![]() Chemosphere 65:2071–2073Įdwin FB (1990) An overview of the history, present status, and future direction of solidification/ stabilization technologies for hazardous waste treatment. Appl Environ Microbiol 69:4575–4582Ĭhang E (2016) Nuclear waste bioremediation, Stanford University, U.K.Ĭhowdhury N (2012) Is nuclear energy renewable energy? Stanford University, U.K.ĭhami PS, Gopalakrishnan V, Kannan R, Ramanujam A, Salvi N, Udupa SI (1998) Biotechnol Lett 20:225–225Įapen S, Singh S, Throat V, Kaushik CP, Raj K, D’Souza SF (2006) Phytoremediation of radiostrontium (90Sr) and radiocesium (137Cs) using giant milky weed (Caltotropisgigantea R.Br.) plants. ![]() Nat Biotechnol 18:85–90īrim H, Venkateswaran A, Kostandarithes HM, Fredrickson JK, Daly MJ (2003) Engineering Deinococcus geothermalis for bioremediation of high-temperature radioactive waste environments. J Bacteriol 171:2219–2219īoyajian GE, Carreira LH (1997) Phytoremediation: a clean transition from laboratory to marketplace? Nat Biotechnol 15:127–128īrim H, McFarlan SC, Fredrickson JK, Minton KW, Zhai M, Wackett LP, Daly MJ (2000) Deinococcus radiodurans, for metal remediation in radioactive mixed waste environments. Indep Rev 14(4):535–547īossemeyer D, Schlosser A, Bakker A (1989) Specific cesium transport via the Escherichia coli Kup (TrKD) K+ uptake system. Monatsh Chem Mon 144:1751–1758īeaver W (2010) The Demise of Yucca Mountain. Appl Radiat Isot 70:99–102īayoumi TA, Saleh HM, Eskander SB (2013) Solidification of hot real radioactive liquid scintillator waste using cement-clay composite. Polym Compos 38:637–645īayoumi TA, Reda SM, Saleh HM (2012) Assessment study for multi-barrier system used in radioactive borate waste isolation based on Monte Carlo simulations. Springer, Chamīayoumi TA, Tawfik ME (2017) Immobilization of sulfate waste simulate inpolymer – cement composite based on recycled expanded polystyrene foam waste: evaluation of the final waste form under freeze thaw treatment. In: Ansari A, Gill S, Gill R, Lanza G, Newman L (eds) Phytoremediation. Sci News 150:42–43Īkhtar ABT, Yasar A, Ali R, Irfan R (2017) Phytoremediation using aquatic macrophytes. CEA, FranceĪdler T (1996) Botanical cleanup crews: Using plants to tackle polluted water and soil (phytoremediation). Additionally, discussed on recent advancement have been made in treatment of radioactive waste through microbial transformation as well as phytoremediation which play a major role in disposal of radioactive waste.Īdenot F, Advocat T, Bisel I, Broudic JC, Brun P, Cau-Dit-Coumes C, Delage F, Dussossoy JL, Faure S, Fournel B, Girold C, Grandjean A, Hollebecque JF, Lacombe J, Ladirat C, Lemort F, Peuget S, Pinet O, Poitou S, Rouppert F, Vistoli P (2005) Le traitement et le conditionnement des desechts, Rapport tech-nique DTCD\SCD\2005\001. Bioremediation may be the powerful tool for treatment of radioactive wastes. In this review, we discussed the wide ranges of strategies available for radioactive waste management such as physical, chemical, and biological methods. ![]() It is necessary to pay special attention to the management of radioactive wastes in order to approach pollution-free environment and avoid diseases to living organism through various clean-up strategies. There is a large scale contamination of radioactive waste associated for the past 60 years of global nuclear activity. Nuclear energy is one of the promising energy to sort out the energy demand, but the problem associated with the nuclear energy is the management and treatment of radioactive waste/emission/effluent since which is more dangerous to all living organism. As the renewable energy sources are depleting, energy/power generation become a major research around the world. At the same time, industries emit the waste which causes major environmental pollution and leads to harmful for all living organism. Though, industries are helping to improve the human life style in many ways in day to day life such as power generation to treatment of diseases. Our world is subject to various kinds of pollution and contamination due to rapid growth and development of industrialization.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |