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Towards Intensified, Green Electricity-Based Processes
This project has received funding from the European Union’s FP7 Research Programme under the Grant Agreement No. 309874
Alternative Energy Forms for Green Chemistry
ALTEREGO
22.04.2016 SPIRE impact workshop / Andrzej Stankiewicz 2
• EU-FP7-THEME [NMP.2012.3.0-1] • Highly efficient chemical syntheses using alternative
energy forms • Project duration: 01/2013 - 06/2016 (42 months)
This project has received funding from the European Union’s FP7 Research Programme under the Grant Agreement No. 309874
General aim
22.04.2016 SPIRE impact workshop / Andrzej Stankiewicz 3
To develop processes activated by alternative energies (microwaves, ultrasound and MW-induced plasma) in the fields of fuels synthesis and pharmaceuticals synthesis
22.04.2016 SPIRE impact workshop / Andrzej Stankiewicz 4
Uni
vers
ities
Te
ch
Supp
l En
d U
sers
Consortium and project structure
ALTEREGO
22.04.2016 SPIRE impact workshop / Andrzej Stankiewicz 5
• 14 publications • 12 conference presentations • 11 posters • 1 patent
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Long-term impact
Why using fossil resources as energy source instead of raw material? American Chemistry Council, "Energy," published 2011,
American Chemistry Council.
Chemical industry – doomed to the steam boiler?
22.04.2016 SPIRE impact workshop / Andrzej Stankiewicz
BIOMASS WATER SUN EARTH WIND WASTE
In the post-oil age the widest available, sustainable form of energy.
The future is green electricity
Chemicals as:
• Green energy-based products
• High-capacity green energy storage
(Source: R. van de Sanden, presented at Conférence de l’Institut Coriolis pour l’Environnement de l’École Polytechnique 2013)
Source: www.siemens.com
• highly intermittent,
• time-scales ranging from minutes to months
The future is green electricity but…
GENERAL AIM: develop an highly innovative, economically attractive and resource- & energy efficient valorisation process of variable methane feed-stocks to higher hydrocarbons and liquid fuel
LONG TERM AIM: valorisation process based on green electricity
22.04.2016 SPIRE impact workshop / Andrzej Stankiewicz
REACTOR TYPES
MICROWAVE / RADIOFREQUENCY REACTOR GAS-SOLID VORTEX IN A STATIC GEOMETRY
NON-THERMAL PLASMA TEMPERATURE GRADIENT PLASMA REACTOR
This project has received funding from the European Union’s Horizon 2020 Research and Innovation Programme under the Grant Agreement No. 680777
Technologies for green electricity generation
Electricity-based processing methods (electrochemistry, electrocatalysis, electric fields, electromagnetic field, acoustic fields, etc.)
Integrated long- and short-term energy storage and recovery on-site
New, energy supply-related process instrumentation and control
New, region-dependent process plant design
Electricity-based processing methods (electrochemistry, electrocatalysis, electric fields, electromagnetic field, acoustic fields, etc.)
What is needed to realize the vision?
Acknowledgements TU Delft: Andrzej Stankiewicz, Herman
Kramer, Guido Sturm, Rohit Kacker, Javier Fernandez de la Fuente
KU Leuven: Tom Van Gerven, Georgios Stefanidis, Leen Braeken, Leen Thomassen, Jeroen Jordens, Bjorn Gielen, Jinu John, Gunjan Agrahari
TU Dortmund: Andrzej Gorak, Dorota Pawlucka, Mirko Skiborowski, Philip Lutze, Matthias Wierschem, Katrin Werth, Alexander Niesbach, Felizitas Rall, Petra Marciniak
University of York: Duncan Macquarrie, Mario de Bruyn, Vitaly Budarin
Smart Material: Jan Kunzmann, Frank Wolfram
Sairem: Marilena Radoiu Akzo Nobel: Tony Kiss, Riaan Schmul Janssen Pharma: Peter Van Broeck, Luc
Moens, Thomas Rammeloo, Rob Geertman
14 This project has received funding from the European Union’s FP7 Research Programme under the Grant Agreement No. 309874