- Bridging the Terahertz Gap
- Modeling the Lithium-Ion Battery
- Protection contre la Corrosion
- Modélisation des batteries
- Modélisation et Simulation dans le développement des piles à combustible
- Modélisation thermique des petits satellites
- Analyse électro-vibroacoustique d'un transducteur à armature équilibrée
Consultez les proceedings de la Conference COMSOL 2024
Bentonite based materials (BBM) are considered as ideal buffer materials for deep geological repository (DGR) for nuclear wastes because of several desirable properties, such as low permeability, high adsorption capacity and proper swelling ability (Guo and Fall 2018). However, gas ... En savoir plus
Subduction, the process through which the cold and dense oceanic lithosphere sinks into the highly viscous mantle, is the main driving force of plate tectonics and is important for recycling the Earth's materials. Active subduction has not been observed in any other planet in our solar ... En savoir plus
Deep geological repositories (DGRs) are currently being proposed in several countries to deal with the nuclear waste. The safe long-term disposal of the waste is guaranteed by a multi-barrier system, which includes a natural barrier (host rocks) and an engineered barrier system. Large ... En savoir plus
Geological Carbon Storage (GCS) is viewed as a viable option to reduce Carbon Dioxide (CO2) emissions. In particular, CO2 injection into deep saline formations (DSF) has been the subject of numerous investigations during the last decade, including pilot and demonstration projects [Reiner ... En savoir plus
Modeling of fractured porous media systems is currently of high interest in various academic and applied fields, mainly in the geological and material sciences. The very different scales of the region of an application case on the larger end and the fracture on the lower end pose a ... En savoir plus
了解山地峡谷的风场特性是进行山区建筑规划、桥梁和风力涡轮机的选址等的重要前提。然而目前国内外的研究主要集中在理想化简单山体模型对应的风场特性,实际复杂山体的风场特性研究还较为缺乏。本研究利用Comsol Multiphysics 5.2软件导入高程数据并参数化曲面生成实际峡谷模型,再利用湍流k-ε接口模拟三种不同类型的实际峡谷(平行型,前窄后宽型,前宽后窄型)对应的稳态的风速场,分析并对比其风场特性。模拟结果表明,在进口风速一致的情况下,峡谷越窄的地方风的加速效应越明显,前窄后宽型峡谷内的风场较前宽后窄型峡谷内的风场更加安全。 En savoir plus
瓦斯与煤自燃复合共生灾害是多尺度、多时度和多物理过程耦合作用的结果,本文开展了井下煤层和采空区松散体等裂隙场中瓦斯与煤自燃共生环境下多场耦合致灾理论的研究,建立了瓦斯与煤自燃复合致灾的判定准则和瓦斯抽采安全度模型,理论揭示了易自燃煤岩体裂隙场瓦斯抽采过程中,CH4浓度场、O2 浓度场和温度场多场交汇致灾过程和控制机理。进一步,基于comsol with matlab软件,集成了瓦斯与煤自燃耦合作用的多模块模型,开发了煤矿煤层、采空区跨尺度裂隙场瓦斯与煤自燃复合共生多场耦合模拟软件,成功应用于煤层和采空区瓦斯抽采案例,获得了瓦斯抽采中煤层和采空区区域安全度的动态演化 ... En savoir plus
Differential Acoustic Resonance Spectroscopy (DARS) was developed to examine changes in the resonant frequencies of a cavity perturbed by the introduction of a centimetre-sized sample. This laboratory-based measurement technique fills an experimental gap between the low-frequency stress ... En savoir plus
Opalinus clay is currently being proposed as a potential host rock for radioactive waste repository in deep geological formation. It is then important for performance assessments to understand the transport properties of such rocks. Clay materials are characterized by low hydraulic ... En savoir plus
本文提出了一种复合材料纤维排列的随机结构建模方法。该方法使得对纤维束中纤维单丝层面的随机排列结构对渗透性和流动特性的影响等研究成为可能。本文考虑了四个参数,包括三个微观结构参数:纤维束中域的边长L、纤维单丝半径值波动范围△R、纤维单丝间最小间距δmin和一个宏观参数:孔隙率ε。对纤维随机排列的多孔介质横向饱和流动进行了有限元分析,并采用Morris全局灵敏度分析(GSA)方法,研究了四个参数对渗透率的影响。结果表明宏观参数气孔率ε对纤维增强材料的渗透性能影响最大。 En savoir plus