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Externally Tuneable Separations for Membrane Reactors

Objective

I will develop an all new type of reactor for pharmaceutical and chemical process applications – the ‘tuneable membrane reactor’. These contain ground-breaking conducting polymer composite membranes that will allow in-situ tuning of the molecular selectivity for both neutral and charged species through them. This is revolutionary: current state-of-the-art membranes can be electrically tuned for charged species only. The project is timely, developing a new technology that can give the EU a competitive advantage for our declining pharmaceutical and (petro)chemical manufacturing base and builds on my recent research innovations.

To do this, my team of 3 PDRAs, 3 PhDs and I will develop unique stable polymer-polymer acid-nanoparticle composite membranes that can be externally electrically tuned to different pore sizes and/or molecular selectivity, uniquely tuning for neutral and charged species. We will characterise the chemical, physical and transport mechanisms responsible for the membrane tuneablity and relate these to transport models. We will then determine the feasibility of applying these unique tuneable membranes into membrane reactors, to allow in-situ external control of two key reactor parameters currently not possible: (1) Membrane fouling - membrane pore size/free volume and charge will be changed by applied potential allowing the fouling layer to be pushed off/through the membrane. (2) Precise external control of the reactant and product spectrum in the reactor by modifying species retention. By doing this, these tuneable membranes can be used to control the reaction rate, emissions and catalyst retention to maximise reaction rate and selectivity. This increases energy efficiency and emission control, helping the EU 20-20-20 environmental targets to be met. The overall impact applies beyond the project – we will be able to increase the control of membrane separations used worldwide, helping industries including food, water, healthcare and chemicals.

Field of science

  • /social sciences/social and economic geography/transport
  • /natural sciences/chemical sciences/polymer science
  • /natural sciences/physical sciences/electromagnetism and electronics/electrical conductivity
  • /engineering and technology/materials engineering/composites
  • /natural sciences/chemical sciences/organic chemistry/organic reactions
  • /engineering and technology/chemical engineering/separation technologies

Call for proposal

ERC-2014-CoG
See other projects for this call

Funding Scheme

ERC-COG - Consolidator Grant

Host institution

UNIVERSITY OF BATH
Address
Claverton Down
BA2 7AY Bath
United Kingdom
Activity type
Higher or Secondary Education Establishments
EU contribution
€ 789 823,77

Beneficiaries (1)

UNIVERSITY OF BATH
United Kingdom
EU contribution
€ 789 823,77
Address
Claverton Down
BA2 7AY Bath
Activity type
Higher or Secondary Education Establishments