哈尔滨-齐齐哈尔客运专线路基防冻工程模型试验研究

季节冻土地区修筑铁路客运专线面临着严重的路基冻胀问题,为研究保温板（XPS）在季节冻土地区路基工程中的防冻胀效果,开展了室内模型试验研究. 试验结果表明：经过2个周期的试验,保温板上下温差十分明显,保温板上下温差在负温期高于正温期,保温板下土体冻结速率随保温板厚度的增加而减小. 30 cm保温板下黄土的含水率随冻融过程呈单一变化规律,其他3个试验模型土体含水率在冻结开始时先减小,冻结结束时增大,最终保持稳定的趋势. 4个试验模型中的下层土体冻胀量均远大于上层土体,无保温板黄土试验模型冻胀量远大于其他3个保温板试验模型;AB料冻胀量随保温板厚度的增加而减小,AB料冻胀率远小于黄土冻胀率. 因此,在季节冻土地区路基设计中宜采用保温板路基,路基填料优先采用AB料.     

H2O-CH4-H2-CO2-CO-O2在高温、高压和高密度条件下的状态方程

为了计算高温，高压和高密度流体的热力学性质，提出了一个具有19个参数的维里型状态方程，其中参数与温度间的函数关系采用由Sutherland位能函数导出的维里系数近似式。除临界点附近以外，在已报道的pVT数据所覆盖的大部分超临界区域内，该方程均可适用。用该方程对H2O，CH4，H2，CO2，CO和O2等流体pVT关系的计算结果令人满意，其中pVT上限分别为：91-610GPa,1.6-11.0cm^3/mol,4000-5000K。计算体积的平均偏 小于0．8％，最大偏差小于5．4％。     

近800 ka以来南大洋区域经向海表温度差异及气候变化响应

南大洋地理位置关键,其海水热量变化往往会对区域或全球气候产生影响。通过对比南大西洋和南太平洋等南大洋关键海域近800 ka以来的海水表层温度（Sea Surface Temperature,简称SST）变化,同时结合南极冰芯记录的大气CO2浓度、大气温度及大洋底栖氧同位素等气候演变替代指标,对南大洋区域经向海表热量差异及气候响应进行分析,结果显示：1）南大洋不同海域近800 ka以来SST的演化具有明显的区域性。如相较于其他冰期,南大西洋ODP1090站SST值在MIS 12~10期的最低值出现约3.8℃的上升,南塔斯曼海ODP1170站SST冰期最低值则出现约1.3℃的下降;而西南印度洋的MD962077站SST冰期最低值在MIS 10期之后出现约2.2℃的上升。此外,滤波分析结果显示3个站位对"中更新世气候转型"（Mid-Pleistocene Transition,简称MPT）等全球性事件均响应明显;2）"中布容事件"（Mid-Brunhes Event,简称MBE）的发生对南大洋经向温度差异（ΔSST1090-1170）影响明显：MBE之前,ODP1090站位SST在冰期-间冰期旋回中的平均值或极值均比ODP1170站SST的平均值或极值低,但MBE发生期间及之后的MIS 5、MIS 2、MIS 1期,ODP1090站SST的平均值或极值均比ODP1170站SST的平均值或极值高。同时,南大洋经向SST差异（ΔSST1090-1170）在间冰期对气候变化的响应明显比冰期显著。显然,气候变化条件下的海洋锋面迁移及Agulhas流阶段性增强导致外部向南大西洋输入热量有所增加,最终使ΔSST1090-1170值偏正。因此,冰期-间冰期旋回中气候环境改变导致的海洋锋面移动幅度差异等是影响环南极海域经向温度差异变化的关键因素之一。     

中国冰川温度研究40年回顾与建议

Many temperature measurements have been made on 29 glaciers in China since 1959. The regional thermal features of glaciers are now revealed. It is distinguished that there are three categories of temperature distribution in China, i.e., cold, temperate and polythermal. Temperate glaciers are located in the southeastern Tibetan Plateau. The heat conduction in the surface layer and the heat transfer within a glacier can be quantitatively described. Two-dimensional temperature distributions are gained for the Glacier No.1 at the headwaters of the Urumqi River in the Tianshan Mountains and for the Chongce Ice Cap in the West Kunlun Mountains. Geothermal flux is derived from measurements down to or closed to the bottom. The Tibetan Plateau is an area with high geothermal flux. The author suggests to measure more ice temperature by using the boreholes for extracting ice core, however, there is no need to repeatedly measure the temperature within the near-surface layer.     

中国避暑型气候的地域类型及其时空分布特征

由于中国各地纬度、地形及海陆位置的地域差异,形成了多种多样的避暑型气候。本文采用1993-2012年756个国家基本站和122个辐射站逐日气象数据,基于通用热气候指数(UTCI)模型计算各气象站点的人体感知温度,结合聚类分析方法对避暑型气候的地域类型进行了研究,并对其空间分布、时间变化和舒适特征进行了分析。结果表明：中国避暑型气候主要包括西南高原型、中东部山岳型、东北山地平原型、西北山地高原型和环渤海低山丘陵型5种地域类型;各类避暑型气候具有显著的地域特色：西南高原型避暑气候纬度低、海拔高,太阳辐射较强;中东部山岳型避暑气候地势高、风速大,夏季舒适偏冷;环渤海低山丘陵型避暑气候地势低、湿度大,夏季舒适偏热且舒适度受海风影响明显;西北山地高原型避暑气候温度适宜、天气晴朗,但略显干燥;东北山地平原型避暑气候凉爽、风速不大、辐射不强、湿度适中,综合条件相对优越。从各类避暑型气候夏季人体感知温度的变化来看,环渤海低山丘陵型舒适期较短,其余类型舒适期相对较长,东北山地平原型和西北山地高原型人体感知温度曲线呈良好的单峰对称变化,其余类型大致呈单峰不对称形态。本文不仅丰富了避暑型气候研究的理论成果,而且也可为避暑型旅游资源的开发与规划提供科学依据,进一步指导人们的避暑旅游活动。     

EXPERIMENTAL STUDY OF TEMPERATURE EVOLUTION AND IDENTIFICATION OF INSTABILITY POSITION OF PLANAR STRIKE-SLIP FAULT DURING PROCESS OF STICK-SLIP

Stick-slip of fault in laboratory accompanies change of temperature. Temperature change is not only concerned with sliding friction, but also with the stress state of the sample. In this article, we use infra-red thermal imaging system as wide-range observation means to study the temperature variation of different stages during the deformation of sample. The rock sample for the experiment is made of granodiorite from Fangshan County with a size of 300mm×300mm×50mm. It is cut obliquely at an angle of 45°, forming a planar fault. Two-direction servo-control system was used to apply load on the sample. The load in both directions was forced to 5MPa and maintained constant (5MPa) in the X direction, then the load in the Y direction was applied by a displacement rate of 0.5μm/s, 0.1μm/s and 0.05μm/s successively. The left and below lateral of the sample were fixed, and the right and top lateral of the sample were slidable when loaded. The experiment results show not only the temperature change from increase to decrease caused by conversion of stress accumulation to relaxation before and after the peak stress, but also opposite variation of temperature increase on fault and temperature decrease in rock during instability stage. Most important of all, we have found the temperature precursor identifying the position of instability through the temperature variation with time along the fault. It shows that rate of temperature increase of instability position keeps relative high value since the stage of strongly off-linear stage, and accelerates in stage of meta-instability. After separating the effect of friction and stress, we found that temperature increase occurs in the rock near the fault instead of on the fault, which means the mechanism of temperature increase is stress accumulation. Temperature of fault at the instability position does not increase, which means the position is locked. We speculate that the position of locked area on fault with high stress accumulation near the fault may be the future instability position. It is of significance of studying temperature variation during stick-slip to the monitoring of earthquake precursors. Heat caused by friction of earthquake needs long time to transfer to the surface and could not be detected as a precursor. While the stress of surface rock near the fault would change as the stress of interior rock changes, which could cause detectable temperature variations. The research purpose of this article is to find special change positions before instability. As the temperature variations are caused by stress and slip of fault, the results are also meaningful to analysis of stress and displacement data related to earthquake precursors.     

Low‐cost monitoring of snow height and thermal properties with inexpensive temperature sensors

Small, self‐recording temperature sensors were installed at several heights along a metal rod at five locations in a case study catchment. For each sensor, the presence or absence of snow cover was determined on the basis of its insulating effect and the resulting reduction of the diurnal temperature oscillations. Sensor coverage was then converted into a time series of snow height for each location. Additionally, cold content was calculated. Snow height and cold content provide valuable information for spring flood prediction. Good agreement of estimated snow heights with reference measurements was achieved and increased discharge in the study catchment coincided with low cold content of the snow cover. The results of the proposed distributed assessment of snow cover and snow state show great potential for (i) flood warning, (ii) assimilation of snow state data and (iii) modelling snowmelt process. Copyright © 2010 John Wiley & Sons, Ltd.     

一种地温传感器及其在大地震临震前兆监测中的应用

介绍了地球内部温度异常与地震孕育和发生的关系以及地温异常在地震预测中的应用,分析了现有的地温测量传感技术,提出了一种用于大地震临震前兆监测的深层地温传感器,描述了基于该传感器进行大地震临震前兆监测的方法和系统架构,使得结合其他手段进行地震三要素预测成为可能。     

北半球热带中太平洋与印度洋海表温度梯度对夏季西北太平洋热带气旋生成频数变化的影响

基于1951—2018年哈德里中心海温资料、美国气象环境预报中心和美国国家大气研究中心再分析资料和第四代欧洲中心汉堡模式, 针对1994年、2018年等西北太平洋热带气旋(TC)生成异常多的年份, 研究了引起TC增加的海表温度异常(SSTA)模态及其影响机制。结果表明, 北半球热带中太平洋增暖与印度洋变冷是夏季西北太平洋TC生成频数增加的主要原因, 北大西洋负三极型式SSTA促使TC生成的进一步增加。热带中太平洋增暖与印度洋冷却在菲律宾以东激发出西风异常和气旋性环流异常。北大西洋负三极型式SSTA在我国南海、菲律宾至东南沿岸激发出气旋性环流异常。前者在西北太平洋中部, 后者在南海产生有利于TC生成的局地环境。1994年和2018年夏季热带中太平洋出现暖SSTA、印度洋为冷SSTA、北大西洋呈现负三极型式SSTA, 西北太平洋TC生成频数极端增多。近30年来, 当出现热带中太平洋增暖和印度洋冷却时, 北大西洋表现出比1989年以前更强的负三极型式SSTA, 使西北太平洋TC生成频数和北半球热带印度洋-太平洋SSTA梯度的线性相关更显著。     

我国中部地区自动站与人工站气温的差异及原因分析

在我国,地面自动气象观测系统正在取代常规主要气象要素的观测,即人工观测的器测项目,新旧两种观测系统之间存在一定的差异。从气候科学的观点来看,这种差异会造成均一性数据集的开发以及极端天气事件的分析的误差甚至错误,所以将两种系统所获取的资料进行对比是非常必要的。计算了我国中部地区21个气象站2005年的年平均差值,对其中的6个国家基准气候站逐小时数据按照云量、风速、白天和黑夜进行分类对比,并将仪器所处环境、太阳辐射（夜间为辐射冷却）、仪器原理及观测方法的变化认为是气温差异产生的主要因素。研究表明：两种仪器观测的气温年平均差值基本上在±0.2℃之内。在上述差异因素中,大多数的台站仪器差异基本在±0.1℃之间,观测方法差异、仪器环境差异也比较小,而与太阳辐射有关的差异最大。