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为研究深基坑开挖对邻近建筑物的影响特征并评价其安全性,以厦门市某车站深基坑工程为例,通过构建三维有限元模型,考虑土体小应变刚度行为以及基坑-地基-基础-上部结构共同作用,计算基坑开挖引起邻近建筑物的变形值,并将柱底支座变位作为上部结构的强迫位移施加到上部结构上,然后进行结构内力分析和构件配筋验算,评价邻近建筑物的安全。研究表明:邻近建筑物越靠近基坑部分受基坑开挖影响越大,基坑开挖后,邻近建筑物结构变形主要表现为沉降和指向基坑的水平位移,结构最大水平位移为6.6 mm,自顶部向下逐渐减小,即结构发生微量倾斜;邻近建筑物地下室以沉降变形为主,主要受影响区域约为基坑围护墙后3倍的基坑开挖深度范围,沉降急剧变化区域约为1.5倍基坑开挖深度范围,地下室最大沉降为15.9 mm;受到邻近基坑开挖影响,上部结构虽然因支座变位产生内力重分布,但经检算认为整个结构仍然安全可靠。 相似文献
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Chai Liwei Huang Muke Cao Xiaofeng Liu Mengjiao Huang Yi 《Environmental science and pollution research international》2019,26(20):20418-20427
Environmental Science and Pollution Research - Ectomycorrhizal fungi can enhance the tolerance of plants to heavy metal stress by reducing the accumulation of heavy metals in the aerial parts of... 相似文献
97.
Wan-Lan Chai Jing-Dong Chow Chien-Chung Chen Fu-Sheng Chuang Wei-Chuan Lu 《Journal of Polymers and the Environment》2009,17(2):71-82
Polyvinyl alcohol (PVA) and starch are both biodegradable polymers. These two polymers can be prepared as biodegradable plastics
that are emerging as one of the environmental friendly materials available now. In this study, after reacting with sodium
trimetaphosphate (STMP), modified corn starch was blended with PVA in different ratios by a barbender. Test samples were prepared
for mechanical and thermal properties measurements. The surface roughness and morphology of fractured surface of the samples
were observed by an atomic force microscopy (AFM) and scanning electron microscope (SEM) measurements. Aqueous degradation
by enzyme, water absorption and biodegradability behavior were evaluated for the degradability. The biodegradability of these
materials was followed by bio-reactivity kinetics models. Results showed that the addition of modified starch could enhance
its water uptake. With an addition of 20 wt% of modified starch, the blend had a maximum weight loss during enzymatic degradation.
It was found that the degradability was enhanced with the addition of the starch. Analyzing the results of the biodegradability
based on the kinetic models, the growth rate of the microorganism was found to be increasing with the increase of the content
of starch in the PVA/starch blends in the first order reaction fashion. In our biodegradability analysis, i.e., based on the
China national standards (CNS) 14432 regulations, we estimated the decomposition behavior based on the mentioned first order
reaction. We found that the PVA/starch blends would take 32.47, 16.20 and 12.47 years to degrade by 70% as their starch content
0, 20 and 40 wt%, respectively. 相似文献
98.
Chai X Jia J Sun T Wang Y Liao L 《Journal of environmental science and health. Part. B》2007,42(6):629-634
A novel and simple analytical procedure using cold activated carbon fiber-solid phase microextraction (CACF-SPME) was applied to determine organochlorine pesticides (OCs) in soil samples. The pesticides in this study consist of alpha -, beta -, gamma -, and delta -hexachlorocyclohexane (HCH). By heating the sample while cooling the fiber, the developed method not only provides better performance in terms of sensitivity, linearity and recovery but also offers shorter adsorption procedure than that of traditional headspace-solid phase microextraction (HS-SPME). The experimental conditions such as the amount of water, adsorption time and adsorption temperature were optimized. Matrix effects were investigated with different types of soils. We concluded that using the standard addition method was required for quantification purposes. The limits of detection obtained using the proposed method range from 0.01 to 0.05 ng/g, and the recoveries for CACF-SPME are in the range of 80.01% to 89.68% with relative standard deviation (RSDs) better than 8.60%. The proposed method was further applied to determine OCs in real agricultural soil. The results are in good agreement with those obtained using traditional ultrasonic extraction. The research demonstrates the suitability of the CACF-SPME for the analysis of OCs in soil. 相似文献
99.
While phenomenological investigations of ecosystem patterns often fail to reveal underlying dynamic mechanisms, we highlight
a universal principle for pattern formation in ecosystems. We consider ecosystems to be typical complex adaptive systems that
seek an optimal process to obtain maximized flux under given constraints. An analysis of the optimal process reveals underlying
microscopic dynamic mechanisms that induce complex patterns in ecosystems. We emulate ecosystem patterns using a Self-Organization
Feature Map: an artificial neural network theoretical model by which evolution processes, structural classifications, and
the fractal growth of ecosystem patterns can be simulated. The results help us analyze the formation and dynamics of ecosystem
patterns, with attending implications for the classification, protection, and optimization of ecosystems. 相似文献
100.
Control strategies of atmospheric mercury emissions from coal-fired power plants in China 总被引:1,自引:0,他引:1
Tian H Wang Y Cheng K Qu Y Hao J Xue Z Chai F 《Journal of the Air & Waste Management Association (1995)》2012,62(5):576-586
Atmospheric mercury (Hg) emission from coal is one of the primary sources of anthropogenic discharge and pollution. China is one of the few countries in the world whose coal consumption constitutes about 70% of total primary energy, and over half of coals are burned directly for electricity generation. Atmospheric emissions of Hg and its speciation from coal-fired power plants are of great concern owing to their negative impacts on regional human health and ecosystem risks, as well as long-distance transport. In this paper, recent trends of atmospheric Hg emissions and its species split from coal-fired power plants in China during the period of 2000-2007 are evaluated, by integrating each plant's coal consumption and emission factors, which are classified by different subcategories of boilers, particulate matter (PM) and sulfur dioxide (SO2) control devices. Our results show that the total Hg emissions from coal-fired power plants have begun to decrease from the peak value of 139.19 t in 2005 to 134.55 t in 2007, though coal consumption growing steadily from 1213.8 to 1532.4 Mt, which can be mainly attributed to the co-benefit Hg reduction by electrostatic precipitators/fabric filters (ESPs/FFs) and wet flue gas desulfurization (WFGD), especially the sharp growth in installation of WFGD both in the new and existing power plants since 2005. In the coming 12th five-year-plan, more and more plants will be mandated to install De-NO(x) (nitrogen oxides) systems (mainly selective catalytic reduction [SCR] and selective noncatalytic reduction [SNCR]) for minimizing NO(x) emission, thus the specific Hg emission rate per ton of coal will decline further owing to the much higher co-benefit removal efficiency by the combination of SCR + ESPs/FFs + WFGD systems. Consequently, SCR + ESPs/FFs + WFGD configuration will be the main path to abate Hg discharge from coal-fired power plants in China in the near future. However advanced specific Hg removal technologies are necessary for further reduction of elemental Hg discharge in the long-term. 相似文献