Organic Redox Flow Battery Systems or ORBATS as this project is called, is an ambitious project focused on optimising energy storage, both in costs as well as in efficiency and reduction of the impact that energy storage has on the environment.
With ORBATS we want to develop a redox flow battery technology that contains a non-toxic and non-corrosive organic fluid with a simpler soluble electrolyte component. Together with Vestas, Aarhus University, DTU Energy, Harvard University and Lithium Balance, VisBlue has embarked on a project with the scope of creating solutions for this.
However, the technology is still on the R&D level, which means that it will take a few years before it will be commercially available.
This project aims to educate young students in future smart energy grids and how our technology can act as a helping tool in making this a possibility.
At VisBlue, we constantly put an effort into optimizing our product and business, and one of the things that we are currently working on is creating a more circular economy for our business which benefits both our customers, VisBlue and the environment.
When we ensure to take this into account, our customers do not have to.
VisBlue has been granted funds from the EU to start our own "Rethink Business" Project. Along with funding, we have been granted an external consultant to help formulate how we can implement the ‘Cradle to Cradle’ mindset into our business case.
The goal of this project is to support, develop and improve a commercial production of a Danish vanadium redox flow battery (VRFB) energy storage with quality assurance. VisBlue does this by testing, optimising and demonstrating the cooperation between the VRFB-technology and photovoltaic systems, water heating and heating pumps.
Beyond that, this project also aims to demonstrate the potential of the VRFB-technology as a grid-buffer in an increasingly decentralised energy production.
The goal of this project is to improve a digital interface solution in support of the market maturity of a Danish VRFB energy storage.
In this, the project aims to optimise an independent digital service product to enhance digital communication between a VRFB and photovoltaic systems, the energy grid and the end-user.
In cooperation with EUDP, Eniig and Aarhus University, VisBlue is involved in the Grid Connected project, which aims to eliminate inexpedient fluctuations on a local energy grid (residential) that has photovoltaic systems installed on the roofs.
This is done by placing a VRFB next to the municipal transformer. The VRFB will act as grid-buffer for excess energy produced by the PV’s. The VRFB hereby levels the voltage and diminishes the strain on the grid. The buildings connected to this transformer will moreover reap the benefit of utilizing the optimum effect from their PV’s.
The CuBER project proposes the validation of a promising redox flow battery (RFB) technology, the all-copper redox flow battery (CuRFB), able to cover a wide range of market applications due to its simple, modular and scalable design, security and sustainability. With an investment of EUR 3 999 823,75, this project is funded by the European Union’s Horizon 2020 research and innovation programme under grant agreement No 875605. The CuBER consortium, led by Aarhus University, comprises eleven partners carefully selected so that the expertise of partners is complementary, providing the needed knowledge of the whole energy storage value chain. The consortium partners come from seven EU countries (Cyprus, Denmark, Finland, Germany, Italy, Ireland, Spain), thus representing varying energy environments.This is done by placing a VRFB next to the municipal transformer. The VRFB will act as grid-buffer for excess energy produced by the PV’s. The VRFB hereby levels the voltage and diminishes the strain on the grid. The buildings connected to this transformer will moreover reap the benefit of utilizing the optimum effect from their PV’s.
Title (ENG): Batteries as a central element for urban sustainability
Título (PT): As baterias como elemento central para a sustentabilidade urbana
The BluEnergy project aims to develop the next generation of RFB technology for stationary applications, at low cost, for storing electricity from renewable energy sources. With an investment of EUR 1 176 836.79, this project is co-financed under P2020|COMPETE – Projects in Copromotion Program in 704.096,18€ from European Regional Development Fund (FEDER). BluEnergy project will be in force for three years, from June 2020 to June 2023, with Simoldes Plásticos, S.A. as promoter, Visblue Portugal and University of Porto as co-promoters
Title (ENG): Design and development of low cost and high longevity redox drain cells and their production process
Título (PT): Conceção e Desenvolvimento de Pilhas de Escoamento Redox de Baixo Custo e Elevada Longevidade e Respetivo Processo Produtivo