两种土压力水平下防渗帷幕的防污能力
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TV223.4+3

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武汉市青年科技晨光计划(201271031418);湖北省自然科学基金(2014CFB606)


Pollution prevention capacity of cutoff wall under two earth pressures
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    摘要:

    为探究防渗帷幕材料在不同荷载作用下导致的渗透性和厚度变化对其防污能力的影响,在对土-膨润土防渗帷幕工程性质分析的基础上,进行了污染物运移计算,分析了不同压力和边界条件下帷幕的击穿时间。结果表明:土-膨润土帷幕材料多属于中压缩性土,帷幕材料在底端压力下渗透系数与初始渗透系数的差异可达1个数量级;常用的相对浓度为10%和稳定通量为5%两种击穿标准所得击穿时间存在较大差异,两者的比值为1.42~2.21;以帷幕底端参数计算的帷幕下游处相对浓度和通量均小于以初始参数计算的结果,前者击穿时间大于后者,以最大压力对应参数所得的设计结果偏于危险。

    Abstract:

    To investigate the effects of permeability and thickness of materials under different loads on the pollution prevention capacity of a cutoff wall, contaminant transport was calculated based on analysis of the engineering properties of the soil-bentonite cutoff wall, and the breakthrough time of the cutoff wall was analyzed under different pressures and boundary conditions. Results indicate that soil-bentonite has a moderate level of compressibility, and the difference between the hydraulic conductivities at the top and bottom of the cutoff wall may reach one order of magnitude. There is a large difference in the breakthrough time calculated with two standards, i. e. , the relative pollutant concentration reaching 10% and the stable pollutant flux reaching 5%, with the ratio of calculated breakthrough time ranging from 1.42 to 2.21. The pollutant flux and relative concentration downstream of the cutoff wall calculated with parameters of the bottom of the cutoff wall are less than those calculated with the initial parameters, and the corresponding breakthrough time of the former is longer than that of the latter. According to the results obtained with the parameters under the maximum pressure, the designed cutoff wall will be dangerous.

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何俊,胡晓瑾,阮晓晨,等.两种土压力水平下防渗帷幕的防污能力[J].水利水电科技进展,2017,37(2):63-67.(HE Jun, HU Xiaojin, RUAN Xiaochen, et al. Pollution prevention capacity of cutoff wall under two earth pressures[J]. Advances in Science and Technology of Water Resources,2017,37(2):63-67.(in Chinese))

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  • 收稿日期:2016-03-22
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  • 在线发布日期: 2017-03-03
  • 出版日期: 2017-03-10