Response spectra for nuclear structures on rock sites considering the near-fault directivity effect

Near-fault ground motions, potentially with large amplitude and typical velocity pulses, may significantly impact the performance of a wide range of structures. The current study is aimed at evaluating the safety implications of the near-fault effect on nuclear power plant facilities designed according to the Chinese code. To this end, a set of near- fault ground motions at rock sites with typical forward-directivity effect is examined with special emphasis on several key parameters and response spectra. Spectral comparison of the selected records with the Chinese and other code design spectra was conducted. The bi-normalized response spectra in terms of different comer periods are utilized to derive nuclear design spectra. It is concluded that nuclear design spectra on rock sites derived from typical rupture directivity records are significantly influenced both by the earthquake magnitude and the rupture distance. The nuclear design spectra specified in the code needs to be adjusted to reflect the near-fault directivity effect of large earthquakes.

The Attenuation Law of Horizontal Peak Acceleration on the Rock Site in Yunnan Area

In this paper,we select 131 accelerograms observed in the Yunnan area and cite 114 accelerograms from western America.By statistical regression analysis,we get two separate acceleration attenuation formulations based on the data of Yunnan and those of both Yunnan and western America.By analyzing and comparing the above results with the result deprived from intensity-earthquake ground motion,this paper proposes the formula below,which may show the acceleration attenuation feature of the Yunnan area:Ap=1291.07e0.5275Ms(R+15)-t.

黑龙江省小南山遗址受热历史的考古磁学证据

考古磁学技术为考古遗址的受热历史研究提供了重要的定性/定量分析方法.黑龙江省东北部的小南山是中国东北地区重要的史前遗址之一,该遗址记录的最早人类活动可以追溯到更新世末期.遗址揭露了距今约16 ka以来序列性的人类生活遗物及遗迹,包括大量的石制品和少量的陶片,以及与当时人类生活方式相关的疑似用火遗迹.本文对小南山遗址内疑似用火区及周边的散土样品进行了一系列岩石磁学测试,包括低频磁化率、逐步磁化率随温度变化曲线(χ-T)、磁滞回线、等温剩磁获得曲线、反向场退磁曲线和一阶反转曲线(FORC)等,旨在通过磁学指标为遗址受热温度、受热范围等信息提供定量化证据.实验结果显示,采样区域内两处疑似用火区(ZB、ZC)磁化率普遍偏高、逐步χ-T曲线在400~600℃之间表现出较好的热稳定性、饱和等温剩磁偏强、FORC信号偏强;而表层烧土被清理后的疑似用火区(ZA)和非疑似用火区磁化率普遍偏低、逐步χ-T曲线显示样品在加热过程中逐渐发生热变化、饱和等温剩磁和FORC信号偏弱.这些磁学特征意味着ZB、ZC两处疑似用火区曾受过加热烘烤,而从ZA采集到的样品和疑似用火区外的样品则可能没有受热.逐步χ-T曲线结果显示疑似用火区高磁化率样品在400~600℃之间表现出较好的热稳定性,而当温度达到700℃时则发生明显的热转化,指示样品历史最高受热温度应该在600~700℃之间.

基于随钻岩石热解参数的原油密度预测模型

原油性质的准确判断对试油方式的优选具有指导性作用,在流体相较为复杂的渤海油田,目前测井、录井均缺乏有效评价手段。为了合理有效地预测井场随钻储层的原油密度,根据岩样的岩石热解参数与油样实测原油密度的散点关系,基于最小二乘法的多元线性回归分析方法,通过建立岩样的岩石热解参数与原油密度的预测模型,实现了原油密度预测。应用该模型已完成渤海油田61口井616个数据点的原油密度预测工作,其中完成测试的共12口井139个数据点,预测密度误差在±0.01 g/cm^(3)之内的共129个点,符合率达到92.80%。采用多元线性回归方法建立的模型进行原油密度预测,具有广泛的应用前景。

地铁穿地裂缝段盾构扩挖施工临时支护方式研究

为研究采用盾构扩挖工法施工穿越地裂缝过程中,不同临时支护方式对围岩变形的影响,依托西安地铁15号线府君庙村站—祝村站区间工程,采用FLAC3D和Midas GTS NX软件对盾构扩挖穿越地裂缝过程中围岩变形与盾构隧道的受力进行分析,得出合理临时支护方式进行实际应用,并结合现场地表变形情况进行对比分析。研究结果表明:双竖向临时支撑对围岩变形以及隧道结构均起到良好的控制效果;首环管片破除与扩挖施工会改变隧道结构的整体性,从而导致围岩变形剧增,是盾构扩挖施工中危险环节,需要加以重视;通过现场监测,扩挖施工地表沉降均在规范允许范围内,扩挖施工影响范围主要在7环以内,施工中可结合扩挖影响范围进行超前加固。

某堆填土欠稳定高边坡抗剪强度参数取值研究

梧州市某楼盘在建筑安全影响范围内有一削坡形成的高度20~45 m的堆填土高边坡,存在较大滑塌安全隐患,需对该欠稳定高边坡综合整治处理。为取得符合实际的、经济合理的边坡设计抗剪强度参数,采用了综合法确定抗剪强度参数,即采用现场原位直剪试验、室内重塑土样试验、多元线性回归法等,综合分析确定欠稳定高边坡的抗剪强度参数。结果表明:采用综合法参数取值能优化边坡设计、缩短治理工期、节约治理费用,治理效果显著。

岩溶场地岩土体发育特征及地基评价分析

贵州属碳酸盐岩广泛分布地区,在进行岩溶场地勘察时需详细掌握场地的岩土体发育特征,了解其特性发育规律。解决岩溶场地勘察工作时场地数据的不足,造成勘察数据失真,造成设计资源浪费和基础设计缺陷的问题。通过查明岩溶场地岩土工程地质条件,分析岩土体发育特征,为设计、施工提供基础地质资料。以仁怀市南部新城大健康服务工程建设项目地岩土工程勘察项目为例,根据岩土体发育特征确定基础型式、基础埋深,对地基基础进行评价分析,最终选择合理的基础施工方案,为类似项目提供借鉴。

隧道穿越节理岩体引起的围岩变形特征研究

岩体的节理是一种常见的构造地质现象,也是影响岩体稳定性的重要因素之一,节理的存在使得围岩的变形特征、应力变化以及完整性更加复杂。为了明确隧道穿越节理岩体引起的围岩变形特征,采用Midas GTS NX软件,基于莫尔-库伦准则,建立了节理岩体中的隧道施工模型,通过改变节理倾角和节理间距,分析不同工况条件下围岩的应力变化与围岩变形规律。结果表明:随着节理间距的减小,隧道围岩的水平位移值和竖向位移值均呈现递增趋势。

考虑结构面蠕变特征的隧道围岩长期变形研究

在断层破碎带发育地区,岩石结构面蠕变变形影响着隧道运营安全。首先推导了岩石结构面西原蠕变模型有限差分格式;然后基于FLAC3D的Interface单元,采用自定义本构模型的接口,编写西原蠕变模型的动态链接库,实现了隧道围岩结构面蠕变变形数值模拟;接着开展了岩石单节理面蠕变变形验证模拟;最后结合宜昌成品油管道翻坝项目七里村1号隧道工程,利用新开发模型模拟了运营1、5、10、20 a后的隧道围岩长期变形行为。结果表明:(1)新开发模型预测的隧道围岩蠕变变形与解析解是一致的,最大误差小于2%;(2)隧道围岩蠕变变形数值计算结果与现场监测值之间的偏差较小,证明了蠕变模型的可靠性;(3)隧道开挖后,围岩变形较大,随着时间的推移逐渐减小,1 a后位移趋于稳定;(4)隧道运营1~10 a内无明显破坏,运营20 a后出现了集中于拱脚部位的破坏区,且拱脚处应力集中,因此应加强对拱脚的初期支护;(5)低强度和弱膨胀性特征的泥钙质砾岩使得隧道开挖变形较大,在上方断层长期蠕变作用下,隧道拱顶持续向下变形,造成隧道变形较大。

冲击地压矿井综采工作面区段小煤柱合理性研究

合理宽度区段煤柱的留设对综采工作面临空巷道动力显现、冲击地压防治具有重要作用。以纳林河二号矿井2种宽度区段煤柱综采工作面为研究背景,首先,采用理论计算分析确定综采工作面合理区段煤柱宽度;其次,采用FLAC3D数值模拟软件,分析2种宽度区段煤柱综采工作面回采期间煤柱、巷道应力场和塑性场分布特征,得到2种宽度区段煤柱条件下煤柱和巷道的力学特征;最后,收集现场微震、应力监测数据进行对比分析,验证动静载叠加条件下区段小煤柱留设合理性。研究区段小煤柱对鄂尔多斯地区综采工作面防冲具有积极意义。

近距离煤层非对称变形巷道支护设计

在煤层巷道掘进期间,由于近距离煤层开采使得在23306_下进顺初期掘进期间顶板破碎以及两帮的围岩变形严重。对于陕西省陕煤韩城矿业有限公司下峪口煤矿23306_下进顺,在掘进过程中产生的巷道围岩变形以及巷道支护困难等问题,结合现场的地质条件,采用理论分析、现场监测等方法,探究在掘进期间顶板破碎的原因以及通过优化支护方案来改善巷道的围岩情况。结果表明,改善后采用“锚网索+U型棚”支护的方法,可以有效地改善巷道围岩变形的情况,通过对巷道围岩变形量的进一步观测验证,在巷道顶板容易破碎时选择合理的支护参数,在技术和经济层面上选择采用“锚网索+架棚”支护方式能够保障矿井的安全高效开采。

炭质板岩软弱围岩隧道挤压变形规律及处理措施分析

炭质板岩软弱围岩隧道施工中存在严重的挤压变形风险,最大位移达62.5cm,呈现潜在坍塌威胁。最大变形速率为34.18mm/d,需80-130d完成90%的变形。以地质调查,室内试验和现场监测为依据,在正确认识隧道变形原因的基础上,提出了变形段加固方案,具体包括:拱腰至拱脚进行超前注浆导管预加固+药卷锚杆和锁脚注浆导管加固。对隧道治理方案进行综合评估,方案取得了较好的治理效果,为类似隧道提供工程指导和借鉴。

厚煤层大断面巷道围岩控制协同技术研究

针对厚煤层开采过程中围岩稳定性差、支护难度大、巷道变形控制困难等问题,以顾北煤矿14321综采工作面为背景,在综合分析了该工作面地质条件和围岩稳定性的基础上,提出了“树脂锚杆+锚索+菱形网+槽钢梁+M5钢带”联合支护技术思路。采用理论分析和数值模拟方法,研究了不同支护方案对巷道围岩变形的影响,最终确立最佳支护方案。现场监测结果显示:在联合支护后,巷道顶板最大移近量为41mm,两帮最大变形量为50mm,证实了支护方案的有效性及合理性,为以后类似条件下巷道支护提供了技术参考。

高水平应力矿岩接触带巷道稳定性分析

井下巷道在通过矿岩接触带时,由于接触带两侧岩性差异会在巷道两端和接触带上产生不同的变形和破坏。以杜达铅锌矿100 m中段矿岩接触带巷道为研究对象,采用Flac3D软件数值模拟和现场巷道收敛变形监测的方法,分析矿岩接触带巷道在未支护情况下的应力分布和变形情况,得出杜达铅锌矿在高水平应力下矿岩接触带巷道的变形和破坏规律。研究结果表明:高水平应力下矿岩接触带巷道形成后的破坏以剪切破坏为主,巷道变形和破坏在顶底板表现较为明显。矿岩接触带上剪切应力集中,使得接触带两侧矿(岩)体的变形存在明显的不对称非协调分布。岩体侧的变形破坏比矿体侧更为明显,且巷道两帮变形小于顶底板变形。研究结果可为类似条件下矿岩接触带巷道的支护提供理论依据。

Simulation experiment of AE-based localization damage and deformation characteristic on covering rock in mined-out area

The localization damage and deformation characteristics of multiple rock in mined-out area under thick soil layer were investigated by acoustic emission （AE）-based physical similar simulation experiment and damage test combined with the AE theory on rock damage. During different mining courses, the degree of wall rock suffered from mining disturbed process in mined-out area was different, so did the AE density of initial damage and fracture. Some characteristic parameters, including large events, total events, and energy rate, presented fluctuations with temporal and spatial change and take on a certain extent statistic relation. Subsequently, the percent of damage degree was defined and divided into 4 stages, and the localization damage and deformation characteristics of surrounding rock in mined-out area and coal pillars were analyzed quantitatively.

Analysis of predictor equations for determining the blast-induced vibration in rock blasting

The paper proposes a new empirical correlation designed to complement the‘‘site laws"currently used to evaluate the attenuation in the rock masses of vibrations induced by rock blasting.The formula contains a deformed exponential known as the K-exponential,which seems to well represent a large number of both natural and artificial phenomena ranging from astrophysics to quantum mechanics,with some extension in the field of economics and finance.Experimental validation of the formula was performed via the analysis of vibration data covering a number of case studies,which differed in terms of both operation and rock type.A total of 12 experimental cases were analysed and the proposed formulation exhibited a good performance in 11 of them.In particular,the proposed law,which was built using blast test data,produced very good approximations of the points representing the vibration measurements and would thus be useful in organising production blasts.However,the developed formula was found to work less well when a correlation obtained for a given site was applied to another presenting similar types of rocks and operations,and thus should not be employed in the absence of measurements from test data.

Application of laser scanning for rock mass characterization and discrete fracture network generation in an underground limestone mine

Terrestrial laser scanning(TLS) is a useful technology for rock mass characterization. A laser scanner produces a massive point cloud of a scanned area, such as an exposed rock surface in an underground tunnel,with millimeter precision. The density of the point cloud depends on several parameters from both the TLS operational conditions and the specifications of the project, such as the resolution and the quality of the laser scan, the section of the tunnel, the distance between scanning stations, and the purpose of the scans. One purpose of the scan can be to characterize the rock mass and statistically analyze the discontinuities that compose it for further discontinuous modeling. In these instances, additional data processing and a detailed analysis should be performed on the point cloud to extract the parameters to define a discrete fracture network(DFN) for each discontinuity set. I-site studio is a point cloud processing software that allows users to edit and process laser scans. This software contains a set of geotechnical analysis tools that assist engineers during the structural mapping process, allowing for greater and more representative data regarding the structural information of the rock mass, which may be used for generating DFNs. This paper presents the procedures used during a laser scan for characterizing discontinuities in an underground limestone mine and the results of the scan as applied to the generation of DFNs for further discontinuous modeling.

高放废物地质处置新场候选场址水文地质特征研究

场址水文地质条件对高放废物处置库而言至关重要,是决定场址适宜性及长期安全的关键因素之一。以我国高放废物地质处置新场候选场址为研究对象,重点分析讨论了场址岩体的渗透性、地下水动力场、水化学与同位素特征及地下水成因机制,目的是从水文地质角度为高放废物处置库场址的适宜性评价提供技术支撑。结果表明:新场候选场址地下水主要以大气降水入渗补给为主,整体上补给能力差;受蒸发浓缩作用影响显著,地下水化学类型主要为Cl·SO_(4)-Na型;场址地下水位的空间分布整体受地形控制,呈现西高东低、中间高南北低,此外,地下水位在垂向上还表现为浅部高、深部低的趋势,具有典型的补给区特征;场址断层和岩体深部的渗透性极低,相应的处置深度渗透系数小于10^(-10)m·s^(-1);14C测年结果表明:场址浅部地下水表观年龄一般小于5.4 ka,深部年龄高达13.2 ka,说明地下水循环更新速率缓慢。新场候选场址水文地质条件总体上具有补给条件差、岩体渗透性低、垂向水力联系弱和循环更新速率缓慢等特点,这些特点对高放废物地质处置都是有利的。

某抽水蓄能电站堆石坝填筑料压缩特性试验研究

某抽蓄电站上、下水库面板堆石坝利用地下洞室爆破开挖料作为填筑料,坝料为白垩系上统砂岩夹少量泥质砂岩及砂质泥岩等软岩,软岩填筑料的压缩特性关系到大坝的变形稳定,为此在现场开展了不同干密度、不同含水状态和不同软岩含量的24个点的现场大型压缩试验。通过分别掺配10%、20%和30%的泥质砂岩,研究了软岩含量对压缩模量的影响,并对实际坝料进行了7个点的试验。研究表明:(1)随着软岩含量的增加,压缩模量显著降低,并获得了坝料的压缩模量与软岩含量的经验关系;(2)实际坝料的压缩模量略高于含10%软岩的压缩模量,表明实际坝料中软岩含量小于20%;(3)考虑含软岩爆破料的不均匀性及暴露时间长遇水易软化的特点,提出了不同坝高的压缩模量建议值。

核电厂房群桩地震动力响应振动台试验

采用大型振动台试验的方法,建立了非基岩场地-群桩基础-核电安全厂房体系模型,研究了核电结构群桩基础的地震响应、内力分布及破坏现象。试验的地基土体模型为均匀粉质黏土,采用环形层叠剪切箱考虑土体的边界效应;由9根基桩按照3×3对称布置,组成群桩基础,基桩的直径为10 cm、长度为200 cm;核电安全厂房简化为3层框架-剪力墙结构模型。研究结果表明:在水平地震荷载作用下,群桩基础的主要破坏形式为弯曲拉伸破坏,破坏范围为距承台以下4~7倍桩径范围内,联结承台桩顶部的破坏最为严重,所承受的弯矩也大于其他位置。