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1.
基于综合变异系数的地基承载力可靠性分析 总被引:2,自引:0,他引:2
采用一次二阶矩法,考虑岩土参量变异系数的试验及历史数据,提出了基于综合变异系数的地基承载力简化可靠性与风险分析方法。利用提出的简化可靠性与风险分析方法,可在传统确定性分析的基础上,采用合理的变异系数,分别得到与地基承载力有关的可靠度、破坏概率和平均期望损失的最可能值及其变化范围,为提出优化的地基基础设计方案和工程决策奠定基础;相对于土重度和黏聚力,地基承载力可靠度对于内摩擦角的变化更加敏感;设计时可以综合考虑所需的安全系数、可靠度和破坏概率,确定合适的基础宽度或基底面积。当地基土的场地勘察统计结果的变异系数权重逐渐增加时,综合变异系数不断减小,其相应的地基承载力的可靠度逐渐增加,而相应的破坏概率逐渐减少。 相似文献
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??2012??1???????????????????г??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????к?????????????????????????????????--?????????????????????????????? 相似文献
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以福建省南平市王台镇溪后村安曹下19年生和91年生杉木人工林为研究对象,对其1~5级细根的形态及呼吸特征进行了比较研究。结果表明:2个林分细根直径、根长、组织密度随序级升高逐渐增大,比根长及比根呼吸随序级升高则减小;2个林分细根仅在4级根之间和5级根之间的直径以及5级根之间的比根呼吸具有显著差异(P0.05)。方差分析表明林龄仅对细根直径有极显著影响(P0.01),对根长、比根长、组织密度及比根呼吸的影响均不显著;林龄和序级的交互作用对细根直径,比根长及比根呼吸有显著影响(P0.05,P0.01),对根长和组织密度的影响不显著;序级对两个林分细根直径、根长、比根长、组织密度及比根呼吸的影响均达到极显著水平(P0.01)。回归分析表明2个林分细根直径、根长、比根长、组织密度及比根呼吸与序级之间具有三次函数,指数函数,或者幂函数关系。 相似文献
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碳市场和电力市场将共同发挥市场对资源优化配置的决定性作用,对共同市场主体发电企业带来经营和发展挑战。在考虑碳成本的基础上,采用发电机组经济性影响模型,定量分析了碳市场不同发展阶段对发电机组发电成本的影响,定量评价不同能源结构投资收益经济性,以及对集中竞价市场出清顺序的影响。结果表明,随着有偿配额比例和碳价增加,碳成本占发电成本比例逐步攀升,燃煤机组碳成本占发电成本比例最高将达29%,燃气机组此比例达6%;在设定碳市场高比例配额有偿分配和高碳价情况下,煤电和气电单位发电收益逐步降低甚至出现亏损,远低于可再生能源,推动投资逐步向清洁高效火电机组和可再生能源倾斜;碳成本将成为竞价市场需考虑的重要因素,并影响发电机组出清顺序,进一步巩固高效率、低排放机组在集中竞价市场中的竞争力。 相似文献
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Hydrogeomorphic models allow parsimonious, fast and effective floodplain extent mapping using topographic data as the main input. Hydrogeomorphic approaches enforce the principle that floodplains are well-distinguished and unique landscape features within river corridors. We investigated the sensitivity of a hydrogeomorphic floodplain delineation algorithm, based on a hydrological power law, relating flow depth to contributing area, digital terrain model (DTM) resolution and river network hierarchy. In addition, we compared the results to other common floodplain mapping methods using standard flood-hazard maps as a reference. Taking the Arno River Basin, Italy, as a case study, our results show a dependency between the optimal power law parameters and DTM resolution, with larger parameter values required to reach optimal consistency with flood-hazard maps as DTM resolution increased. Floodplain mapping performance was also found to depend on stream order. We further tested the model consistency at a larger scale to evaluate its performance with respect to inundation maps in Hungary, Italy, Spain and the UK. Our study suggests that pre-defined power law parameters can be assumed, considering DTM resolution and stream order, supporting the use of the presented hydrogeomorphic model for large-scale floodplain mapping in ungauged basins where reference flood-hazard maps are not available. 相似文献
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Dynamic,discontinuous stream networks: hydrologically driven variations in active drainage density,flowing channels and stream order 下载免费PDF全文
Despite decades of research on the ecological consequences of stream network expansion, contraction and fragmentation, surprisingly little is known about the hydrological mechanisms that shape these processes. Here, we present field surveys of the active drainage networks of four California headwater streams (4–27 km2) spanning diverse topographic, geologic and climatic settings. We show that these stream networks dynamically expand, contract, disconnect and reconnect across all the sites we studied. Stream networks at all four sites contract and disconnect during seasonal flow recessions, with their total active network length, and thus their active drainage densities, decreasing by factors of two to three across the range of flows captured in our field surveys. The total flowing lengths of the active stream networks are approximate power‐law functions of unit discharge, with scaling exponents averaging 0.27 ± 0.04 (range: 0.18–0.40). The number of points where surface flow originates obey similar power‐law relationships, as do the lengths and origination points of flowing networks that are continuously connected to the outlet, with scaling exponents averaging 0.36–0.48. Even stream order shifts seasonally by up to two Strahler orders in our study catchments. Broadly, similar stream length scaling has been observed in catchments spanning widely varying geologic, topographic and climatic settings and spanning more than two orders of magnitude in size, suggesting that network extension/contraction is a general phenomenon that may have a general explanation. Points of emergence or disappearance of surface flow represent the balance between subsurface transmissivity in the hyporheic zone and the delivery of water from upstream. Thus the dynamics of stream network expansion and contraction, and connection and disconnection, may offer important clues to the spatial structure of the hyporheic zone, and to patterns and processes of runoff generation. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献