Application of area monitors and scintillating detectors in the development of CBRN defense reconnaissance vehicles
DOI:
https://doi.org/10.15392/bjrs.v9i3.1698Keywords:
Detectors, Scintillators, Vehicle, CBRN, Defense.Abstract
This study describes the use of ionizing radiation detectors in a Brazilian Army reconnaissance vehicle (RV), used in area monitoring actions based on the occurrence of a radiological event. Two scintillating detectors, NaI and LaBr3, were used to carry out field measurements of surveying for different distances from a simulated detector position in the vehicle, in order to compare the energy spectra obtained in each measurement system. The Brazilian Army Technological Center (Centro Tecnológico do Exército - CTEx) region was chosen to carry out the measurements. The meteorological information was annotated to verify the conditions into which the experimental apparatus would be submitted. The results suggest that both the NaI and LaBr3 scintillating detector could be used in radiological emergency response RV, offering satisfactory responses in the gamma radiation detection. However, the NaI detector was chosen considering the wide network of technical assistance and its low operational cost. The relevance of this investigation shows the importance of planning responses in emergency situations and the influence of efficient instrumentation in the measurement processes.
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TAUHATA, L.; SALATI, I.P.A.; DI PRINZIO, R.; DI PRINZIO, A.R.; Radioproteção e Dosimetria: Fundamentos. 5. rev. Rio de Janeiro, R.J.: 2003. Disponível em: http://www.ird.gov.br/divulga/divulga1.htm. Acesso em: 05 Abril 2021.
DELLAMANO, J.C.; MARUMO, J.T.; SANCHES, M.P.; VICENTE, R.; BELLINTANI, S. Noções Básicas de Proteção Radiológica. São Paulo, S.P.: DDRH/DSN/IPEN, 2002
KNOLL, GLENN F; Radiation Detection and Measurement. 3rd ed.. New York, NY. 2000.
CERRITO, Lucio. Radiation and Detectors: Introduction to the physics of radiation and detection devices. 1. ed. London, UK: Springer InternationalPublishing, 2017. 217 p.
MURRAY, l. RAYMOND. Nuclear Energy. Butterworth Heineman, 5° edição, 1975. Cap.10.
TSOULFANIDIS, Nicholas et al.Measurment and Detection of Radiation. 2. ed. Washigton, DC: Taylor e Francis, 1995. 636 p.
HEATH, R.L.; HOFSTADTER R.; HUGHES E.B. Inorganic Scintillators - A Review of Techniques and Applications. North-Holland Publishing Co., 1979.
BAPTISTA, Alfredo. Equipamentos detectores de radiação e sua utilização. Curso de proteção e segurança radiológica em Radiografia Industrial, Lisboa, p. 1-44, 23 ago. 2020.
PHOTON IS OUR BUSINESS. Photomultiplier Tubes: Basics and Applications. 3. ed. [S. l.]: HamamatsuPhotonics K. K, 2007. 323 p.
XAVIER, A; Moro, J.T; Heilbron, P.F.L; Princípios Básicos de Segurança e Proteção Radiológica. 3a ed. Revisada. 2006 – Porto Alegre – UFRGS
MIRION TECHNOLOGIES. SpiR-ID Nai - Handheld Detection and Identification. USA 2014,
THERMO SCIENTIFIC. RIIDEye - Handheld Radiation Isotope Identifier. USA, 2012.
THERMO SCIENTIFIC. RadEye PRD/PRD-ER Personal Radiation Detector. USA, 2008.
CANBERRA INDUSTRIES. Model 802: Scintillation Detectors. USA: Canberra Industries, 2003. 9 p.
CANBERRA INDUSTRIES. Model 2005: Scintillation Preamplifier. USA: Canberra Industries, 2003. 21 p.
CANBERRA INDUSTRIES. Model 2007: PM Tube Base. USA: Canberra Industries, 2006. 14 p.
LIMA, C. A., 2006, Avaliação da Performance de Detectores Iodeto de Sódio NaI(Tl) em Centrais Nucleares – Dissertação de Mestrado, COPPE/UFRJ, RJ.
MILBRATH, B. D.; CHOATE, B. J.; FAST, J. E.; HENSLEY, W. K.; KOUZES, R. T.; SCHWEPPE, J. E. Comparison of LaBr3:Ce and NaI(Tl) Scintillators for Radio-Isotope Identification Devices. U. S. Department of Homeland Security - U.S. Customs and Border Protection and Domestic Nuclear Detection Office under U.S. Department of Energy Contract DE-AC05-76RL01830, 2006.
SAIZU1, Mirela Angela; CATA-DANIL, Gheorghe. Lanthanum Bromide Scintillation Detector For Gamma Spectrometry Applied In Internal Radioactive Contamination Measurements. U.P.B. Sci. Bull., Series A Vol. 73, Iss. 4, 2011.
ILTIS, A.; MAYHUGH, M.R.; MENGE, P.; ROSZA, C.M.; SELLES, O.; SOLOVYEV, V. Lanthanum halide scintillators: Properties and applications. Nucl.Instr.Meth. A vol. 563, 2006. 359-363 p.
Comissão Nacional de Energia Nuclear. CNEN-NE 5.01 - Transporte de Materiais Radioativos. 1988.
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