Energy conversion and storage (ECO&Stor)

Battery systems and supercapacitors represent the most mature technology for electricity storage supporting grid stabilization and transportation sectors. This work package addresses the development of novel systems capable of supporting the large-scale deployment of renewable energy sources.

Work package Leader
MSc. Václav Knap, Ph.D.
Czech Technical University in Prague
e-mail: vaclav.knap@cvut.cz

Work tasks Leaders

• doc. Ing. Tomáš Kazda, Ph.D., BUT
• RNDr. Markéta Zukalová, Ph.D., HIPC CAS
• Ing. Petr Mazúr, Ph.D., UCT Prague
• doc. Mgr. Fatima Hassouna, Ph.D., UCT Prague
• prof. Ing. Ondřej Jankovský, Ph.D., UCT Prague

This work package covers fundamental and applied research related to conversion of renewable electricity to novel fuels and platform chemicals. Novel nanostructured (electro)catalytic electrodes will be developed to enable the utilisation of large scale hydrogen technologies and the synthesis of liquid fuels and chemicals via carbon dioxide valuation.

Work package Leader
prof. Mgr. Eva Matolínová, Dr.
Charles Universitye-mail: Iva.Matolinova@mff.cuni.cz

Work tasks Leaders

• RNDr. Petr Kúš, Ph.D., Charles University
• doc. Ing. Martin Paidar, Ph.D., UCT Prague
• prof. Ing. Petr Krtil, CSc., HIPC CAS

Work package Solar-2-X is focused on making breakthrough in the materials and concepts for conversion of solar energy into energy rich compounds, such as hydrogen, CO, methanol or hydrocarbons, co called e-fuels. Predominantly fundamental research is planned that will provide understanding of light-energy capture, design principles to be used in developing future devices and several functional photochemical systems being ready for further development into light-harvesting devices.

Work package Leader
prof. Dr. Ing. David Sedmidubský
University of chemical technology, Prague
e-mail: David.Sedmidubsky@vscht.cz

Work tasks Leaders

• prof. RNDr. Antonín Vlček, CSc., HIPC CAS
• prof. Dr. Ing. Josef Krýsa, UCT Prague
• prof. Ing. Václav Švorčík, Dr.Sc., UCT Prague
• prof. Tomáš Markvart, Ph.D., CTU

This work package uniquely joins the capacities and advanced expertise of UCT Prague, CTU and HIPC in the formulation of theoretical models and computational tools for fundamental understanding of molecular and solid state systems and interfaces for advancing novel solutions of energy conversion and storage. Interdisciplinary team (chemists, physicists, material scientists) will develop and employ computational procedures predicting energetics of solid-state systems including 2D materials, characterising excited states in molecules and semiconductors, and modelling charge transfer processes both intramolecular and at heterogeneous interfaces. These activities are designed in direct mutual synergy with experimentally oriented WP1-WP3 for jointly furthering the knowledge and prospective applications in energy conversion and storage beyond the current state of art.

Work package Leader
prof. RNDr. Bc. Petr Slavíček, Ph.D.
University of chemical technology, Prague
e-mail: Petr.Slavicek@vscht.cz

Work tasks Leaders

• doc. RNDr. Bohuslav Rezek, Ph.D., CTU
• RNDr. Martin Srnec, Ph.D., HIPC CAS
• prof. RNDr. Jiří Kolafa, CSc., UCT Prague

The horizontal work package Engineering of Storage and Conversion Systems aims to support the vertical work packages Batteries and Supercapacitors, Power-2-X and to a lesser extent Solar-2-X by computer aided engineering of advanced energy conversion and storage systems. Solid-state batteries, redox flow batteries, fuel cells and electrolysers will be modelled on different spatial levels, including electrodes, membranes/separators and electrolytes to describe flow and/or distribution of material, heat, potential and charge. The developed tools for on-line diagnostics will be utilised in horizontal work package Energy: building, cities and communities for the integration of energy conversion systems.

Work package Leader
prof. Dr. Ing. Juraj Kosek
University of Chemical Technology, Prague
e-mail: Juraj.Kosek@vscht.cz

Work tasks Leaders

• Ing. Roman Kodým, Ph.D., UCT Prague
• doc. Ing. Petr Vyroubal, Ph.D., BUT 
  
• doc. Ing. Jiří Pospíšil, Ph.D., BUT

The concept of energy communities is currently a hot topic as it has great potential to accelerate the energy transition toward sustainable and clean energy solutions. The work package aims to integrate renewable energy sources and storage technologies into electricity networks. The distribution of renewable energy sources and energy storage technologies at the local level will be examined, with a particular focus on autonomous microgrids and larger units that interact with overarching distribution networks.

Work package Leader
doc. Ing. Radek Procházka, Ph.D.
Czech Technical University in Prague
e-mail: xprocha3@fel.cvut.cz

Work tasks Leaders

• Ing. Sofiane Kichou, Ph.D., CTU
• prof. Ing. Jaroslav Koton, Ph.D., BUT
• Ing. Zdenko Malík, Ph.D., CTU
• Ing. arch. Martin Čeněk, Ph.D., CTU