Below are some examples of major projects that were developed and assembled with significant involvement of the Central Department of Research Technology.
Superconducting linear accelerator at the radiation source ELBE
The radiation source ELBE has been built as the most important large-scale facility at the institute of Radiation Physics of the HZDR . The first stage (pdf) was designed, projected and put into operation under the leadership of the Central Department of Research Technology. This containted the thermionic electron source (Gun) and the injector (pdf), the superconducting accelerating modules (pdf) , the beam control, the first FEL, a photo neutron target (pdf) as well as the control and communication system including the personal and machine safety system. Moreover the Central Department of Research Technology is permanently involved in the extension and further developments. So a beam position monitor (BPM/DCM) with integrated differential current monitor (DCM) has been developed with a large dynamic range. A small batch has been produced.
Research facility DRESDYN
The DREsden Sodium facility for DYNamo and thermohydraulic studies (DRESDYN) is built for large scale liquid sodium experiments. The hydromagnetic dynamo effect which occurs for instance in the earth core will be investigated as well as various energy related technologies. The facility is divided in two sections: The sodium storage tanks in which the sodium is also melted and the actual experimental area. The main component is the world-wide first precession dynamo. This rotational container with the liquid sodium is mounted in a slewing mechanism on a rotating platform. During the experiment it will be rotating around its central axis with up to 600 rpm and around an inclined axis with up to 60 rpm by rotating the platform. Sodium gets over a heated pipe system from the storage tanks to the experiment and back. The Central Department of Research Technology designs the mechanical components and assembles them in cooperation with industrial partners. The Central Department of Research Technology conducts also the project management of the entire plant control system and the machine safety system.
Capacitor pulse equipment and High Magnetic Field Laboratory pulse coils
To generate high pulsed magnetic fields the Dresden High Magnetic Field Laboratory has built the most powerful pulse generating plant in the world until now. For this the Central Department of Research Technology had developed the pulsed discharge capacitor banks (pdf) as well as the electromagnetic high-field coils (pdf).
Liquid metal test facility LIMMCAST
The experimental plant LIMMCAST was built at the Institute of Fluid Dynamics for the investigation and optimization of continuous casting. This facility was projected by the Central Department of Research Technology according to the specifications of the scientists. It was assembled together with industry partners and put into operation. Moreover the Central Department of Research Technology is permanently involved in the extension and further developments.
Super-SIMS (SIMS = Secondary ion mass spectrometry) - also called Accelerator-SIMS or Trace Element AMS (TREAMS) - is an ultrasensitive analytical method for the determination of stable elements and isotopes. Actually, a Super-SIMS-Set-up is developed at the HZDR ion beam centre by connecting a conventional SIMS-source to a 6 MV tandem accelerator. The central department of research technology took on the instrumentation, electrical planning, the development of the control software as well as the electric wiring of the vacuum section between the SIMS-source and the accelerator. This contains the usual vacuum components but also some high voltages power supplies to affect the ion beam. Furthermore opportunities for improvement of the control system are evaluated and realized by the central department of research technology.
Radionuclide distribution for the Centre for Radiopharmaceutical Tumor Research
Radiopharmaceuticals are produced in the Centre for Radiopharmaceutical Tumor Research (ZRT). For this radionuclides are needed, which are generated in a cyclotron. Transportation is done by a radionuclide distribution, which was designed and assembled by the Central Department of Research Technology.
Efficient waste water treatment - SEBAK
An experimental plant (SEBAK) for optimizing sewage plant aerator optimization was assembled in the Institute of Fluid Dynamics. The Central Department of Research Technology conducts the project management including the measurement technology and the plant control system.