• Utilization of the flexibility of electrical energy in power plants for energy consumption optimization

    The project is focused on industrial energy management, particularly on analyzing the possibilities of reducing energy costs through demand response. (more…)

  • Digital Transformation of Plastika Skaza Supply Chain

    Project title: Comprehensive digital transformation of Plastika Skaza supply chain for employee satisfaction and strengthening of organizational culture (Skaza 5.0)

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  • LEAP-RE

    Long-Term Joint European Union – African Union Research and Innovation Partnership on Renewable Energy (more…)

  • inSpect X

    Industrial in-line quality control with X-ray vision – an internal development project (more…)

  • FEVER

    Horizon 2020: FEVER – Flexible Energy Production, Demand and Storage-based Virtual Power Plants for Electricity Markets and Resilient DSO Operation (more…)

  • edgeFLEX

    Horizon 2020: edgeFLEX – Developing the next generation virtual power plant

    (more…)

  • domOS

    Horizon 2020: domOS – Operating system for smart services in buildings (more…)

  • GOSTOP

    Building blocks, tools and systems for the Factories of the Future is a Slovenian development project for Industry 4.0.

    (more…)

  • FLOTANT

    Horizon 2020: FLOTANT – Optimising floating wind farms in deep waters

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  • GIFT

    Horizon 2020: GIFT – Geographical Islands FlexibiliTy

    (more…)

  • GOFLEX

    Horizon 2020: GOFLEX – Generalized Operational FLEXibility for Integrating Renewables in the Distribution Grid

    (more…)

  • GRASSHOPPER

    H2020: GRid ASsiSting modular HydrOgen Pem PowER plant

    The GRASSHOPPER project aims to create a next-generation MW-size Fuel Cell Power Plant unit (FCPP), which is more cost-effective and flexible in power output, accomplishing an estimated CAPEX below 1500 EUR/ kWe at a yearly production rate of 25 MWe.

    The power plant will be demonstrated in the field as 100 kW sub-module pilot plant, implementing newly developed stacks with improved MEAs and BoP system components, combining benefits of coherent design integration.

    This unit will be operated continuously for 8 months in industrially-relevant environment for engaging grid support modulation as part of an established on-site Demand Side Management (DSM) programme.

    The consortium unites component suppliers (Johnson Matthey Fuel Cells Limited, Nedstack fuel cell technology B.V.), research institutions (Zentrum für BrennstoffzellenTechnik GmbH, Politecnico di Milano) and integrators (Abengoa Innovación Sociedad Anonima , INEA d.o.o.) who will partner with existing energy market stakeholders (DSO, TSO) and EU smart grid projects committed to participate as advisory board members.  This collaboration maximises the business case value proposition, by ensuring the delivered technology will respond to grid services’ requirements for flexible dynamic power operation.

    Innovative DSM programmes will be completed to establish the best path forward for commercialisation of the technology for a fast response FCPP.

    Learn more at grasshopperproject.eu

    This project has received funding from the Fuel Cells and Hydrogen 2 Joint Undertaking under grant agreement No 779430. This Joint Undertaking receives support from the European Union’s Horizon 2020 research and innovation programme, Hydrogen Europe and Hydrogen Europe research.

    grasshopper_fch EU