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Radon immobilization potential of alkali-activated materials containing ground granulated blast furnace slag and phosphogypsum

机译:含粒状高炉矿渣和磷石膏的碱活化材料的固定电位

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This study evaluates the immobilization potential of Rn-222 in alkali-activated materials (AAMs) based on ground granulated blast furnace slag (GGBFS). As radon source, 10 wt% phosphogypsum (PG) was added to evaluate PG reuse via AAMs. Matrix properties were modified by varying alkali activator's SiO2/Na2O and H2O/Na2O ratios. During hardening of AAMs, radon release occurs in three stages resulting, after 30 h, to 0.26 Bq/(kg(*)h). By varying the alkali-activator, massic exhalation for hardened samples decreased down to 0.01 Bq/(kg(*)h). Radon release was successfully reduced mainly by physical encapsulation, with best results being achieved by adjusting the alkali-activator to SiO2/Na2O = 0.75 and H2O/Na2O = 20. (C) 2018 Elsevier Ltd. All rights reserved.
机译:这项研究评估了Rn-222在磨碎的粒状高炉矿渣(GGBFS)基础上在碱活化材料(AAM)中的固定潜力。作为ra源,添加了10 wt%的磷石膏(PG),以评估通过AAM进行的PG再利用。通过改变碱活化剂的SiO2 / Na2O和H2O / Na2O比例来改变基体性能。在AAM硬化过程中,ra的释放分为三个阶段,在30小时后达到0.26 Bq /(kg(*)h)。通过改变碱活化剂,硬化样品的质量呼气降低至0.01 Bq /(kg(*)h)。 by的释放主要通过物理封装成功地减少了,通过将碱活化剂调整为SiO2 / Na2O = 0.75和H2O / Na2O = 20,可以获得最佳结果。(C)2018 Elsevier Ltd.保留所有权利。

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