Innovative Highly Selective Removal of Cesium and Strontium Utilizing a Newly Developed Class of Inorganic Ion Specific Media

Denton, Mark S.; Kanatzidis, Mercouri G.

doi:10.1115/icem2009-16221

Cited by 4 publications

(3 citation statements)

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“…In other cases, they could remove Sr for 80% but for other elements the removal is about 30% only [34][35][36]. In this work, the applied inorganic nano materials succeeded in the purification of the elements from primary coolant water in a satisfied range of removal percentages.…”

Section: Resultsmentioning

confidence: 77%

Usages of Nanomaterials in the Treatment of Primary Coolant Water for Pressurized Water Reactor

Abdel‐Goad¹,

Mahmoud

Saad

2019

Arab Journal of Nuclear Sciences and Applications

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The application of nano silica extracted from kaolinite, bentonite and rice straw is proposed as treatment material for the purification of primary coolant water of pressurized water reactors. Three elements were used to simulate some radionuclides that can be released in the primary coolant water namely, strontium, nickel and cobalt. Various batch experiments were performed including selection of efficient sorption nanomaterial, optimum operational weight ratio (element/nano material), selectivity of the nano silica for elements used, determination of the equilibrium curve of sorption process, and desorption behavior of nanomaterial with pH and temperature variation. The samples were analyzed using the inductively coupled plasma emission spectrometer. Silica of kaolinite, bentonite and rice straw showed the same results in the efficiency/ capability removing the three elements used. Silica form of rice straw has been selected as nano-treated materials for economic and environmental reasons. The sorption process reached equilibrium after 30 min approximately. The experiments demonstrated that the sorption reaction of elements by the nano-silica is an irreversible reaction with the change of temperature and pH. The obtained results indicated that using the nano silica increased the safety margin of the treatment stage in the multi barrier concept.

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Section: Resultsmentioning

confidence: 77%

Usages of Nanomaterials in the Treatment of Primary Coolant Water for Pressurized Water Reactor

Abdel‐Goad¹,

Mahmoud

Saad

2019

Arab Journal of Nuclear Sciences and Applications

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“…In particular, PBAs can be synthesized in a facile and cost-effective manner. Such materials often exhibit high porosity, excellent thermal, and radiation stability [21], which render them highly applicable in many fields, including information/energy storage [22], biomedicine [23], and dye [24] or radioactive waste removal. In addition, PBAs have been regarded as one of the most efficient and selective adsorbents for cesium ions.…”

Section: Introductionmentioning

confidence: 99%

Prussian Blue Analogues of A2[Fe(CN)6] (A: Cu2+, Co2+, and Ni2+) and Their Composition-Dependent Sorption Performances towards Cs+, Sr2+, and Co2+

Nguyen

et al. 2021

Journal of Nanomaterials

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Investigation in radioactive contaminant removal from aqueous solutions has been considered essential upon unexpected nuclear accidents. In this report, we have successfully prepared Prussian blue analogues (PBAs) with different substituted cations (A2[Fe(CN)6] (A: Cu2+, Co2+, and Ni2+)). The synthesized PBAs were characterized and employed for the removal of Cs+, Sr2+, and Co2+ as sorption models, which are commonly found in radioactive waste. Sorption examinations reveal that Cu2[Fe(CN)6] has the highest sorption capacity towards Cs+, Sr2+, and Co2+ compared with those of Co2[Fe(CN)6] and Ni2[Fe(CN)6]. This is mainly attributed to the cation-exchange ability of substituted metal within the framework of PBAs. The sorption mechanism is qualitatively and quantitatively supported by infrared spectroscopy (IR) and total reflection X-ray fluorescence spectroscopy analysis (TXRF). In addition, it was found that Cs+ is adsorbed most effectively by PBAs due to the size matching between Cs+ ions and the channel windows of PBAs. These findings are important for the design of sorbents with suitable ion-exchange capacity and selectivity toward targeted radioactive wastes.

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“…They do not have high capacity of exchange. They are swelled and does not have fixation in both the thermal bath and the radiation bath [5]. Besides, they might be high in cost.…”

Section: Introductionmentioning

confidence: 99%

The Analysis of Adsorption Phenomenon for Nano silica with Some Radionuclides Released in The Primary Coolant of PWR

Abdel‐Goad¹,

Mahmoud

Saad

2019

Egypt. J. Chem.

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Innovative Highly Selective Removal of Cesium and Strontium Utilizing a Newly Developed Class of Inorganic Ion Specific Media

Cited by 4 publications

References 0 publications

Usages of Nanomaterials in the Treatment of Primary Coolant Water for Pressurized Water Reactor

Usages of Nanomaterials in the Treatment of Primary Coolant Water for Pressurized Water Reactor

Prussian Blue Analogues of A2[Fe(CN)6] (A: Cu2+, Co2+, and Ni2+) and Their Composition-Dependent Sorption Performances towards Cs+, Sr2+, and Co2+

The Analysis of Adsorption Phenomenon for Nano silica with Some Radionuclides Released in The Primary Coolant of PWR

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