Multiphase flow and reactive transport benchmark for radioactive waste disposal

IF 2.8 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Environmental Earth Sciences Pub Date : 2024-11-05 DOI:10.1007/s12665-024-11887-6

Javier Samper, Alba Mon, Etienne Ahusborde, Han Yu, Asta Narkuniene, Milan Hokr, Luis Montenegro, Brahim Amaziane, Mustapha El Ossmani, Tianfu Xu, Yilong Yuan, Jan Šembera, Gintautas Poskas

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Abstract

Compacted bentonite is part of the multi-barrier system of radioactive waste repositories. The assessment of the long-term performance of the barrier requires using reactive transport models. Here we present a multiphase flow and reactive transport benchmark for radioactive waste disposal. The numerical model deals with a 1D column of unsaturated bentonite through which water, dry air and \({\hbox {CO}_{2{(g)}}}\) may flow and with the following reactions; aqueous complexation, calcite and gypsum dissolution/precipitation, cation exchange and gas dissolution. INVERSE-FADES-CORE V2, \(\hbox {DuMu}^X\), TOUGHREACT and iCP were benchmarked with 6 test cases of increasing complexity, starting with conservative tracer transport under variably unsaturated conditions and ending with water flow, gas diffusion, minerals and cation exchange. The solutions of all codes exhibit similar trends. Small discrepancies are found in conservative tracer transport due to differences in hydrodynamic dispersion. Computed \({\hbox {CO}_{2{(g)}}}\) pressures agree when a sufficiently refined grid is used. Small discrepancies in \({\hbox {CO}_{2{(g)}}}\) and pH are found near the no-flow boundary at early times which vanish later. Discrepancies are due differences in the formulations used for gas flow at nearly water-saturated conditions. Computed \({\hbox {CO}_{2{(g)}}}\) pressures show a fluctuation between \(10^{-4}\) and \(10^{-3}\) years which slows down the in-diffusion of \({\hbox {CO}_{2{(g)}}}\). This fluctuation is associated with chemical reactions involving \({\hbox {CO}_{2}}\). There are discrepancies in solute concentrations due to differences in the Debye–Hückel (DH) formulation. They are overcome when all codes use the same DH formulation. The results of this benchmark will contribute to increase the confidence on multiphase reactive transport models for radioactive waste disposal.

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放射性废物处置的多相流和反应性传输基准

压实膨润土是放射性废物贮存库多屏障系统的一部分。评估屏障的长期性能需要使用反应迁移模型。在此，我们提出了放射性废物处置的多相流和反应迁移基准。该数值模型处理的是不饱和膨润土的一维柱体，水、干燥空气和（{\hbox {CO}_{2{(g)}}}\ ）可能流经该柱体，并发生以下反应：水络合、方解石和石膏溶解/沉淀、阳离子交换和气体溶解。对 INVERSE-FADES-CORE V2、\(\hbox {DuMu}^X\) 、TOUGHREACT 和 iCP 进行了基准测试，6 个测试案例的复杂性不断增加，从不同非饱和条件下的保守示踪剂传输开始，到水流、气体扩散、矿物和阳离子交换。所有代码的解法都表现出相似的趋势。由于水动力分散的不同，在保守示踪剂输运中发现了微小的差异。当使用足够精细的网格时，计算出的（{\hbox {CO}_{2{(g)}}}\ ）压力是一致的。在无流边界附近的早期，\({\hbox {CO}_{2{(g)}}}\) 和 pH 值存在微小的差异，但随后就消失了。差异是由于在近乎水饱和条件下气体流动的计算公式不同造成的。计算出的\({\hbox {CO}_{2{(g)}}} 压力显示出在\(10^{-4}\)和\(10^{-3}}\)年之间的波动，这减缓了\({\hbox {CO}_{2{(g)}}} 的内扩散。）这种波动与涉及到 \({\hbox {CO}_{2}}\) 的化学反应有关。由于 Debye-Hückel (DH) 公式的不同，溶质浓度存在差异。当所有代码使用相同的 DH 公式时，这些差异就会被克服。该基准的结果将有助于提高人们对放射性废物处置的多相反应输运模型的信心。

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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来源期刊

Environmental Earth Sciences 环境科学-地球科学综合

CiteScore

5.10

自引率

3.60%

发文量

494

审稿时长

8.3 months

期刊介绍： Environmental Earth Sciences is an international multidisciplinary journal concerned with all aspects of interaction between humans, natural resources, ecosystems, special climates or unique geographic zones, and the earth: Water and soil contamination caused by waste management and disposal practices Environmental problems associated with transportation by land, air, or water Geological processes that may impact biosystems or humans Man-made or naturally occurring geological or hydrological hazards Environmental problems associated with the recovery of materials from the earth Environmental problems caused by extraction of minerals, coal, and ores, as well as oil and gas, water and alternative energy sources Environmental impacts of exploration and recultivation – Environmental impacts of hazardous materials Management of environmental data and information in data banks and information systems Dissemination of knowledge on techniques, methods, approaches and experiences to improve and remediate the environment In pursuit of these topics, the geoscientific disciplines are invited to contribute their knowledge and experience. Major disciplines include: hydrogeology, hydrochemistry, geochemistry, geophysics, engineering geology, remediation science, natural resources management, environmental climatology and biota, environmental geography, soil science and geomicrobiology.