High-temperature Thermal Decomposition of Cs-adsorbed CHA-Cs and CHA-PCFC-Cs Zeolite System, and Sr-adsorbed 4A-Sr and BaA-Sr Zeolite System

Eil-Hee Lee, Jimin Kim, Hyung‐Ju Kim, I. Kim, D. Chung, Kwang-Wook Kim, Keunyoung Lee, B. Seo
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Abstract

For the immobilization of high-radioactive nuclides such as Cs and Sr by high-temperature thermal decomposition, this study was carried out to investigate the phase transformation with calcined temperature by using TGA (thermogravimetric analysis) and XRD (X-ray diffraction) in the Cs-adsorbed CHA (chabazite zeolite of K type)-Cs and CHA-PCFC (potassium cobalt ferrocyanide)-Cs zeolite system, and Sr-adsorbed 4A-Sr and BaA-Sr zeolite system, respectively. In the case of CHA-Cs zeolite system, the structure of CHA-Cs remained at up to 900°C and recrystallized to pollucite (CsAlSi2O6) at 1,100°C after undergoing amorphous phase at 1,000°C. However, the CHA-CFC-Cs zeolite system retained the CHA-PCFC-Cs structure up to 700°C, but its structure collapsed in 900~1,000°C, and then transformed to amorphous phase, and recrystallized to pollucite at 1,100°C. In the case of 4A-Sr zeolite system, on the other hand, the structure of 4A-Sr maintained up to 700°C and its phase transformed to amorphous at 800°C, and recrystallized to Sr-feldspar (SrAl2Si2O8, hexagonal) at 900°C and to SrAl2Si2O8 (triclinic) at 1,100°C. However, the BaA-Sr zeolite system structure began to break down at below 500°C, and then transformed to amorphous phase in 500~900°C and recrystallized to Ba/Sr-feldspar (coexistence of Ba0.9Sr0.1Al2Si2O8 and Ba0.5Sr0.5Al2Si2O8) at 1,100°C. All of the above zeolite systems recrystallized to mineral phase through the dehydration/(decomposition)→ amorphous → recrystallization with increasing temperature. Although further study of the volatility and leachability of Cs and Sr in the high-temperature thermal decomposition process is required, Cs and Sr adsorbed in each zeolite system are mineralized as pollucite, Sr-feldspar and Ba/Sr-feldspar. Therefore, Cs and Sr seen to be able to completely immobilize in the calcining wasteform/(solidified wasteform).
cs吸附的CHA-Cs和CHA-PCFC-Cs沸石体系以及sr吸附的4A-Sr和BaA-Sr沸石体系的高温热分解
为了利用高温热分解固定高放射性核素Cs和Sr,本研究分别利用热重分析(TGA)和x射线衍射(XRD)研究了Cs吸附CHA (K型辉石沸石)-Cs和CHA- pcfc(钴亚铁氰化钾)-Cs沸石体系和Sr吸附4A-Sr和BaA-Sr沸石体系在煅烧温度下的相变。在CHA-Cs沸石体系中,在高达900℃时,CHA-Cs的结构保持不变,在1000℃时经过非晶相,在1100℃时再结晶为污染石(CsAlSi2O6)。而CHA-CFC-Cs分子筛体系在700℃时仍保持CHA-PCFC-Cs的结构,但在900~ 1000℃时结构崩溃,然后转变为非晶相,在1100℃时再结晶为污染石。而4A-Sr沸石体系在700℃时结构保持不变,800℃时相变为无定形,900℃时再结晶为sr长石(SrAl2Si2O8,六角形),1100℃时再结晶为SrAl2Si2O8(三斜形)。而BaA-Sr沸石体系结构在500℃以下开始分解,500~900℃转变为非晶相,1100℃重结晶为Ba/ sr -长石(Ba0.9Sr0.1Al2Si2O8和Ba0.5Sr0.5Al2Si2O8共存)。随着温度的升高,上述沸石体系均经过脱水/(分解)→无定形→再结晶的过程再结晶为矿物相。虽然需要进一步研究Cs和Sr在高温热分解过程中的挥发性和浸出性,但在每个沸石体系中吸附的Cs和Sr都被矿化为污染石、Sr-长石和Ba/Sr-长石。因此,Cs和Sr似乎能够完全固定在煅烧废物/(固化废物)中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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