The application of laser technology for the environmentally- safe cleaning of industrial objects. The final goal is to manufacture dedicated workstations able to perform the developed processes.
Development of new and innovative methods for improving fire tube boiler efficiency automatically and in-line cleaning of the tubes and cleaning of high temperature smoke.
Development of a high performance steam vacuum cleaner for the commercial sector
To develop new technology for recording variable data in a holographic photopolymer film. It will produce highly secure volume holograms, which will increase the level of security of id documents (identity cards and passports).
To develop a high power quasi-cw fibre laser emitting in a visible, uv (ultraviolet) and ir (infrared) wavelength for micro-machining applications.
The consortium wants to develop breakthrough transmission technology for single shaft turbines, including delivering variable output rotation speed, when having constant input speed. This results in a much wider range of turbine applications against 50% size and 50% costs of prevalent technologies.
To develop an automatic cleaning device and technology for vertical disposal chutes in prefabricated residential blocks of flats built in central and eastern europe, including many countries now members of the eu.
A product-service system is introduced in the field of energy equipment. A new customer/oem business model will be developed. Modules for surveillance, monitoring and diagnostics, and a collaborative platform for supporting operations and maintenance will be introduced in hydro power plants.
Through the introduction of multiple innovative technological developments and the integration of an innovative electric motor, this project will achieve the creation of a more cost-effective, significantly higher-performing, more environmentally friendly and ergonomic flat saw for multiple uses.
This project is focused on a new 3d printed cranial orthosis. This project will integrate available digital technologies (3d scanning, computational modelling, 3d printing). The goal is to develop new product (cranial orthoses) and production method (direct digital manufacturing process).