EIFN Energy Innovative Financial Network
EIFN is a project supported by the European
Commission under the Europe INNOVA initiative

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New Tecnology for Electric Generator
Wind-farm in Dobrogea Region, S-E Romania
Coordinated production and storage of energy in residential areas.
Monitoring, diagnosis and protection of energetic equipment
Ecological technology for decrease the residual stress in metallic energy constructions welded using vibratory stress relief equipment
Gas treatment system request from Turkey
Partner search in renewable bioproducts & biofuels
High Efficiency Concentrator PV Solar System
Enhancing Lifelong Learning for the Electrical and Information Engineering Community
Renewable and sustainable energy source; Hydrogen production from biomass
Renewables Energy; Biogas power plant PCGA-1000
IEn Poland
Energy efficiency in industrial and service.
Increased energy efficiency of a system for tracking solar PV (Photovoltaic) using an innovative mechanism
Innovative real-time System to measure Dioxin produced in combustion process. Proposal acronym: Real Dioxine
Cogeneration System with Stirling Engine mCHP S
Efficient Integrated System of Renewable Energy Sources for Residential Consumers
Micro-plant for producing energy from renewable sources for residential building
Biomass based heating of public buildings of communities from the agricultural areas (farmland) AGRIPELLET-HEAT
Reaching the Kyoto Protocol targets by renewable energy integration in the rural communities
Integrated efficiency and environmental analysis of the energy systems

The complexity of the issues which should be taken into account when an energy system is analysed: the resource rational use, the environmental impact of pollutants, the renewable energy sources use, economical aspects (investment, taxes, incentives) require the combination and integration use of more methods, each of them dealing with a specific aspect and offering information only from a point of view.

The project aims to development of an integrated analysis method for the design, operation and diagnosis of the energy systems based on thermodynamic, exergoeconomic and environmental analyses. The method implies mathematical methods adequate for installations and a data acquisition system. The mathematical models include mass and energy (exergy) balances, physical properties of the fuels and fluids, performance characteristics of the machines, technological and environmental constraints. The proposed method will be a useful tool for specialists from research, design and operation of the energy systems. Application of this integrated analysis method will lead to a compromise between energetic, economic and environmental performances.

Target Partner
Organisations with experience in the field of:
   • Thermodynamics
   • Exergoeconomy;
   • Energy systems;

Organisations type: university; Research; NGO, SME involved in renewable energy, Local/regional Agency involved in renewable energy, other;
Contact: office@ipacv.ro

Solar energy-biomass driven micro system for power generation
Installation for co-generation by using biomass transformed in gases (Ref: 07 RO RIAP 0J8A)
Original wind turbine with horizontal axis (Ref: 07 RO RIAP 0J2S)
Original wind turbine with vertical axis (Ref: 07 RO RIAP 0J18)
Production of non-alcohol beverages
Company from Bosnia and Herzegovina dealing with initial and final processing of beech and fir tree is looking for partners from Austria, Germany, Italy and Sweden
Cooperation in the research and technological development activities in the field of energy and also offers subcontracting / outsourcing
Installations with renewable energy sources, Polytechnics_Ltd, Bulgaria
A company from Nortern Ireland look for partnership in Romania, Bulgaria, Eastern and Central Europe

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