The latest news from academia, regulators
research labs and other things of interest
Posted: September 19, 2007
European nanotechnology project to capture CO2 from powerplants
(Nanowerk News) The emission of CO2 is a present threat for the global climate. Storage of the greenhouse gas in empty gas fields and aquifers could be a solution. To store CO2 underground it should be captured first. Nanostructured membranes have the potential of doing that. The NANOGLOWA nanotechnology project wants to turn this potential into reality.
About one third of the European CO2 emissions is coming from fossil fired power plants. Every year Europe blows more then 1 gigaton CO2 into the atmosphere, contributing to increasing temperatures around the globe.
It is possible to store CO2 underground. Feasibility studies and demonstration projects on distinctive continents are currently being carried out to prove the viability of CO2 storage in empty gas fields and aquifers amongst others. Storage of CO2 coming from power plants requires capture and separation as predessesing process. The flue gasses of fossil fired power plants mainly consist of nitrogen, water and dust particles after all, next to the CO2.
CO2 capture and separation is not a simple process. The most currently used technology is via absorption. The flue gasses flow through several baths in which the CO2 is bound with amines. This ‘scrubbing’ technology consumes a lot of energy and is therefore not very cost effective. Besides for treating power plants flue gasses with scrubbers, huge installations are needed.
The application of nanostructured membranes for CO2 capture and separation brings down the energy penalty and installation demands substantially.
NANOGLOWA brings together universities, power plant operators, industry and SMEs. 26 organisations from 14 countries throughout Europe join the NANOGLOWA-consortium in order to develop optimal nanostructured membranes and installations for CO2 capture from powerplants. NANOGLOWA is funded by the European Commission (EC) under the 6th Framework Programme. It is an Integrated Project of the NMP priority of the EC (contract number: NMP3-CT-2007-026735)