Prompt gamma-ray analysis of chlorine in superpozz cement concrete

Naqvi, A.A.; Kalakada, Zameer; Al-Matouq, Faris A.; Maslehuddin, Mohammed; Al‐Amoudi, Omar S. Baghabra; ur-Rehman, Khateeb

doi:10.1016/j.nima.2012.06.059

Cited by 14 publications

(9 citation statements)

References 11 publications

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“…State-of-the-art nuclear physics methodologies and instrumentation, combined with commercial availability of portable pulse neutron generators, high-efficiency gamma detectors, reliable electronics, and measurement and data processing software, have currently made the application of neutron-gamma analysis possible for routine measurements in various fields of study. For these reasons, material analysis using characteristic gamma rays induced by neutrons is more wide-spread today; e.g., threat material detection (explosives, drugs, and dangerous chemicals [1]), diamond detection [2], planetary science applications for obtaining bulk elemental composition information, soil elemental (isotopic) content and density distribution [3], archaeological site surveying and provenance studies [4,5], elemental composition of human [6,7] and animal [8,9] bodies, real-time elemental analysis of bulk coal on conveyor belts [10,11], chloride content of reinforced concrete [12,13], and in oil well logging [14].…”

Section: System Evolution and Applicationmentioning

confidence: 99%

Neutron-Stimulated Gamma Ray Analysis of Soil

Kavetskiy¹,

Yakubova²,

Torbert³

2017

New Insights on Gamma Rays

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This chapter describes technical aspects of neutron-stimulated gamma ray analysis of soil carbon. The introduction covers general principles, different modifications of neutron-gamma analysis, measurement system configuration, and advantages of this method for soil carbon analysis. Problems with neutron-gamma technology in soil carbon analysis and methods of investigations including Monte-Carlo simulation of neutron interaction with soil elements are discussed further. Based on the investigation results, a method of extracting the "soil carbon net peak" from the raw acquired data was developed. The direct proportional dependency between the carbon net peak area and average carbon weight percent in the upper 10 cm soil layer for any carbon depth profile was shown. Calibration of the measurement system using sand-carbon pits and field measurements of soil carbon are described. Measurement results compared to chemical analysis (dry combustion) data demonstrated good agreement between the two methods. Thus, neutron-stimulated gamma ray analysis can be used for in situ determination of near-surface soil carbon content and is applicable for precision geospatial mapping of soil carbon.

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Section: System Evolution and Applicationmentioning

confidence: 99%

Neutron-Stimulated Gamma Ray Analysis of Soil

Kavetskiy¹,

Yakubova²,

Torbert³

2017

New Insights on Gamma Rays

View full text Add to dashboard Cite

show abstract

“…The intensity of 6.11 MeV chlorine gamma-ray was measured from a rack containing nine concrete slabs each measuring 8 in Â 8 in Â 1 in stacked together using a portable neutron generator based PGNAA setup. The PGNAA setup used in this study is a modified form of the PGNAA setup described in other publications of the authors (Naqvi et al, 2012(Naqvi et al, , 2014. The PGNAA setup utilized in the reported study mainly consists of a portable neutron generator, a cylindrical 25 cm Â 8 cm (diameter Â height) density polyethylene (HDPE) moderator and nine rectangular, 20 cm Â 20 cm Â 2.5 cm concrete slabs stacked together in a rack.…”

Section: Monte Carlo Simulations For Prompt Gamma-ray Yield Calculationsmentioning

confidence: 99%

“…Then one chlorinated contaminated SF cement concrete slab specimen was prepared by mixing 3% chloride ion, by weight of the cementitious material, following the procedure described elsewhere (Naqvi et al, 2012(Naqvi et al, , 2014.Then, one of the uncontaminated SF cement concrete slab specimen was replaced by the contaminated SF cement concrete slab. Initially, the contaminated SF cement concrete slab was placed touching the moderator, at a distance of 1.25 cm between the moderator surface and the chlorinated SF concrete slab center.…”

Section: Monte Carlo Simulations For Prompt Gamma-ray Yield Calculationsmentioning

confidence: 99%

“…The typical beam current of the generator was 55-65 μA. The thermal neutron spectra were acquired in PC-based data acquisition system utilizing multichannel buffer module Model 920E-16, ETHERNIM using a cylindrical 52 mm diameter and 2 mm thick enriched-Lithium glass thermal neutron detector, as described previously (Naqvi et al, 2012). The Li-glass was placed at 30°angle to neutron generator axis at a distance of 180 cm from the target plane location.…”

Section: Prompt Gamma Analysis Of Chlorinated Sf Cement Concrete Slabsmentioning

confidence: 99%

“…Due to high capture cross section of thermal neutrons in chlorine, nuclear techniques, particularly Prompt Gamma Neutron Activation (PGNAA), offer a prompt and reasonably accurate method to asses chlorine contamination in concrete. Recently, an accelerator based-PGNAA setup has been developed successfully to determine the chloride concentration in concrete (Naqvi et al, 2012(Naqvi et al, , 2014. The portable neutron generator based PGNAA setup developed by the authors in a previous study has been utilized to measure the intensity of chloride gamma-ray intensity emitted from various depths in silica fume (SF) cement concrete.…”

Section: Introductionmentioning

confidence: 99%

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