Industrial radiotracer application in flow rate measurement and flowmeter calibration using 99mTc and 198Au nanoparticles radioisotope

The flow rate or fluid velocity measurement is important to maintain fluid flow quality performance in the systems. This study focuses on determination of volumetric flow rate measurement and to calibrate the conventional flowmeter using industrial radiotracer approach in quadrilateral gas-liquid bu...

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Veröffentlicht in:	Applied radiation and isotopes 2019-01, Vol.143, p.24-28
Hauptverfasser:	Mohd Yunos, Mohd Amirul Syafiq, Hussain, Siti Aslina, Sipaun, Susan Maria
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Sprache:	eng
Schlagworte:	Bubble column Closed conduit Flowrate measurement Gold nanoparticle tracer Industrial radiotracer Scintillation detector
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description	The flow rate or fluid velocity measurement is important to maintain fluid flow quality performance in the systems. This study focuses on determination of volumetric flow rate measurement and to calibrate the conventional flowmeter using industrial radiotracer approach in quadrilateral gas-liquid bubble column reactor. In this work, two different radioisotopes which emit γ-ray have been chosen as radioactive tracer which is 99mTc produced from 99Mo/99mTc radioisotope generator and 198Au nanoparticle form neutron activation at research nuclear reactor TRIGA Mark II. Both radioisotopes representing liquid and solid tracer purposely designed for tracing liquid flow. The peak to peak radiotracer method known as pulse velocity method was applied to determine the volumetric flow rate. The radiation signals were monitored using 4 unit NaI scintillation detectors located at 4 different points nearby the inlet and outlet of the quadrilateral bubble column reactor process stream. The water volume inside the bubble column reactor was fixed at 0.04 m3 and liquid flow rates in this reactor were specified on installed flowmeter at different reference value which is 4 lpm, 8 lpm, and 12 lpm, respectively. The experimental result shows very good linearity and repeatability by following the theoretical equations with less uncertainty in volumetric flow rate measurement. The obtained results also validated the effectiveness of the proposed method for the installed flowmeter calibration efficiency. •The flow rate of liquid phase was measured using 99mTc and 198Au industrial radiotracer.•The peak to peak radiotracer method was applied to determine the volumetric flow rates.•Validation of the suitability of tracer physical form for radiotracer techniques.•Quadrilateral bubble column reactor model was used to simulate process stream.•Calibration of conventional flowmeter using radiotracer method was compared and validated.
doi_str_mv	10.1016/j.apradiso.2018.10.008
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The water volume inside the bubble column reactor was fixed at 0.04 m3 and liquid flow rates in this reactor were specified on installed flowmeter at different reference value which is 4 lpm, 8 lpm, and 12 lpm, respectively. The experimental result shows very good linearity and repeatability by following the theoretical equations with less uncertainty in volumetric flow rate measurement. The obtained results also validated the effectiveness of the proposed method for the installed flowmeter calibration efficiency. •The flow rate of liquid phase was measured using 99mTc and 198Au industrial radiotracer.•The peak to peak radiotracer method was applied to determine the volumetric flow rates.•Validation of the suitability of tracer physical form for radiotracer techniques.•Quadrilateral bubble column reactor model was used to simulate process stream.•Calibration of conventional flowmeter using radiotracer method was compared and validated.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.apradiso.2018.10.008</doi><tpages>5</tpages></addata></record>
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subjects	Bubble column Closed conduit Flowrate measurement Gold nanoparticle tracer Industrial radiotracer Scintillation detector
title	Industrial radiotracer application in flow rate measurement and flowmeter calibration using 99mTc and 198Au nanoparticles radioisotope
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