TY  - CONF
AU  - Pavlović, Miroslav
AU  - Pantović Spajić, Marijana
AU  - Bartl, Pavel
AU  - Stevanović, Jasmina
AU  - Pantović, Radoje
AU  - Pantović Spajić, Katarina
AU  - Radak, Bojan
PY  - 2019
UR  - https://ritnms.itnms.ac.rs/handle/123456789/1139
AB  - Flow meters are essential part of equipment in almost all chemical and process industries. Knowledge of
the flow dynamics and flow of material through the reactor system is required to evaluate the performance of the
reactors, processes, operation and design. Traditionally this evaluation can be performed using chemical tracers.
Chemical tracer results are not always precise and they could not allow an online diagnosis. The samples
containing chemical tracer have to go to a lab for analysis and chemical tracers are less sensitive than radioactive
ones. Radioactive tracers are the only tracers capable of measuring the active residence time distribution (RTD)
with high degree of precision and give information on-line without stopping the process. In this work the application
of radiotracer method for RTD measurement in flow meter calibration is described. The RTD measurements of the
system were performed in pilot-scale perfect mixer in series reactor for flow meter calibration with Technetium-
99 m (99mTc) as a radiotracer in the form of pertechnetate ion (99mTcO4
-). The optimization of the parameters
included input signal of radiotracer, concentration of radiotracer and position of detectors. The measured data
were analyzed, and standard and relative deviations were quantified under different operating conditions. A plug
flow model was used to simulate the measured RTD curves and investigate the flow dynamics of the flowing water.
The results of the study showed that the optimum concentration of 99mTc for flow meter calibration was 0.3 ml
having activity 0.68 mCi. The standard deviation was σ=0.10 l min-1 and the relative deviation was 0.94%. The
results of the study can help in the operation and design of the existing systems and design of new ones.
PB  - Belgrade : University of Belgrade, Faculty of Mining and Geology
C3  - 7th International Symposium Mining and Environmental Protection, International Conference, Proceedings
T1  - Technetium-99m as a Tracer for the Liquid Residence Time Distribution Measurement: Optimization of Different Radiotracer Parameters for Flow Meter Calibration
EP  - 173
SP  - 166
ER  - 

@conference{
author = "Pavlović, Miroslav and Pantović Spajić, Marijana and Bartl, Pavel and Stevanović, Jasmina and Pantović, Radoje and Pantović Spajić, Katarina and Radak, Bojan",
year = "2019",
abstract = "Flow meters are essential part of equipment in almost all chemical and process industries. Knowledge of
the flow dynamics and flow of material through the reactor system is required to evaluate the performance of the
reactors, processes, operation and design. Traditionally this evaluation can be performed using chemical tracers.
Chemical tracer results are not always precise and they could not allow an online diagnosis. The samples
containing chemical tracer have to go to a lab for analysis and chemical tracers are less sensitive than radioactive
ones. Radioactive tracers are the only tracers capable of measuring the active residence time distribution (RTD)
with high degree of precision and give information on-line without stopping the process. In this work the application
of radiotracer method for RTD measurement in flow meter calibration is described. The RTD measurements of the
system were performed in pilot-scale perfect mixer in series reactor for flow meter calibration with Technetium-
99 m (99mTc) as a radiotracer in the form of pertechnetate ion (99mTcO4
-). The optimization of the parameters
included input signal of radiotracer, concentration of radiotracer and position of detectors. The measured data
were analyzed, and standard and relative deviations were quantified under different operating conditions. A plug
flow model was used to simulate the measured RTD curves and investigate the flow dynamics of the flowing water.
The results of the study showed that the optimum concentration of 99mTc for flow meter calibration was 0.3 ml
having activity 0.68 mCi. The standard deviation was σ=0.10 l min-1 and the relative deviation was 0.94%. The
results of the study can help in the operation and design of the existing systems and design of new ones.",
publisher = "Belgrade : University of Belgrade, Faculty of Mining and Geology",
journal = "7th International Symposium Mining and Environmental Protection, International Conference, Proceedings",
title = "Technetium-99m as a Tracer for the Liquid Residence Time Distribution Measurement: Optimization of Different Radiotracer Parameters for Flow Meter Calibration",
pages = "173-166"
}

Pavlović, M., Pantović Spajić, M., Bartl, P., Stevanović, J., Pantović, R., Pantović Spajić, K.,& Radak, B.. (2019). Technetium-99m as a Tracer for the Liquid Residence Time Distribution Measurement: Optimization of Different Radiotracer Parameters for Flow Meter Calibration. in 7th International Symposium Mining and Environmental Protection, International Conference, Proceedings
Belgrade : University of Belgrade, Faculty of Mining and Geology., 166-173.

Pavlović M, Pantović Spajić M, Bartl P, Stevanović J, Pantović R, Pantović Spajić K, Radak B. Technetium-99m as a Tracer for the Liquid Residence Time Distribution Measurement: Optimization of Different Radiotracer Parameters for Flow Meter Calibration. in 7th International Symposium Mining and Environmental Protection, International Conference, Proceedings. 2019;:166-173..

Pavlović, Miroslav, Pantović Spajić, Marijana, Bartl, Pavel, Stevanović, Jasmina, Pantović, Radoje, Pantović Spajić, Katarina, Radak, Bojan, "Technetium-99m as a Tracer for the Liquid Residence Time Distribution Measurement: Optimization of Different Radiotracer Parameters for Flow Meter Calibration" in 7th International Symposium Mining and Environmental Protection, International Conference, Proceedings (2019):166-173.