European Fundend Projects

  • ID:
    projects-425
  • fiwar:
    262040
  • Project_Acronym:
    AQUACELL
  • Project_Name:
    An innovative technology platform for the enhanced treatment of industrial wastewaters achieving cost reductions, electricity generation and enabling water reuse for non-potable applications
  • Funding Authority:
    FP7
  • Call for proposals:
    No data
  • Focus Area:
    SME-1
  • Begin Date:
    2010-12-01
  • End Date:
    2012-11-30
  • Status:
    Completed
  • Budget:
    € 001 496 846.00
  • Description:
    Major water using and discharging industries are of significant European economic importance, generating >€1500 billion turnover and employing >7.5 million people in 220,000 companies (90% SMEs). With continued European growth in demand for water, finite reservoirs of readily-treatable water, rising energy costs and increased environmental legislation, EU industry is experiencing significant competitive threats with regard to cost-efficient supply and treatment of water.Microbial Fuel Cells (MFCs) utilise electrochemically-active microbes to convert the inherent energy of organic chemical bonds to electrical energy. MFCs encompass unique features that offer advantages for the treatment of wastewater, including: efficient electricity generation; minimal sludge formation; operation at low temperature; and modular cell design, enabling operation at small scale and customisation to specific end-user requirements.A core group of SMEs have identified a unique opportunity to advance MFC technology for industrial wastewater treatment, thereby generating sustainable and competitive business growth. Key innovations include MFC integration with photocatalytic advanced oxidation and a membraneless MFC air cathode design; and a scalable cost-efficient MFC and architecture design incorporating innovative process monitoring & control strategies. System features and benefits include:- Capital cost equivalence with existing aerobic treatment solutions- Significant operational cost savings, realised through:- Recovery of organic content as electrical energy & achieving system sustainability (self-powering);- Enhanced treatment efficiency enabling water reuse for on-site non-potable applications;- Significant cost reductions for sludge disposal and treated wastewater discharge to sewer- Flexible design and operation customised to specific end-user (sector) requirements and enabling treatment of wastewaters of varying composition and containing hazardous micropollutantsThe project will result in a pilot-scale MFC system demonstrated for a target industrial wastewater. AquaCell will generate ~€40 million business growth for its SMEs within a 3-year period creating 94 jobs; and has the potential to benefit >29,700 major water using SMEs within the wider European manufacturing sector.
  • Resource:
    https://cordis.europa.eu/project/id/262040
  • Inland water types:
    Urban water'