约束条件对滑坡涌浪特征影响的室内试验研究

水库滑坡约束条件影响其运动过程的几何形态,是滑坡涌浪预测的重要参数之一.为了探究约束条件对滑坡涌浪特征(波高、波幅与周期)的影响,采用正交试验设计法开展了 54组滑坡涌浪室内模型试验,并基于统计学理论对约束散体和半约束散体的涌浪特征进行了分析.结果表明:涌浪波周期基本不受滑体约束条件的影响;而半约束散体模型的波高和波幅...     

钻孔灌注桩的超声波透射法检测

大直径超长桩的桩身混凝土质量检测一直是困扰工程界的一个难题。本文提出和探讨了大直径超长桩桩身混凝土质量的超声波透射检测方法、技术及可靠程度。工程实践证明采用超声波透射法对大直径超长桩检测，其检测精度高，结果直观可靠，可以较详细查明桩身内部缺陷的性质、深度位置、范围大小及严重程度，为控制大直径超长桩桩身混凝土质量提供了一种有效的检测方法。     

草甸草原降水特征与土壤水分对降水脉动响应——以呼伦贝尔草原额尔古纳市为例

利用额尔古纳牧业气象试验站降水量与土壤水分数据,通过降水与土壤水分动态变化及转化过程分析,确定土壤水分响应的降水临界值与不同降水级别引起土壤水分响应的概率,构建了降水过程量与土壤水分增量函数关系。结果表明：（1） 研究区降水量呈“先降后升”变化趋势,年内降水量呈单峰型分布。（2） 研究区以无降水天气为主,降水又以小降水事件占主导,大降水事件发生频次低、过程降水量大,小降水事件则相反。（3） 可以引起研究区0~50 cm各层土壤水分响应的降水临界值分别为8.1 mm、10.1 mm、19.0 mm、27.9 mm和31.6 mm,小雨仅能引起0~10 cm土壤水分响应的概率为28.6%,中雨不能引起40~50 cm土壤水分的响应。（4） 降水量与0~10 cm和10~20 cm土壤水分达到最大值时的滞后时间呈现出极显著负相关关系,与20~30 cm呈显著负相关关系,0~30 cm各层土壤水分达到最大值时的滞后时间与降水量符合幂函数关系。（5） 降水量和0~50 cm土壤水分增量均呈现出极显著正相关关系,降水量与0~10 cm和10~20 cm土壤水分增量符合线性关系,与20~30 cm、30~40 cm和40~50 cm土壤水分增量符合多项式关系。检验结果表明,构建的函数模型可以较好地模拟研究区0~30 cm各层水分增量。研究结果为地方政府抗旱减灾提供了科学依据。     

锚网(索)支护煤巷顶板离层临界值分析

顶板离层是开采过程中巷道矿压显现的主要表现形式之一。离层值的大小不仅和煤层赋存条件及开采技术条件等自然因素有关,而且和巷道的尺寸、支护方式以及支护强度等直接相关。在深入分析现场顶板离层监测手段和所存问题的基础上,对锚网巷道、锚网锚索联合支护巷道的顶板离层临界值进行了系统的分析。     

多种权函数固定临界值与可变临界值抗差估计的比较

抗差估计等价权函数中临界值一般定为常数。若基于学生化分布构造标准化残差,其临界值可由观测自由度以及给定的显著性水平确定。首先对几种权函数进行了分析和比较,然后讨论了各个权函数抗差性与误差显著性水平以及由之确定的临界值的关系。利用模拟数据详细分析和比较了不同的权函数在不同显著性水平下的抗差性,针对不同的权函数给出了合适的显著性水平;并将其与经验确定的常数临界值所对应的抗差估计进行比较,发现这种基于合适的显著性水平下的权函数不仅具有较严格的理论基础,而且计算也是行之有效的。     

On critical values concerning the evolution of the long period families

In a previous paper, we proposed another special critical value concerning the evolution of the long period family around the equilateral equilibrium points, besides the two values given by Henrard. Are there any other special critical values? After studying the stability curves of the long period family carefully, we gave a negative answer. During the study, we found an interesting family of periodic orbits which we called the homo family. We studied the evolution of this family following the increase of μ. With these findings, we were able to explain the origin of the four branches of periodic families emanating from L4 and the stability results of the equilateral equilibrium points.     

张掖城市湿地保护区生态需水量分析与计算

浅埋的地下水位以及泉水溢出是张掖城市湿地形成的主要原因。在充分考虑保持湿地现状的同时,顾及到湿地区内农耕区不至于因地下水位变化而产生负茴环境地质影响。将2005年8月份湿地保护区水位埋深,确定为保持湿地现状的地下水位埋深临界值。按照张掖城市湿地保护区的基本特征、表现、生态保护目标,生态需水量主要包括湿地植被蒸腾量、湿地土壤蒸发量、灌溉需水量以及景观建设需水量等。计算得生态需水量为3053．87×10^4m^3/a。湿地生态需水量的分析与计算对于制定合理的湿地保护措施具有重要意义。     

Examination of Silicate Limitation of Primary Production in Jiaozhou Bay,China Ⅱ.Critical Value and Time of Silicate Limitation and Satisfaction of the Phytoplankton Growth

Analysis and comparison of Jiaozhou Bay data collected from May 1991 to February 1994 revealed the spatiotemporal variations of the ambient Si(OH)₄:NO₃ (Si:N) concentration rations and the seasonal variations of (Si:N) ratios in Jiaozhou Bay and showed that the Si:N ratios were <1 throughout Jiaozhou Bay in spring, autumn, and winter. These results provide further evidence that silicate limits the growth of phytoplankton (i.e. diatoms) in spring, autumn and winter. Moreover, comparison of the spatiotemporal variations of the Si:N ratio and primary production in Jiaozhou Bay suggested their close relationship. The spatiotemporal pattern of dissolved silicate matched well that of primary production in Jiaozhou Bay. Along with the environmental change of Jiaozhou Bay in the last thirty years, the N and P concentrations tended to rise, whereas Si concentration showed cyclic seasonal variations. With the variation of nutrient Si limiting the primary production in mind, the authors found that the range of values of primary production is divided into three parts: the basic value of Si limited primary production, the extent of Si limited primary production and the critical value of Si limited primary production, which can be calculated for Jiaozhou Bay by Equations (1), (2) and (3), showing that the time of the critical value of Si limitation of phytoplankton growth in Jiaozhou Bay is around November 3 to November 13 in autumn; and that the time of the critical value of Si satisfaction of phytoplankton growth in Jiaozhou Bay is around May 22 to June 7 in spring. Moreover, the calculated critical value of Si satisfactory for phytoplankton growth is 2.15–0.76 μmol/L and the critical value of Si limitation of phytoplankton growth is 1.42–0.36 μmol/L; so that the time period of Si limitation of phytoplankton growth is around November 13 to May 22 in the next year; the time period of Si satisfactory for phytoplankton growth is around June 7 to November 3. This result also explains why critical values of nutrient silicon affect phytoplankton growth in spring and autumn are different in different waters of Jiaozhou Bay and also indicates how the silicate concentration affects the phytoplankton assemblage structure. The dilution of silicate concentration by seawater exchange affects the growth of phytoplankton so that the primary production of phytoplankton declines outside Jiaozhou Bay earlier than inside Jiaozhou Bay by one and half months. This study showed that Jiaozhou Bay phytoplankton badly need silicon and respond very sensitively and rapidly to the variation of silicon. This study was funded by NSFC (No. 40036010) and subsidized by Special Funds from National Key Basic Research Program of P. R. China (G19990437), the Postdoctoral Foundation of Ocean University of Qingdao, the Director's Foundation of the Beihai Monitoring Center of the State Oceanic Administration and the Foundation of Shanghai Fisheries University.     

液化判别的简化计算法

针对国家标准《建筑抗震设计规范》规定的地震液化判别规则 ,本文提出一种简化的判别计算方法     

云开大山冬季热量资源利用

云开大山位于南亚热带南缘,种植亚热带作物热量有余,种热带作物常常不能安全越冬。为了合理利用地形环境,本文分析了山地环境避寒原理,给出了平流型寒害的综合表达指标,根据不同地形环境,提出了作物合理种植的建议。