The settings for SOURCES AND IMPURITY can be done inside the CONVERGENCE LOOP composite actor. Therefore please do:
There is a number of sources developed by IMP3 project, which are actors or internal routines of the transport solver. You can activate them by selecting ON / OFF in front of corresponding source:
There is a number of sources developed by IMP5 project, that are incorporated by the ETS workflow.
For the IMP5HCD sources please activate the type of heating source, by ticking the box in front of it, and select the code to simulate it.
You also need to configure initial IMP5HCD settings. Therefore please:
The detailed information on initial IMP5HCD settings can be
found here.
Please note that settings for NBI are done independent for each
PINI. Therefore, for NBI settings, please insert the values separated by
commas. The number of the element in the array corresponds to the number of
activated PINI. Maximum accepted number of PINIs = 16.
You also can activate the power control for the IMP5HCD sources.
If the POWER_CONTROL is not OFF, there are two modes of operation:specific and frequency
For specific you should specify the time sequence separated by commas
and the corresponding power sequence (where first power level corresponds to
the first time, second to second and etc.). Linear interpolation will be
done between the sequence points.
For example: if
you give the power sequence = 2e6,4e6,1e6 and times = 0.0, 0.7, 1.5 (s)
the delivered power would be:
For frequency you should specify the power levels sequence separated by
commas, start and end time of the power control and the frequency of
switching between these levels.
For example: if
you give the power sequence = 2e6,4e6,1e6 and frequency = 10 (Hz) tstart =0.0 (s)
tend = 1.5 (s) the delivered power would be:
Profiles of the total source for each channel are obtained from the the individual contributions (Data Base, Gaussian, Neutrals, Impurity and HCD) as a summ of all activated sources multiplied with coefficients specified on the interface of the composite actor.
S_tot = S_DS*DSM + S_GS*GSM + S_Neu*NeuSM + S_IMP*IMPSM + S_HCD*HCDSM!!! Note, that contributions to all transport equations will be multiplied with the same value.
The fine tuning of of sources can be done through editing the XML code parameters of the source combiner actor:
If you like the sources to the particular equation being activated -
select from_input_CPOs; if
you select OFF contributions
from all sources to this channel will be nullified.
For active channels you can adjust multipliers for combining contributions from different
source modules (array of five space separated values is expected):