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Dead Time Correction of Residence Time Distribution through Digital Signal Processing

Mohamed S. El_Tokhy*, Ibrahim M. Fayed**, Mouldi A. Bedda***, H. Kasban****
*-*** Department of Electrical Engineering, College of Engineering, Aljouf University, KSA.
** Assistant Professor, Department of Electronics and Communication Engineering, College of Engineering, Aljouf University, KSA.
**** Department of Electrical Engineering, Nuclear Research Center, Atomic Energy Authority, Cairo, Egypt.
Periodicity:October - December'2015
DOI : https://doi.org/10.26634/jdp.3.4.3705

Abstract

This paper discusses the signal preprocessing of the acquired radiation signal for Residence Time Distribution (RTD). Radiation signals of Molybdenum-99 (Mo99 ) were acquired through system setup. This system begins with a scintillator detector, channel counter and a Personal Computer (PC). Different forms of noise are accompanied with the RTD radiation signal. Consequently, an algorithm was proposed based on signal processing. This algorithm depends on background correction, base line restoration, statistical error computation, radioactive decay correction and dead time correction methods. Therefore, background correction was performed using two independent methods. These methods are the minimum value of the RTD radiation signal method and the subtraction method. Then, base line restoration was performed. Statistical error of the RTD radiation signal was computed. However, two different methods were studied for radioactive decay correction. Moreover, a dead time correction method is proposed. Therefore, dead time percent is obtained. Consequently, the number of lost pulses is investigated. The accuracy of the considered algorithm is determined based on statistical measurements of the acquired RTD signal. A remarkable accuracy of the dead time measurements is observed.

Keywords

 Dead Time, Scintillator Detector, Decay Correction, Signal Processing Algorithms.

How to Cite this Article?

 El_Tokhy,M.S., Fayed,I.M., Bedda,M.A., and Kasban.H. (2015). Dead Time Correction of Residence Time Distribution through Digital Signal Processing. i-manager's journal on Digital Signal Processing, 3(4), 1-8. https://doi.org/10.26634/jdp.3.4.3705

References
[1]. T.M. Werner, R.H. Kadlec, (2000). “Wetland residence time distribution modeling”, Ecological Eng, Vol.15, pp. 77–90.
[2]. International Atomic Energy Agency, (2008). “Radiotracer residence time distribution method for industrial and environmental applications”, Training Course (31), vienna.
[3]. J. Yianatos, L. Bergh, L. Vinnett, and F. Daz, (2013). “Modeling of residence time distribution in regrinding Vertimill”, Minerals Eng, Vol. 53, pp.174–180.
[4]. M. Arellano, H. Benkhelifa, G. Alvarez and D. Flick, (2013). “Experimental study and modelling of the residence time distribution in a scraped surface heat exchanger during sorbet freezing”, Journal of Food Eng. Vol. 117, pp.14–25.
[5]. H. Kasban, O. Zahran, H. Arafa, M. El-Kordy, S.M.S. Elaraby, and F.E. Abd El-Samie, (2010). “Laboratory experiments and modeling for industrial radiotracer applications”, Appl. Rad. and Isot. Vol. 68, No. 6, pp. 1049–1056.
[6]. H. Kasban, O. Zahran, and F. E. Abd El-Samie, (2010). “New trends for on-line troubleshooting in industrial problems using radioisotopes”, The Online Journal on Electronics and Electrical Engineering (OJEEE), Vol. 2, No. 3, pp. 284-292.
[7]. H. Kasban, H. Arafa, and S.M. Elaraby, O. Zahran, and M. EI-Kordy, (2011). “RTD signal identification using linear and nonlinear modified Periodograms”, International Conference on Computer Engineering & Systems (ICCES), Cairo, Egypt, pp. 156 –160.
[8]. O. Zahran, H. Kasban, F.E. AbdEl-Samie, M.El-Kordy, (2012). “Power density spectrum for the identification of residence time distribution signals”, Appl. Rad. and Isoto. Vol. 70, pp. 2638–2645.
[9]. H. Kasban and A. Hamid, (2014). “Spectrum analysis of radiotracer residence time distribution for industrial and environmental applications”, Journal of Radioanalyt. and Nucl. Chem, Vol. 299, No.3.
[10]. S. Shin, J. Kim, S. Jung, and J. Jin, (2003). “The RTD measurement on a submerged bio-reactor using a radioisotope tracer and the RTD analysis”, International Journal of Cont., Automat., and Sys, Vol.1, No. 2.
[11]. Advanced Physics Laboratory, (2011). “Experiment gamma ray spectroscopy ”, University of Florida, Department of Physics (PHY4803L).
[12]. Radiometrics theoretical background (R25), (2015). Intrepid User Manual, Retrived from http://www.intrepidgeophysics. com/ig/ manuals/english/ckratheo.pdf
[13]. Background Radiation Sources, (2015). “Nuclear Radiation with Vernier ”, http://www2.vernier.com/ sample_labs/NRV-05-COMP-background_radiation.pdf.
[14]. H. Kasban, O. Zahran, H. Arafa, M. El-Kordy, S.M.S. Elaraby and F.E. AbdEl-Samie, (2010). “Laboratory experiments and modeling for industrial radiotracer applications”, Appl. Rad. and Isoto. Vol. 68, pp. 1049–1056.
[15]. Perk Elmer, (2013). The gamma counting handbook- A guide to the state of art of gamma counting.
[16]. Radiation counting statistics, (2015). Retrived from http://holbert.faculty.asu.edu/eee460/ RadiationCountingStatistics.pdf.
[17]. National Diagnostics (2004). “Principles and applications of liquid scentillation country”, A primer for orientation.
[18]. G.S. Zahn, J.W.M. Oliva and F.A. Genezini, (2013). “Half-life determination for short-lived radioisotopes 52V, 66Cu and 28Al”, Rad. Phys. and Chem. Vol. 85, pp. 70–72.
[19]. B.R.S. Minty, (1997). “Fundamentals of airborne gamma-ray spectrometry”, AGSO Journal of Australian Geology and Geophys. Vol.17, No. 2, pp. 39-50.
[20]. I. Salma and E. Zemplen-Papp, (1999). “Dead-time correction of counting losses in the ?-spectrometry of short-lived nuclides”, Journal of Radioanalyt. and Nuclear Chem. Vol.144, No. 4, pp. 241-249.
[21]. R.P. Gardner and S.H. Lee, (1999). “Monte Carlo simulation of pulse pile up”, International Centre for Diffraction Data (JCPDS), 941-950.
[22]. G.F. Knoll, (2000). Radiation detection and measurement, Third Edition John Wiley and Sons, NY.
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