Development of highly efficiency systems for energy storage based on graphene technologies
The project will see a complete hardware and software solution for gas management developed.The solution will be based on automatic meters reading via gprs and on an intelligent software system for collecting, analysis and distributing data
Development of a high yield fermentation where residual flows are no longer a by-product but more raw materials for other industries. Valuable minerals such as potassium and phosphate are recovered. Organic remains are converted into biomass for incinerators to produce green electricity.
To develop intermediate temperature solid oxide fuel cell (it-sofc) technology addressed to the automotive and energy sector. Special attention will be paid in massive synthesis of non-conventional materials and scalability of manufacturing processes for cells and interconnects.
The goal of this project is the development of a real time intelligent system for a comprehensive management of wind farms. It will include a revolutionary early detection fault and failure analysis engine and diagnostic engine to improve operation&maintenance.
Within the project a new solar cell simulator for bifacial solar cells will be developed, the bifacial solar modules will be characterized under various installation conditions and finally a simulation tool will be developed to predict the energy yield of modules based on the laboratory test data.
Battery less, cordless and wireless sensor system through thermal harvesting. Fields of application of this product; industrial plant safety, monitoring and control for battery-less non-power wireless sensor, iot devices, wearable devices, smart farm, building and home automation, etc.
Smart sensor incoming mooring rope aims to implement a mooring system that can monitor load applied to rope in real time by inserting smart sensor into mooring rope.
The main objective of this project is to design a high efficiency refrigeration chiller based on dry direct condensation system without water consumption and double centrifugal compressor using r134a as a refrigerant.
The aim of this project is to develop 100w microtubular or flat tubular solid oxide fuel cell system working with directly hydrocarbon gases for unmanned air vehicles. The system will be tested on vestel defence industries' own unmanned air vehicle called efe.