X-ray Equipment

Objectives

Ionising radiation such as X-rays is well suited for the investigation of multiphase flows since it penetrates all phases (gas, fluid, solid) well and is essentially linearily attenuated. Further, tomographic techniques give the opportunity to determine the volume density distribution of an object noninvasively. Beside two-dimensional tomography in an object’s plane an arrangement of X-ray source and 2D X-ray image detector can be used in combination with special cone-beam image reconstruction algorithms to reconstruct three-dimensional density distributions. In the frame of research on two- and multiphase flows we use radiographic and tomographic techniques for the investigation of gas, particle and phase distributions in flow channels and chemical reaction vessels.

The X-ray Measurement System

The department possesses a modern X-ray facility for radiography and tomography.

Panorama view of the X-ray facility
Panorama view of the X-ray facility with array detector, object rotation table, and the two X-ray tubes.

The system consists of two medical X-ray tubes, a 2D X-ray detector array, a 64 element linear X-ray detector with high sampling frequency, and a rotational table for tomography of small objects. The detailed technical parameters of the system are given below. Depending on the type of investigation we can either use the integrating 2D detector array or the fast sampling linear detector in combination with either a continuous-wave X-ray radiator or a pulsed X-ray source. Thus, for short time exposures with down to 300 µs exposure time the PHILIPS ROTALIX SRO 22 50 source and for standard exposures the DUNLEE/PHILIPS PXD 1429 can be used. The data acquisition for both detectors is controlled by a measurement PC. The X-ray system is completely enclosed in a shielding tunnel that is closed during measurements. This guarantees sufficient radiation protection for the operating personnel. Since the arrangement of the different measurement components can be freely chosen for a given experiment we have a high degree of versatility for a number of scientific problems.

Data Acquistion and Processing Software

For computed tomography we have developed a special software that controls the data acquisition process in synchronization with the trigger for the X-ray source, and further comprises an experimental version of different image reconstruction algorithms (filtered backprojection, cone-beam reconstruction, iterative image reconstruction).
tomography software
tomography software: example for tomographic imaging of a needle probe sensor.

System Specification:

X-ray radiator

Radiator 1:

x-ray generator EDITOR MP601
x-ray radiator DUNLEE/PHILIPS PXD 1429 CS
focal spot size 0.6 mm, 1.2 mm
maximum power for single exposures 63 kW
acceleration voltage (single exposures) 40...150 kV
maximum electron current (single exposures) 10...630 mA
exposure time (single exposures) 2...6300 ms
acceleration voltage (transillumination mode) 40...125 kV
electron current (transillumination mode) 1 mA
exposure time (transillumination mode) user-defined

Radiator 2 (pulsed radiator):

pulse generator RIG 150
radiator PHILIPS ROTALIX SRO 2250
focal spot size 0.6 mm; 1.2 mm
maximum pulse power 56 kW
maximum pulse frequency 300 Hz
pulse duration ≥ 300µs

X-ray Detectors:

X-ray Detector Array Perkin-Elmer RID 1640

active array a-Si:H, LANEX®-plane scintillator
resolution 1024 x 1024 pixel
active pixel area 400 µm x 400 µm
overall active area 409.6 mm x 409.6 mm
resolution depth 16 bit
maximum sampling rate 3 frames/s

X-ray Detector Line Array

resolution 64 pixel
active pixel area 1.5 mm x 1.5 mm
length 119 mm
resolution depth 12 bit
maximum sampling rate 100.000 kHz per pixel

Measures of the shielding tunnel:

height 1.80 m
width 1.10 m
depth 3.20 m

Contact

Dr. U. Hampel