The advantages of using a geochemical transport model including thermodynamic equilibrium, kinetic control and surface complexation to simulate the durability of concretes exposed to chlorides and sulphates

Soive Anthony; Van-Quan Tran; Gasc-Barbier Muriel

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The advantages of using a geochemical transport model including thermodynamic equilibrium, kinetic control and surface complexation to simulate the durability of concretes exposed to chlorides and sulphates

机译：使用地球化学传输模型的优点包括热力学平衡，动力控制和表面络合，模拟暴露于氯化物和硫酸盐的混凝土的耐久性

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In this study, a physically and chemically based model including thermodynamic equilibrium, kinetic control and surface complexation is used. Different cases are proposed and simulated with the same set of parameters. The results are compared with experimental data. They show very good agreement between experimental and numerical results. They also show that the parameters are not very sensible to cement composition, concrete mix-design or environmental exposition. Hence, this numerical model seems to be used as a reliable tool to predict the chloride binding capability and external sulphate attack. It is also convenient because of its limited number of parameters.

机译：在该研究中，使用包括热力学平衡，动力控制和表面络合的物理和化学基础的模型。用相同的参数组提出和模拟不同的案例。将结果与实验数据进行比较。它们在实验和数值结果之间表现出非常好的同意。他们还表明参数对水泥组成，混凝土混合设计或环境博览会不太明智。因此，这种数值模型似乎用作可靠的工具来预测氯化物结合能力和外部硫酸盐攻击。它也是方便的，因为它有限数量的参数。

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来源
《European Journal of Environmental and Civil Engineering》 |2019年第6期|共12页
作者
Soive Anthony; Van-Quan Tran; Gasc-Barbier Muriel;
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作者单位

Cerema UMR 7329 GEOAZUR Pole Act Aix En Provence 3 France;

Inst Hydraul Construct Hanoi Vietnam;

Cerema UMR 7329 GEOAZUR Pole Act Aix En Provence 3 France;

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原文格式 PDF
正文语种 eng
中图分类社会与环境;
关键词
Thermodynamic computations; kinetics; concrete; chloride; sulphate; surface complexation;

机译：热力学计算;动力学;混凝土;氯化物;硫酸盐;表面络合;

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1. The advantages of using a geochemical transport model including thermodynamic equilibrium, kinetic control and surface complexation to simulate the durability of concretes exposed to chlorides and sulphates [J] . Soive Anthony, Van-Quan Tran, Gasc-Barbier Muriel European Journal of Environmental and Civil Engineering . 2019,第5a6期

机译：使用地球化学传输模型的优点包括热力学平衡，动力控制和表面络合，模拟暴露于氯化物和硫酸盐的混凝土的耐久性
2. Modelisation of chloride reactive transport in concrete including thermodynamic equilibrium, kinetic control and surface complexation [J] . Van Quan Tran, Soive Anthony, Baroghel-Bouny Veronique Cement and Concrete Research . 2018,第期

机译：混凝土中氯反应性运输的型号，包括热力学平衡，动力控制和表面络合
3. A numerical model including thermodynamic equilibrium, kinetic control and surface complexation in order to explain cation type effect on chloride binding capability of concrete [J] . Van Quan Tran, Soive Anthony, Bonnet Stephanie, Construction and Building Materials . 2018,第DECa10期

机译：包含热力学平衡，动力学控制和表面络合的数值模型，以解释阳离子类型对混凝土氯离子结合能力的影响
4. A numerical model including thermodynamic equilibrium, kinetic control and surface complexation in order to explain cation type effect on chloride binding capability of concrete [O] . Van Quan Tran, Anthony Soive, Stéphanie Bonnet, 2018

机译：包括热力学平衡，动力控制和表面络合的数值模型，以解释混凝土氯化物结合能力的阳离子型效应
5. BLT-EC (Breach, Leach and Transport-Equilibrium Chemistry) Data Input Guide. A Computer Model for Simulating Release and Coupled Geochemical Transport of Contaminants from a Subsurface Disposal Facility [R] . MacKinnon, R. J., Sullivan, T. M., Kinsey, R. R. 1997

机译：BLT-EC（违反，浸出和运输 - 平衡化学）数据输入指南。模拟地下处置设施污染物释放和耦合地球化学输运的计算机模型

The advantages of using a geochemical transport model including thermodynamic equilibrium, kinetic control and surface complexation to simulate the durability of concretes exposed to chlorides and sulphates

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