Measurement of Radioactive Radon Gas in the Wheat Crop of the City of Tuz Kharmatu

  • Karar Samen Ali Ministry of Education, General Directorate of Salah al Din Education, Tuz Education, Iraq
  • Loqman Abdala Hussein Ministry of Education, General Directorate of Salah al Din Education, Tuz Education, Iraq
Keywords: radon gas, wheat, solid state nuclear trace detectors, CR-39

Abstract

Current research measured radon in wheat. main food source. Cylinder to measure the concentration of radon gas in wheat samples. The results showed that the highest complete concentration was model 9, with a concentration of (78.4Bq/m-3) while the lowest concentration was model 3, with a concentration of (27.7Bq/m-3) The results of the current Refers to the wheat samples that contain eleven samples.

Downloads

Download data is not yet available.

References

1. Karim Mahmoud Salem, “Measuring the concentration of uranium and radon in selected soils from large areas located southeast of Baghdad using the nuclear trace detector CR-39”, - Master’s thesis, Al-Mustansiriya University 4002-.
2. Ali, Ghassan Abdullah, “Radon and its Impact on the Environment and Humans,” Atom and Development Bulletin, Vol. 11, No. 3, pp. 21-32, 1999.
3. Dyson، N.A.، "Nuclear physics With Applica- Limited، 162p-1981tion in Medicine and Biology، "Ellis، Horwood
4. Barillon R.، klein D.، Chande A.A Devillarad. C. "Comparison of Effectiveness of three Radon Detectors (L-R-115،CR-39) Sillicon Diode pin placedin Ctlinderical Device - Theor and Experimental Techniaus "Nucl. Trak Radat.
5. Abd al-Rahman, Najm Abdullah, “Solid reagents for the nuclear effect and their uses,” Journal of Atom and Development, Vol. 9, No. 3, pp. 6-9.1997.
6. Al-Wandway, Hussein, "Radon and its impact on the environment and man", Journal of Atom and Development, Vol. 9, No. 3, pp. 38-41, 1999..
7. of Ra^226 Th^232 and Mehrag R.، Singh ،s.،and Singh k،ɣ40ɣ_K Insoil"Analysis
8. Samples of the assessment of the Average effect ive dose "Indian journal of physics ،Vol،83No.7،P:1031-1037،2009.
9. UNSCEAR, 2008. United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR). UNSCEAR 2006 Report. Annex E. "Sources-to-Effects Assessment for Radon in Homes and Workplaces". New York: United Nations, 2008.
10. UNSCEAR, 2010. (United National Scientific Committee on the Effects of Atomic Radiation), Report to the General Assembly, United Nations, New York
11. UNSCEAR, 2000. Exposures from Natural Sources, Report to General Assembly, Annex B, New York
12. Nada F. Tawfiq, Hussein M. Nasir and Rafaat Khalid, 2012. Determination of Radon Concentrations in AL-NAJAF Governorate by Using Nuclear Track Detector CR-39, Journal of AlNahrain University, 15 (1): 83- 87.
13. UNSCEAR, 2008. United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR). UNSCEAR 2006 Report. Annex E. "Sources-to-Effects Assessment for Radon in Homes and Workplaces". New York: United Nations, 2008
14. Sudanese, Zahra Abdel-Hussein, "Concentrations of natural and industrial nuclides in different environmental samples for the city of Amara - Maysan Governorate" PhD thesis - College of Science for Girls - University of Baghdad (2016). 10. Kleeb R W
15. Nikezic, D., Yu, K.N. and Stajic, J.M. (2014) ‘Computer program for the sensitivity calculation of a CR-39 detector in a diffusion chamber for radon measurements’, Review of Scientific Instruments, AIP, Vol. 85, No. 2. Doi: 10.1063/1.4865157.
Published
2023-05-23
How to Cite
Ali, K. S., & Hussein, L. A. (2023). Measurement of Radioactive Radon Gas in the Wheat Crop of the City of Tuz Kharmatu. Central Asian Journal of Theoretical and Applied Science, 4(5), 141-146. https://doi.org/10.17605/OSF.IO/TNMQE
Section
Articles