Project aim is to implement ethoxylated fatty acid methyl esters as a new bulk production, non-ionic surfactants and their commercialisation in the detergent industry.
Crane bridge control system with in-built intelligence sensitive to both device and crane track running conditions and environmental influences. Expected outcome: improved crane reliability, safety and accuracy.
Development of technology for the manufacturing and processing of wires and rods designed for the manufacturing of high-strength pressings in strength class 800-1200 mpa (mega pascals) without final heat treatment.
Biopolyester formation will be achieved by feeding micro- organisms on edible oily acids, carbohydrates and some aliphatic carboxylic acids to produce polyhydroxy- alkanoates. Potential food application will be examined.
The focus will be on both on eco-design and end-of-life management, particularly because of the legislative impact of the european commission's new directive (dg xi), which will probably come into force in 2003.
Ledeburitic steels prepared using the rapid solidification effect, as well as those with the addition of ceramic particles, will be developed. The coating of final steel and hard materials will be investigated.
The aim is construct and test the environmental monitoring system (enmos) that can be used for assessing the impact of polluters on water quality and reservoirs, drinking water intake and to resolve potential conflicts.
The aim of the project is to develop effective methods to improve forging tool life and regenerate such tools. to achieve this, laser treatment and surfacing methods are proposed.
The objective of this strategic project is to apply new biotechnological tools and agronomic technologies to improve the european forestry sector.
The objective is to develop an asynchronous driving unit which could replace already outdated direct current traction applications in locomotives operating in factory railway sidings, as well as in the czech railways network.