SYNGGI: Synergies for Green Growth Initiative - Energising the Impact of Innovation in the Mediterranean

Project description:

projekt interreg greengrowth logo

SYNGGI aims to support the modular approved projects under the objective Green Growth of the priority Axis 1. Innovation of the Interreg MED Programme. The activities will support the sub-objective 1.1 and especially the Green Growth sub-priority, in order to serve the targets and strategies of the Managing Authorities for the MED Area. The project has been designed as an agile tool that will unify project results, support MED stakeholders and create a fruitful and collaborative environment for all implicated bodies.

The project has been designed as an agile tool that will unify modular project results, support MED stakeholders and create a fruitful and collaborative environment for all implicated bodies. The project will act as a bridge between the modular projects, the Governance project - "platform"- of Axis 4 and the EU policy makers. A network of key groups including SMEs, academics, research institutes and governing authorities (Quadruple helix representatives) will be established. SYNGGI has been structured to support communication, capitalization activities and at the same time it aims beyond MED territories. The project will produce unified results and solid proposals for environmental policies. General objectives of SYNGGI project are:

  • Supporting 6 modular projects: ARISTOIL, GRASPINNO, PEFMED, GREENOMED, MADRE & CAMARG
  • Building a community network
  • Stimulating sharing of project results and findings
  • Enhancing the cross-sectorial innovation practices among MED key stakeholders
  • Disseminating good practices
  • Creating synergies at local, national and EU level
  • Avoiding duplication of results
  • Creating hubs for all external stakeholders of the MED Area
  • Reinforcement of “Platform Project” (Axis 4) so as to reach EU officials and produce innovative policies

Tecos' role:

Associated partner responsible for creation of an important synergies between actors of SYNGGI and stakeholders at national, EU and global level. Organisation of Mid-term meeting in Slovenia in combination with the transnational event: provisional date – April, 2018.



  • Project status: Running
  • Duration: 01.11.2016 – 31.10.2019
  • Programme: Interreg Mediterranean – Horizontal projects
  • Coordinator: Fundació Universitària Balmes - UVic-UCC (ES)
  • Other partners: UVic-UCC, CUEIM, KQD, Dynamic Vision, Fondazione Ecosistemi;
    Pridruženi partnerji: CRES, CAPENERGIES, TECOS, Mediterranean Agronomic Institute of Chania


  • Project status
    Running
  • Duration
    01.11.2016 – 31.10.2019
  • Programme
    Interreg Mediterranean – Horizontal projects
  • Coordinator
    Fundació Universitària Balmes - UVic-UCC (ES)
  • Other partners
    UVic-UCC, CUEIM, KQD, Dynamic Vision, Fondazione Ecosistemi;
    Pridruženi partnerji: CRES, CAPENERGIES, TECOS, Mediterranean Agronomic Institute of Chania


Why choose TECOS?

  • Vast Experience
  • Highly Trained Staff
  • Short Response Time
  • One Contact For All Your Problems
  • State-of-the-art Equipment

Sample Project

Quickly to precise 3D model of a mill for manufacturing of replacement parts

Quickly to precise 3D model of a mill for manufacturing of replacement parts

The client had to renew a wore down rotor with knife segments for which they didn't have any documentation. With precise 3D scanning of the original and creation of functional CAD model we provided them with data for production of replacement.

Thermoplastic oil filter housing warpage prediction due to injection moulding

Thermoplastic oil filter housing warpage prediction due to injection moulding

The customer has presumed problems with excessive warpage in the stage of tool design. The material is PA66 with 30% of glass fibers. With the help of advanced injection moulding analysis we predicted the trend and values of warpage and thus successfully eliminated the problems.

Analysis of Deep Drawing Process

Analysis of Deep Drawing Process

Our client has planned a single phase deep drawing process for the presented case, however several doubts about manufacturability arose. The conducted analysis has cleared all doubts.

With Autodesk Advanced Material Exchange and Abaqus to precise results of structural FEM for fiber reinforced materials

With Autodesk Advanced Material Exchange and Abaqus to precise results of structural FEM for fiber reinforced materials

We made a comparative study between experimentaly and numerically determined strength of a fibre reinforced product, which yielded extremely good match of the results from both methods.

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