaigns on components or systems under operational conditions.

Direct R&D assignments are often advisable for product development with shorter project durations. They may include consulting, expert opinions and studies; metrological investigations for weak-point analysis and product characterization; and model-based and numerical evaluations for optimization potentials, among others.

Cooperation projects with additional companies and research institutes are suitable for multi-year, complex problems involving more extensive research and including, for example, lab measurements, field studies, monitoring campaigns, system development and complex numerical simulations.

Facilities

INES is located at the Research and Innovation Center of Energy Technology (RIZ Energie) on the main campus in Offenburg. In addition to an office tract, the building houses a 900-m² lab center, providing ample space for large-scale equipment, test benches and larger laboratory units for the research projects performed at the Institute.

Research Projects

Title Elektrochemische Druckimpedanzspektroskopie für die Charakterisierung von Transportvorgängen in elektrochemischen Zellen
Short Name DFG-EPISTEL
Short Description Das Projekt entwickelt neue dynamische Methoden für die Diagnostik von PEM-Brennstoffzellen (Polymerelektrolytmembran). Hauptziel ist die Entwicklung der EPIS-Methode (elektrochemische Druckimpedanzspektroskopie, electrochemical pressure impedance spectroscopy) für die PEM-Brennstoffzellen-Diagnostik. Zudem wird erwartet, dass die Methode einen deutlichen Beitrag zu Verständnis, Charakterisierung und Quantifizierung von unterschiedlichen Transportvorgängen von Gasen und flüssigem Wasser leisten werden.
Year Of Acquisition 2017
Start Date 2018-03-01
End Date 2021-08-31
Project Managers Bessler, Wolfgang, Prof. Dr.
Faculties M+V
Institution INES
Public Funders DFG
Title Elektrochemische Druckimpedanzspektroskopie für die Charakterisierung von Transportvorgängen in elektrochemischen Zellen
Short Name DFG-EPISTEL
Short Description Das Projekt entwickelt neue dynamische Methoden für die Diagnostik von PEM-Brennstoffzellen (Polymerelektrolytmembran). Hauptziel ist die Entwicklung der EPIS-Methode (elektrochemische Druckimpedanzspektroskopie, electrochemical pressure impedance spectroscopy) für die PEM-Brennstoffzellen-Diagnostik. Zudem wird erwartet, dass die Methode einen deutlichen Beitrag zu Verständnis, Charakterisierung und Quantifizierung von unterschiedlichen Transportvorgängen von Gasen und flüssigem Wasser leisten werden.
Year Of Acquisition 2017
Start Date 2018-03-01
End Date 2021-08-31
Project Managers Bessler, Wolfgang, Prof. Dr.
Faculties M+V
Institution INES
Public Funders DFG

Publications

Since the Institute's founding in 2012, all of its research groups have published prolifically. A full and searchable list of all INES authored publications is available on Hochschule Offenburg's OPUS publication server. Click here for access.