Radioactive waste from diagnostic and therapeutical applications in nuclear medicine departments must be collected and isolated until short-lived activities have decayed to acceptable levels. Only when the activity levels are below regulation limits (which are State controlled) may the fluid waste be flushed into the public sewage system. In traditional waste disposal facilities, fluid samples were taken from time to time and assayed in well shielded setups with a large 3”x3” NaI(Tl) detector. The radioactive sample was then poured back into the system through an appropriate inlet..

b) Cyclic measurement of all tanks
The user defines in the software the relevant details for the measurement such as:
   Measuring time for each tank
   Total number of tanks
   Calibration data for each detector,
and measurements are performed fully automatic from all tanks in a cyclic sequence.
A measurement is made for the defined time, and then a special spectrum handling routine is selected which will:
 make a fast analysis of the spectrum and find the most prominent peak(s). An energy re-calibration test is made where the program tests if the energy of a defined reference peak is found and the calibration polynomial coefficients are updated if necessary.  Two calibration reference peaks can be defined. Updated calibration data are stored for future analyses, thus insuring automatic re-calibration
 then the whole spectrum or regions of the spectrum are analysed using high-precision peakfit according to analysis definitions given in a dedicated batchfile. According to selected options and existing hardware the results (activity in Bq/l) can be printed out, displayed on screen and transferred via 20 mA lines to a remote control station. Then the next detector is selected in a cyclic manner and the above sequence is repeated.
Typical measuring times in cyclic measurement systems are 3 to 4 hours per spectrum which yields very precise results for activity levels of e.g. I-131 well below 2 Bq/l and typically 1 or 2 data points per tank and per day. Such automatic supervision is perfect for all applications in nuclear medicine and radiology.

c) Fast release control
Using a special software mode the program will measure spectra from a detector mounted in the tubing that leads sewage out. Spectra are analysed (for one peak : baseline subtraction and integration of counts) every 1/30 second and the resulting activity for that nuclide is checked against a predefined reference value. If the released activity exceeds the limit value a digital I/O line or relay is actuated and the outgoing valve is immediately closed by the controlling board. This measuring mode is an effective and safe method to avoid erroneous operation where highly radioactive waste is pumped out from the wrong tank and yearly emission margins may be exceeded.