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Prompt Gamma Application in Building Construction Industry

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Presentation on theme: "Prompt Gamma Application in Building Construction Industry"— Presentation transcript:

1 Prompt Gamma Application in Building Construction Industry
A. Naqvi*, O.S. B. Al-Amoudi**, M. Maslehuddin*** *Department of Physics, **Department of Civil Engineering, ***Center for Engineering Research, Research Institute King Fahd University of Petroleum and Minerals, Dhahran 31261, Saudi Arabia

2 Talk Outline Introduction
Prompt Gamma Neutron Activation Analysis (PGNAA) technique Assessment of calcium, silicon, chlorine and sulfur in concrete using : KFUPM 350 keV accelerator-based PGNAA setup KFUPM Portable accelerator-based PGNAA setup

3

4 PGNAA technique Bombardment of atoms in a sample with thermal neutrons
Emission of element characteristic prompt - rays from the sample Intensity measurement of the prompt -rays Determination of elemental composition of the sample from measured intensity of characteristic prompt -rays

5

6 KFUPM PGNAA Setup Basic Features
Thermal neutron capture based PGNAA setup 2.8 MeV neutrons from D(d,n) reaction 10-30 μA pulsed deuteron beam to improve peak/back ground ratio in -ray spectrum Rectangular paraffin & High density Polyethylene based Neutron Moderator Large cylindrical sample weighing few kg 10"x 10“ NaI detector PGNAA sample size calculations through Monte Carlo simulations

7 KFUPM PGNAA setup Neutron generator Hall

8 KFUPM Accelerator based PGNAA Setup

9 KFUPM Accelerator-based PGNAA Setup

10 Some Selected Studies conducted using KFUPM PGNAA Lab. setup
Measurement of lime/silica ratio in concrete Measurement of fly ash concentration in concrete Chloride Contamination Assessment in the Portland cement Sample Chloride Contamination Assessment in the plain cement concrete samples Chloride Contamination Assessment in the fly ash, silica fume and blast furnace slag cement concrete samples Sulfur concentration Assessment in concrete

11 Lime/Silica-Ratio conducted using KFUPM PGNAA Lab. setup
Lime/Silica Ratio Measurements Measurement of intensity of silicon and calcium prompt gamma rays from concrete Lime/Silica ratio calculation from intensities ratios

12 Lime/Silica-Ratio conducted using KFUPM PGNAA Lab. setup

13 Measurement of fly ash concentration in concrete containing 5 and 80 wt. % fly ash
Element (wt. %) Sample 5 wt.%-FA 80 wt. %-FA H 1.03 0.762 C 5.98 4.89 O 52.19 49.6 Mg 0.28 0.45 Al 0.49 2.09 Si 15.31 16.04 S 0.187 0.25 K 0.162 0.13 Ca 23.93 21.71 Fe 0.36 0.81

14 Measurement of fly ash concentration in concrete Calcium Prompt Gamma Ray yield from Fly ash cement based concrete specimen containing wt. % fly ash

15 Chloride Contamination Assessment in the Portland cement Sample through 1.165 MeV Chlorine Gamma Ray
The enlarged view of the less interfering MeV chlorine prompt -rays spectra for the Portland cement sample containing 1-4 wt % chlorine concentration. 1.0 wt. % chlorine concentration ( bottom most spectrum), 2 wt % chlorine concentration ( next to bottom most spectrum), 3 wt. % chlorine concentration (next to top most spectrum) and 4 wt. % chlorine concentration ( top most spectrum) .

16 Chloride Contamination Assessment in the Portland Cement Sample
The chlorine Prompt gamma ray measurements from Portland cement sample containing wt. % chloride contamination. Strong Interference of chlorine gamma rays with energy above 3 MeV with those from calcium in concrete

17 Chloride contamination assessment in the plain cement concrete Sample

18 Chlorine Assessment in Concrete Specimen
The minimum detection limit MDC of chlorine in concrete using for and MeV chlorine gamma rays is 0.025 wt % The maximum permissible limit of chlorine concentration in concrete set by the American Concrete Institute is 0.03 wt. %. Within a statistical uncertainty of 0.025 wt.%, the MDC within the maximum permissible limit of 0.03 wt. % of chlorine set by ACI Standards.

19 Chloride Contamination Assessment in the fly ash, silica fume and blast furnace slag cement concrete samples

20 Chlorine Assessment in Silica fume cement concrete

21 Chlorine Assessment in Fly Ash cement concrete

22 Chlorine Assessment in Blast Furnace Slag cement concrete

23 E (MeV) MDC (wt. %) in blast furnace slag concrete [8] (wt. %) in fly ash cement concrete [10] (wt. %) in silica fumes cement concrete 1.16 - 0.0220.007 0.0210.009 1.94 0.0510.015 0.0380.011 5.72 6.11 0.034  0.011 0.038  0.017 0.026  0.008 6.62 0.038  0.012 0.059  0.027 0.058  0.018 7.41 0.044 0.013 0.050 0.027 0.026 0.008 7.79 0.060 0.018 0.076 0.029 0.063 0.019 8.58 0.076 0.023 0.068 0.029 0.081 0.025

24 Sulfur Concentration Assessment in concrete samples
Measurement of sulfur concentration in concrete specimen using MeV gamma ray. Concrete samples containing wt. % sulfur Interference of the MeV sulfur peak with the double escape peak of calcium. The highest MeV peak in (6 wt. % conc.), while the smallest peak (2 wt. conc.), % and the middle (4 wt. %. conc.)

25 Sulfur Assessment in Concrete Samples
The MDC of sulfur concentration in concrete for the KFUPM PGNAA setup using the sulfur MeV prompt gamma ray = 0.6000.187 wt %. MDC is close to the minimum limit of 0.60 wt. % of sulfur in concrete set by British Standards .

26 MP320 Portable Neutron Generator Based
PGNAA Setup for Field Measurement Assessment of calcium, silicon, and chlorine in concrete using Portable accelerator-based PGNAA setup

27 Portable Neutron Generator Model: MP 320 for field applications
Digital system Light weight : 10 kg unit easily integrated into analysis systems, 24 Vdc input, < 75 watts Less than 500 ns rise time/fall time on source pulse RS-232 interface works with any PC Max. Yield: 1x108 n/s Max. Lifetime: hours Pulse Rate: 250 Hz to 20 kHz Pulse Width: Variable, > 5 ms Duty Factor: Variable, 5 to 100%

28 Portable Neutron Generator Model: MP 320 for field applications

29 Portable Neutron Generator Model: MP 320 for field applications

30 Portable Neutron Generator Model: MP 320 for field applications

31 Portable Neutron Generator Model: MP 320 for field applications

32 Portable Neutron Generator Model: MP 320 for field applications

33 Portable Neutron Generator –chloride assessment in Fly ash cement concrete

34 Portable Neutron Generator –chloride assessment in Fly ash cement concrete

35 Portable Neutron Generator –chloride assessment in Blast Furnace Slag cement concrete

36 Portable Neutron Generator –chloride assesment in Super Pozz cement concrete

37 Portable Neutron Generator –chloride calibration curve for FA, BFS and SPZ cement concrete

38 Minimum Detectable Concentration (MDC), % of cement
Portable Neutron Generator –MDC limit for chloride assessment in FA, BFS and SPZ cement concrete Gamma-Ray Energy (MeV) Minimum Detectable Concentration (MDC), % of cement FA Concrete BFS Concrete SPZ Concrete 0.033±0.010 0.034±0.010 0.032±0.012 5.72 0.031±0.010 0.032±0.010 0.037±0.012 6.11 0.035±0.012

39 Patent Papers under processing for
Portable Neutron Generator based PGNAA Setup for onsite concrete analysis

40 Thank You very much

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