References

1. M. Ayache, J.C. Dutay, P. Jean-Baptiste, T. Arsouze, J. Beurier, J. Palmieri, B. Le-Vu, W. Roether, Modling of the anthropogenic tritium transient and its decay product helium-3 in the Mediterranean sea using a high-resolution regional model, Ocean Sci. J., 11 (2015) 323–342.
2. F.D.C. Gomes, J.M. Godoy, Z.L.D. Carvvalho, E.M.D. Souz , J.I.R Silva, R.T. Lopes, Tritium (3H) as a tracer for monitoring the dispersion of conservative radio nuclides discharged by the Angra dos Reis nuclear power plants in the Piraquara de Fora Bay, Brazil, J. Environ. Radio, 136 (2014) 169–173.
3. Y.L. Wu, H.R. Liu, J.C. Liang, J.C. Liu, W.J. Xiong, H.G. Yue, S.L. Liu, D. Yuan, D.Q. Yuan, Standardization of tritiaed water by the CIEMAt/NIST and TDCR methods, Sci. China Tech. Sci., 58 (2015) 559–564.
4. K.J. Lueck, D.L. Halgren, Evaluation of tritium removal and mitigation technologies for waste water treatment. U.S. Department of Energy, P.O. Box 550, Richland, Washington 99352 (2014).
5. A. Visser, E. Fourre, F. Barbecot, L. Aquilina, T. Labsque, V. Vergnaud, B.K. Esser, Inter comparison of tritium and noble gases analyses, 3H/3He ages and derived parameters excess air and recharge temperature, Appl. Geochem., 50 (2014) 130–141.
6. P.I. Tjahaja, P. Sukmabuana, The Separation of tritium radionuclide from environmental samples by distillation technique, distillation - Advances from Modeling to Applications, Dr. SinaZereshki (Ed.), ISBN: 978-953-51-0428-5, InTech, Available from: http://www.intechopen.com/books/distillation-advances-from-modeling-to-applications/the-separation-of-tritium-radionuclide-from-environmental-samples-by-distillation-technique, 2012.
7. IAEA, International atomic energy agency, Management of waste containing tritium and carbon -14, Technical reports series No. 421, Vienna, 2004.
8. B.Q. Shen, Y.Q. Ji, Q. Tian, X.Z. Shao, L.L. Yin, X. Su, Determination of total tritium in urine from residents, living in the vicinity of nuclear power plants in Qinshan, China, Int. J. Environ. Res. Public Health, 12 (2015) 888–894.
9. V. Cidzikiene, V.J. Maseliene, R. Girgziene, J. Mazeika, R. Petrosius, Assessment of tritium activity in ground water at the nuclear objects sites in lithuania, Int. J. Nucl. Energy, ID 201623, (2014), 6 pages.
10. C. Kang, C. Xiao, X. Chen, S. Peng, X. Wang, Competition of surface reactions of tritium release from irradiated Li₄SiO₄ pebbles, Sci. China Chem., 58 (2015) 5.
11. R.J. Jeffers, G.T. Parker, Developments description and validation of tritium environmental release model (TERM), J. Environ. Radio, 127 (2014) 95–104.
12. Intervenor, The first six years, CNSC Commission member document, SRPT Licence Application, 2015.
13. A. Trivedi, D. Galeriu, E.S. Lamoth, Dose contribution from metabolized organically bound tritium after chronic tritiated water intakes in human, Health Phys., 78 (2000) 2–7.
14. D.M. Taylor, A biokinetic model for predicting the retention of 3H in the human body after intakes of tritiated water, RadiProt-Dosi., 105 (2003) 225–228.
15. D.W. Jeppson, Separation of tritium from wastewater, Waste management conference, Tucson AZ, 2000.
16. M.F. Attallah, H.S. Hassan, M.A. Youssef, Synthesis and sorption potential study of Al₂O₃-ZrO₂-CeO₂ composite material for removal of some radio nuclides from radioactive waste effluent, Appl. Radiation Isotopes, 147 (2019) 40–47.
17. M.F. Attallah, A.I. Abd-Emid, I.M. Ahmed, H.F. Aly, Possible use of synthesized nano silica functionalized by Prussian blue as sorbent for removal of certain radio nuclides from liquid radioactive waste, J. Mol. Liq., 261 (2018) 379–386.
18. K. Kobayashi, T. Hayashi, M. Nishi, Y. Oya, K. Okuno, Sorption and desorption of tritiated water on four kinds of materials for ITER, J. Fusion Eng. Design, 81 (2006) 1379–1384.
19. F. Ono, S. Tanaka, M. Yamawaki, Sorption of tritated water on organic materials and subsequent desorption, Fusion Sci. Technol., 21 (1992) 1964–1967.
20. Y. Teng, R. Zuo, J. Wang, Q. Hu, Z.J. Sun, N. Zeng, Detection of tritium sorption on four soil materials, J. Environ. Radioactiv., 102 (2011) 212–216.
21. G. Bubueanu, C. Postolache, V. Fugaru, C. Tuta, Behavior of fluoropolymer in presence of tritiated water, Acta Physica Polonica A., 127 (2015) 1363–1366.
22. P.A. Davis, S.R. Peterson, B.D. Amiro, Revision of UNSCEAR document “Dose assessment methodologies for tritium and radiocarbon.” Chalk River, Canada: Atomic Energy of Canada Limited; Report RC-M-27, (1997).
23. S. Rengaraj, Y. KH, M. SH, Removal of chromium from water and wastewater by ion exchange resins, J. Hazard. Mater. B., 87 (2001) 273–287.
24. A.V. Singh, I.K. Kumawat, Preparation and characterization of tamarind 4-hydroxy benzoic acid (THBA) resin and its use in extraction of heavy metal ions from industrial wastewater, Water SA, 4 (2012) 38.
25. E.H. Boria, M.A.Hilal, M.F. Attallah, F.A. Shehata, Radiochim. Acta, 96 (2008) 441.
26. ICRP, International Commission on Radiological Protection, 1991. 1990 recommendations of the ICRP. Annals of the ICRP, 21(1.3). Oxford, Pergamon Press (Publication 60).
27. WHO, World Health Organization, Guidelines for Drinking-Water Quality. Third Edition. Geneva ,Switzerland, 1 (2004). http://www.who.int/water_sanitation_health/dwq/%20GDWQ2004web.pdf.
28. CNSC, Canadian Nuclear Safety Commission, Standards and Guidelines for Tritium in Drinking Water, Catalogue number INFO-0766, ISBN 978-0-662-47497-5, Canada, (2008).
29. J.M. Gillis, Detection and analysis of low level tritium in rain water for a proposed environmental monitoring program, Thesis, Colorado State University, 2014.
30. Health Canada, Guidelines for Canadian Drinking Water Quality. Health Canada, Ottawa, Canada.www.hc-sc.gc.ca/ewh-semt/pubs/water-eau/doc_sup-appui/sum_guide-res_recom/index_e.html (accessed on August 21, 2007).