2018
DOI: 10.3390/ma11081347
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Compact Storage of Radioactive Cesium in Compressed Pellets of Zeolite Polymer Composite Fibers

Abstract: To facilitate the safe storage of radioactive Cs, a zeolite–poly(ethersulfone) composite fiber was fabricated to be a compact storage form of radioactive Cs, and an immobilization was investigated with respect to the effects of volume reduction and stability of the fiber’s adsorbent matrix. Using compressed heat treatment at 100–800 °C for a zeolite polymer composite fiber (ZPCF) containing Cs, the fabrication changed its form from a fiber into a pellet, which decreased the matrix volume to be about one-sixth … Show more

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Cited by 4 publications
(3 citation statements)
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“…Furthermore, the bands which occurred at 1639 cm −1 arose from the H-O-H deformation vibrations of water molecules. Since the calcination of the catalysts underwent at 800 °C, and thus water should have been eliminated, we attributed the presence of the adsorbed water molecules to the absorption from the atmosphere during the IR pellets formation [44,45]. Importantly, all samples revealed the bands in the 400-1000 The FTIR spectroscopy analysis allowed us to prove the spinel nickel aluminate structure of the prepared materials and to investigate the presence of the functional groups on the catalysts' surfaces (see Figure 2b).…”
Section: Structural and Morphological Studymentioning
confidence: 99%
“…Furthermore, the bands which occurred at 1639 cm −1 arose from the H-O-H deformation vibrations of water molecules. Since the calcination of the catalysts underwent at 800 °C, and thus water should have been eliminated, we attributed the presence of the adsorbed water molecules to the absorption from the atmosphere during the IR pellets formation [44,45]. Importantly, all samples revealed the bands in the 400-1000 The FTIR spectroscopy analysis allowed us to prove the spinel nickel aluminate structure of the prepared materials and to investigate the presence of the functional groups on the catalysts' surfaces (see Figure 2b).…”
Section: Structural and Morphological Studymentioning
confidence: 99%
“…Thus, those composite membranes have advantageous properties in the process for practical uses with lower volume and easily move the compact forms in the preferred positions. 16,18,19 In addition, porous composite materials have high adsorption capacity and potential for recovery property. In the case of gaseous separation, there were studies on membrane formed adsorbers.…”
Section: Introductionmentioning
confidence: 99%
“…As mentioned above, mostly the adsorbents had forms of porous powder; but relative to such powder adsorbents, some disadvantages are in handing off and settle in the operation process. Thus, those composite membranes have advantageous properties in the process for practical uses with lower volume and easily move the compact forms in the preferred positions. ,, In addition, porous composite materials have high adsorption capacity and potential for recovery property. In the case of gaseous separation, there were studies on membrane formed adsorbers. ,, For instance, Norwahyu et al fabricated composite membranes containing different loadings of zeolite T into a 6FDA–durene polymer and used them for CO 2 /CH 4 separation .…”
Section: Introductionmentioning
confidence: 99%