Subsea gas processing using the revolutionary twister technology. The aim is to gain knowledge of high pressure natural gas and complementary sub-sea equipment essential for the development of a sub-sea twister installation.
Development of a seismic sequence stratigraphic interpretation system on top of the innovative d-tect seismic attribute processing and pattern recognition system. Decomposition and analysis of seismic data in a transformed, geological time domain.
Development of an innovative air classification module for automotive flap conrol w.R.T. Cabin air quality control. This will detect toxic gasses and unpleasant odours and prevent them entering the car.
As oil fields get older they produce increasingly more sand, gas and water. Conventional technologies cannot solve these so-called 'tail end problems'. The aim of this project is to develop compact, efficient separation equipment to solve these problems.
The development of a pre-competitive prototype (pcp) design (bloodlyser), which can homogenize, mix and inject whole-blood, transform it into cdb and deliver the cdb to the spark olsp system.
Develop and demonstrate competitive, sustainable and high quality inorganic silica sand binders for the foundry industry. Use of new scientific discoveries on how to influence the structure and behavior of silica (sio2). A market driven project: growing demand for clean and more efficient binders.
To develop a robust ultrafiltration and nanofiltration watertreatment installation based on ceramic membranes.
The present proposal aims at the development of revolutionary spatial two-and three-dimensional liquid-chromatography systems specifically aimed at targeting the complex challenges posed by biomarker discovery and clinical diagnostics.