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91.
Yue Ma Xiao‐Hui Chen Lee J. Hosking Hai‐Sui Yu Hywel R. Thomas Simon Norris 《国际地质力学数值与分析法杂志》2021,45(1):64-82
Coupled thermo‐hydro‐mechanical‐chemical modelling has attracted attention in past decades due to many contemporary geotechnical engineering applications (e.g., waste disposal, carbon capture and storage). However, molecular‐scale interactions within geomaterials (e.g., swelling and dissolution/precipitation) have a significant influence on the mechanical behaviour, yet are rarely incorporated into existing Thermal‐Hydro‐Mechanical‐Chemical (THMC) frameworks. This paper presents a new coupled hydro‐mechanical‐chemical constitutive model to bridge molecular‐scale interactions with macro‐physical deformation by combining the swelling and dissolution/precipitation through an extension of the new mixture‐coupling theory. Entropy analysis of the geomaterial system provides dissipation energy, and Helmholtz free energy gives the relationship between solids and fluids. Numerical simulation is used to compare with the selected recognized models, which demonstrates that the swelling and dissolution/precipitation processes may have a significant influence on the mechanical deformation of the geomaterials. 相似文献
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本文针对大地网三类设计的质量标准问题,提出了一种新方法:应变分析法。它可以根据区域性的尺度、旋转、变形三个应变参数的变化,来发现网的局部区域性系统差或粗差;并能较明晰地反映出新增观测值对原网的局部改进或细节改进。 相似文献
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新疆北部石炭系洋陆转换过渡期,经历了以下两个演化阶段:早石炭世碰撞间歇期伸展-残留洋闭合、陆-陆碰撞阶段和晚石炭世碰撞期后伸展垮塌-板内变形作用阶段。根据石炭世的板块构造活动背景分析,结合区域构造-沉积岩石组合,初步拟定新疆北部早石炭世原型盆地类型主要包括5类:残留洋、陆缘坳陷、裂陷槽、裂谷、陆内坳陷;晚石炭世原型盆地可简要分为3类:裂陷槽、陆缘坳陷、裂谷或断陷。根据上石炭统原型盆地后期叠加改造特征,将新疆北部现今保存在覆盖区内的上石炭统残留盆地及其叠加改造类型分为两大类六亚类:首先根据是否存在二叠系分为继承型和叠加型两大类,然后再根据中生代及新生代盆地叠加特征分为五亚类,分别为连续继承型、早继承早叠加型、早继承晚叠加型、三叠系叠加型、侏罗系叠加型及白垩系叠加型。 相似文献
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讨论状态转移矩阵为随机性矩阵时的Kalman滤波方法,并给出滤波的具体算法及分析滤波的收敛特性和参数的取值范围。通过实际算例证实了该滤波方法的有效性。 相似文献
97.
珠江三角洲滨海小流域离子化学特征及来源分析 总被引:1,自引:0,他引:1
在分析中山大学滨海小流域水循环综合试验基地内雨水、河水和地下水离子组分的基础上,讨论了该小流域内水体离子化学组分的特征及来源。结果显示:①河水中TDS变化范围为28.97~44.64 mg/l,平均值为33.90 mg/l;在离子化学组成中,阳离子以Na++K+为主,阴离子以Cl-和HCO3-为主;雨水中TDS的变化范围为0.88~26.07 mg/l,平均值为8.42 mg/l,离子含量变化幅度较大;地下水TDS变化范围为39.49~113.16 mg/l,均值为58.11 mg/l,约为流域河水的2倍,雨水的7倍;②海盐沉降中Ca2+、Mg2+、Na+、K+、SO42-的贡献率:雨季分别为6%、60%、47%、2%和15%,旱季分别为3%、41%、54%、2%、9%;③硅酸盐风化中,雨季:(Ca/Na)sil=0.31,(Mg/K)sil=0.21;旱季:(Ca/Na)sil=0.36,(Mg/K)sil=0.27;CO2消耗率为12.4 t/(km2.a);④河水中的NO3-和(SO42-)res主要来源于大气酸沉降,且具有旱季含量低、雨季含量高的特点;⑤R1潜水井受到一定程度的NO3-污染,NO3-的... 相似文献
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Ocean Dynamics - Global warming is changing the global wave climate, making waves stronger. In this study, we find that the wave climate in the South China Sea (SCS) undergoes an intensifying trend... 相似文献
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Based on daily precipitation data from 524 meteorological stations in China during the period 1960–2009, the climatology and the temporal changes (trends, interannual, and decadal variations) in the proportion of seasonal precipitation to the total annual precipitation were analyzed on both national and regional scales. Results indicated that (1) for the whole country, the climatology in the seasonal distribution of precipitation showed that the proportion accounted for 55 % in summer (June–August), for around 20 % in both spring (March–May) and autumn (September–November), and around 5 % in winter (December–February). But the spatial features were region-dependent. The primary precipitation regime, “summer–autumn–spring–winter”, was located in central and eastern regions which were north of the Huaihe River, in eastern Tibet, and in western Southwest China. The secondary regime, “summer–spring–autumn–winter”, appeared in the regions south of the Huaihe River, except Jiangnan where spring precipitation dominated, and the southeastern Hainan Island where autumn precipitation prevailed. (2) For the temporal changes on the national scale, first, where the trends were concerned, the proportion of winter precipitation showed a significantly increasing trend, while that of the other three seasons did not show any significant trends. Second, for the interannual variation, the variability in summer was the largest among the four seasons and that in winter was the smallest. Then, on the decadal scale, China experienced a sharp decrease only in the proportion of summer precipitation in 2000. (3) For the temporal changes on the regional scale, all the concerned 11 geographic regions of China underwent increasing trends in the proportion of winter precipitation. For spring, it decreased over the regions south of the Yellow River but increased elsewhere. The trend in the proportion of summer precipitation was generally opposite to that of spring. For autumn, it decreased over the other ten regions except Inner Mongolia with no trend. It is noted that the interannual variability of precipitation seasonality is large over North China, Huanghuai, and Jianghuai; its decadal variability is large over the other regions, especially over those regions south of the Yangtze River. 相似文献