The project will develop an improved process for the recycling of brake fluids, which will give them a considerably extended life cycle.
Improved in-vitro fertilization technology using synthetic media for maturation/development and/or freezing based on components from unique immortalized gonadal cell lines which will be used to characterize/sequence potentiating factors.
Development of a new generation of information systems offering capabilities for openness, structurisation, control and synthesis of corporate information to support company strategies and aid the creativity process.
Existing small tunable co2 lasers cannot use the developed technology.The main improvement parameters for this type of laser are: beam quality, power stability, pulsing, diameter- drift, trigger-delay and industrial effectiveness.
The goal of the project is to carry out research into and development of a hydrodynamic torque transmission, with a 4 to 400 kilowatt power range.
Building and testing a new generation of shot blasting machines for scouring vertical walls (ships, tankers) thanks to a high performance blast wheel, using less energy and generating no dust.
Optimization of super-absorbent polymer synthesis processes for transplantation and survival of young cork oaks in forest ecosystems prone to drought and erosion.
Introduction of a new diagnostic system to test micro- albuminuria as a screen method for the early detection of kidney failure and the possible avoidance of later sickness and need for dialysis assistance.
The project will develop equipment (an optical tester, an e-beam tester, a capillary coater, dry etcher), materials (substrates, liquid crystals) and production technology for the manufacture of amlcd and tft display devices.
Homozygous genotypes of apple will be developed using the following: anther culture, parthenogenesis in-situ and microspore culture. Research will focus on embryo induction and plant regeneration to establish an embryo to tree system