共查询到20条相似文献,搜索用时 15 毫秒
1.
胜利油气区东营凹陷现今地温场研究 总被引:13,自引:0,他引:13
文中利用热导率分散模型,根据地层中砂质含量数据计算东营凹陷第三系各沉积地层单元的原地热导率,再利用热阻率法根据东营凹陷170口测温井中测温资料计算出第三系各地层界面上和特征深度处温度,进而研究东营凹陷现今地下温度。计算结果表明,第三系各地介面上地温分布特征主要受各界面埋藏深度控制,而地下各特征深度上地温分布特征主要受热流平面分布特征控制。 相似文献
2.
The regional geothermal pattern of the Western Canadian Sedimentary Basin has been studied using available temperature data from wells. Average heat conductivity for various geological formations has been estimated on the basis of net rock studies by Canadian Stratigraphie Services. These data and observations of temperature made in “shut-in holes” in some of the oil pools have been used in heat flow estimations by the Bullard method.The geothermal gradient and heat flow within the basin are exceptionally high in comparison with the other world wide Precambrian platform areas. Especially high geothermal gradient areas are found in the northwestern part of the Prairies Basin in Alberta and British Columbia and most of southeastern and southwestern Saskatchewan. Areas of low gradient are found mainly in the Disturbed Belt of the Foothills, southern and southeastern Alberta, and the Peace River area in British Columbia. Neither the analysis of regional heat conductivity distribution nor the heat generation distribution of the basement rock of the Prairies Basin evaluated on the basis of U, Th and K data after Burwash (1979), explain the observed heat flow patterns of the Prairies Basin. Comparison of heat flow patterns with some of the hydrogeological phenomena suggests the significant influence of fluid flow in the basin formations on geothermal features. Low geothermal gradient areas coincide with water recharge areas and high hydraulic head distribution regions.The phenomenon of upward water movement in the deep strata and downward flow through much of the Cenozoic and Mesozoic strata seems to control the regional heat flow distribution in the basin. The analyses of coal metamorphism in the upper and middle Mesozoic formations of the Foothills Belt and in the central Prairies Basin suggest that the pre-Laramide paleogeothermal heat flow distribution was different from the present one. It is very probable that the Foothills Belt area was characterized by a higher geothermal gradient than the central part of the Prairies Basin, i.e. opposite to the present picture. 相似文献
3.
花岗岩单裂隙渗流传热特性试验 总被引:1,自引:0,他引:1
基于岩石裂隙渗流传热试验系统,以蒸馏水为换热工质,针对预制平滑裂隙与粗糙裂隙的花岗岩岩样,开展不同试验温度与水流条件下的单裂隙对流换热特性试验研究。试验结果表明:①同一温度水平下,对流换热系数的量值与流量呈正相关关系,但对流换热系数的增幅大于流量的增幅,随岩石基质温度的升高,相同流量水平下的对流换热系数呈增大趋势;②与平滑裂隙试验结果相比,粗糙裂隙面的对流换热强度有所提高,但增幅不大;③沿渗流路径,裂隙面局部对流换热强度的演化呈现多波峰的非线性特征,其中粗糙裂隙的非线性更加强烈。但二者均存在由进水口至出水口,换热强度逐渐减弱的特征。④努塞尔数与普朗特数1/3次方的商与雷诺数较好地满足幂指数关系,随着试验温度的升高,这种关系逐渐向线性转变。 相似文献
4.
Detailed studies of terrestrial heat flow in southern and central Alberta estimated on the basis of an order of magnitude larger data base than ever used before (33653 bottom-hole temperature data from 18711 wells) and thermal conductivity values based on detailed rock studies and measured rock conductivities show significant regional and local variations and variations with depth. Heat flow values were estimated for each 3 × 3 township/range area (28.8 × 28.8 km). A difference in heat flow exists between Paleozoic and Mesozoic strata. Generally lower heat flow values are observed in the strata above the Paleozoic erosional surface (20–75 mW m−2). Much higher values are estimated for the Younger Paleozoic formations, with large local and regional variations between 40 and 100 mW m−2.Average heat flow values based on heat flow determinations below and above the Paleozoic surface that agree within 20% show an increase from values less than 40 mW m−2 in southern and southwestern Alberta to values as high as 70 mW m−2 in central Alberta. The predominance of regional downward groundwater flows in Mesozoic strata seem to be responsible for the generally observed heat flow increase with depth.The results show that the basin heat flow pattern is influenced by water movement and even careful detailed heat flow measurements will not give correct values of background steady-state heat flow within the sedimentary strata. 相似文献
5.
T. R. Roy 《Geotechnical and Geological Engineering》1993,11(1):15-23
Summary A simplified approach for prediction of transient climatic conditions in an underground airway os presented. The dry surface temperature of the airway is calculated using a finite difference scheme, whereas the wet surface temperature is determined following the concept of pseudo-base-temperature of air and using the value of thermal gradient at the dry surface as obtained from the finite difference solution of the temperature profile in the dry rock. The air-current temperatures are regularly evaluated after a suitable time span so as to simulate a real-case situation, and the re-evaluated air-current temperatures are used for further calculations. For increasing age of the airway the wet surface temperature obtained by the finite difference scheme, with an appropriate value of thermal diffusivity, is compared with its value determined by the pseudo-base-temperature approach. 相似文献
6.
G. Beardsmore M. Sandiford K. Gordon M. McLean S. Egan S. McLaren 《Australian Journal of Earth Sciences》2017,64(6):753-767
Borehole temperature data have the potential to record historical variations in ground and air surface temperature, yet very few reliable, purpose-drilled, boreholes are available to explore such impacts, particularly in the southern hemisphere. The 400-m deep Tynong-1 borehole, approximately 65 km ESE of Melbourne, Australia, was drilled specifically to determine conductive heat flow and provides a unique dataset for evaluating ground surface temperature history in southeastern Australia. Steady-state conductive heat flow of 87 ± 1 mW m?2 was determined in the deeper borehole sections, with measured temperature profiles clearly demonstrating a progressive divergence of the observed temperature profile from the equilibrium model in the upper ~150 m of the hole. We applied a Bayesian method employing a reverse jump Markov chain Monte Carlo search algorithm to explore the origins of this variation. Our results indicate a 2°C increase in ground surface temperature since 1800, after at least 500 years of relatively stable ground surface temperature. The inversion results are consistent with the trend of surface air temperature recorded in southeast Victoria by historical meteorological data since 1950. The inferred increase in ground surface temperature evident prior to 1950 is likely a cumulative effect of land clearing and a rise in surface air temperature. 相似文献
7.
针对高放射性核废物地下处置库近场饱和裂隙岩体环境,提出一种由分布热源、饱和单裂隙和两侧无限大岩石构成的三维水流-传热简化模型,建立了控制微分方程和基于拉氏变换域格林函数的积分方程;采用矩形单元把裂隙面域离散化,利用极坐标下的解析方法计算包含奇点的单元积分,利用数值方法计算分布热源和不包含奇点的单元积分,建立拉氏变换域的线性代数方程组,求解后,利用拉氏数值逆变换,计算任意时刻裂隙水和岩石的温度分布。对两个无内热源、流场确定的计算模型进行了计算,与仅考虑岩石沿裂隙面法向一维热传导的解析解进行了对比。计算分析了分布热源作用下饱和单裂隙岩体的三维水流-传热特征及其对裂隙水流速、岩石热传导系数和热源热流集度的敏感度。计算结果表明:与直接采用高斯数值积分相比,提出的解析法奇异积分精度较高;就裂隙水温度而言,单裂隙岩体三维水流-传热半解析计算方法与解析法得到的结果基本一致,但由于半解析计算方法考虑了岩石的三维热传导,使得裂隙水的上游温度较低,而下游温度较高;无分布热源作用时,岩石热传导系数越大,裂隙水温度越低;裂隙水流速越大,裂隙进水温度对裂隙水和岩石温度分布的影响越明显;由于受到裂隙水流动传热的作用,分布热源对裂隙水温度和岩石温度的影响在裂隙水流的下游区域比较显著。 相似文献
8.
N. Hussain 《Journal of Earth System Science》1991,100(1):1-11
A simple thermal model is developed to evaluate the heat exchange surface area of a hot dry rock geothermal reservoir. This
model, in conjunction with the Rn model of Andrews and coworkers, is applied to RH12/RH15 system of the British HDR reservoir.
Results suggest that although the estimated Rn transfer surface area represents the actual swept surface area, it is between
25 and 45 times larger than the heat transfer surface area. The difference is explained as due to clustering of several fractures
within a range of thermal interaction, over the duration of the circulation. It is also shown that the decline in the measured
temperatures of circulation fluids since 1985 to the present is consistent with the heat exchange surface area going through
a maximum in 1987. 相似文献
9.
A semi‐analytical approach is developed for modeling 3D heat transfer in sparsely fractured rocks with prescribed water flow and heat source. The governing differential equations are formulated, and the corresponding integral equations over the fracture faces and the distributed heat source are established in the Laplace transformed domain using the Green function method with local systems of coordinates. The algebraic equations of the Laplace transformed temperatures of water in the fractures are formed by dividing the integrals into elemental ones; in particular, the fracture faces are discretized into rectangular elements, over which the integrations are carried out either analytically for singular integrals when the base point is involved or numerically for regular integrals when otherwise. The solutions of the algebraic equations are inverted numerically to obtain the real‐time temperatures of water in the fractures, which may be employed to calculate the temperatures at prescribed locations of the rock matrix. Three example calculations are presented to illustrate the workability of the developed approach. The calculations found that water flux in the fractures may decrease the rate of temperature rise in regions close to the distributed heat source and increase the rate of temperature rise in regions downstream away from the distributed heat source and that the temperature distribution and evolvement in a sparsely fractured rock mass may be significantly influenced by water flow exchange at intersection of fractures. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
10.
选取高放射核废物处置库重要预选场区甘肃北山地区的花岗岩,制作750 mm(宽)×300 mm(厚)×1 000 mm(高)的稀疏不规则裂隙岩体模型,该模型由18块花岗岩和竖向与斜向各两条裂隙组成,在裂隙及岩石内部埋置温度传感器、水压计、直角应变花,并在模型一侧设置局部热源,研究热源温度和裂隙水流速对岩石温度和应力的影响。结果表明,竖裂隙水主要从顶部进水口流向底部出水口,斜裂隙水主要从侧部进水口流向侧部出水口,竖裂隙与斜裂隙在交汇处存在微小流量交换;由于热源处在两条斜裂隙进水口之间,并且斜裂隙长度小于竖裂隙,岩石热传导与斜裂隙水流对岩石温度分布起控制作用,竖裂隙水流对岩石横向热传导起阻滞作用;由于热传导和水流传热的不规则性,上层岩石形成从左向右为主的传热路径,中层和下层岩石形成从上向下为主的传热路径;由于上、下层岩石温度梯度较小,岩石收缩受热拉应力,而中层岩石温度梯度较大,岩石膨胀受热压应力,大主应力的方向大致垂直于斜裂隙面与竖裂隙面的交线,岩石应力增量随斜平面方向的温度梯度增大而增大;热源温度越高,裂隙水流速越低,岩石温度越高、岩石应力越大,系统达到稳态需要的时间越长。 相似文献
11.
目前,陆地大地热流的测量大多在1-2公里深的钻孔中进行,测量结果除受地形变化、气候变迁等因素的影响外,还受构造形态变化的影响。一般隆起区的浅部热流和地温梯度高于拗陷区的热流和地温梯度。有时在隆起的最高部位的地表热流值可高于平均热流值的30%-40%,从而形成局部的异常区。隆起区的地表热流值和地温梯度值高于拗陷区的原因是由于在热流扰动区内,热流产生折射和再分配的结果。为此,我们采用数学模拟方法,研究了在不同构造形态和岩层热导率条件下,热流折射和再分配对区域热流的影响。 相似文献
12.
边界条件对碎石层降温效果及机理的影响 总被引:22,自引:14,他引:8
对平均粒径为22.1 cm, 厚度1.3 m, 边界为开放和封闭的碎石层进行了一系列的实验. 从环境温度为最高和最低时刻封闭碎石层内的温度和速度分布可知: 当碎石层上表面温度低于下表面时,碎石层自下向上的散热由空气对流和碎石间的热传导来完成; 当上表面温度高于下表面时, 自上向下传递的热量由碎石接触面间的热传导完成, 此时, 由于其内部的空气几乎静止, 能阻隔热量的传入, 因此封闭边界的碎石层具有热半导体特性. 而开放边界的碎石层, 当平均温度为 0.5℃的空气从上表面吹过时, 碎石体内的热量传递主要是靠强迫对流来完成, 热半导体效果不明显, 不利于使其下面的冻土降温. 相似文献
13.
14.
内蒙古海拉尔盆地乌尔逊凹陷现今地温场特征 总被引:5,自引:2,他引:3
乌尔逊凹陷作为内蒙古海拉尔盆地油气资源最丰富的凹陷之一,其地温场特征尚未进行系统研究。根据5口井系统测温数据和42口井油层测温数据以及实测热导率资料,分析了海拉尔盆地乌尔逊凹陷现今地温场特征。乌尔逊凹陷的现今地温梯度在2.8~3.7℃/hm之间,平均地温梯度为3.35℃/hm。现今大地热流密度值在42.2~59.4 mW/m2之间,平均大地热流密度值为56.0 mW/m2,表明乌尔逊凹陷是一个中温型地温场。现今地温梯度和大地热流密度值分布具有北高南低的特点,造成南北差异的原因主要为地下水活动、断裂及火山岩体。现今地温场对油气生成具有明显的控制作用;乌尔逊凹陷为持续埋藏性凹陷,现今地温为烃源岩经历的最高温度;西部地区现今温度最高,铜钵庙组、南屯组、大磨拐河组烃源岩仍处于较高的温度环境中,烃源岩现今仍处于生烃过程中,西部地区是乌尔逊凹陷主要的找油气区。 相似文献
15.
在系统分析淮南煤田大量地面钻孔井温测井数据和井下巷道围岩温度测试数据的基础上,结合58块岩石样品的热导率测试结果,全面阐述了该区现今地温梯度和大地热流的分布特征。研究表明,淮南煤田现今地温梯度的众值介于2.50~3.50℃/hm之间,平均地温梯度为2.9℃/hm;大地热流值变化范围为31.87~83.9 m W/m2,平均热流值为63.69 m W/m2,地温梯度和热流值区均高于淮北煤田;大地热流受地温梯度控制明显,其变化特征和地温梯度分布较为相似,整体表现为中东部高,西部其次,东南部最小的特征。分析揭示,区内现今地温场和热流分布主要受区域地质背景和区内构造格局的控制。 相似文献
16.
Time series of soil surface and subsurface temperatures, soil heat flux, net radiation, air temperature and wind speed were
measured at two locations in Kalpakkam, coastal southeast India. The data were analysed to estimate soil thermal diffusivity,
thermal conductivity, volumetric heat capacity and soil heat flux. This paper describes the results and discusses their implications. 相似文献
17.
核废物地质处置、地热开发、石油开采等工程领域都可能涉及稀疏裂隙岩体中的水流-传热过程。现有的裂隙岩体水流-传热理论模型和计算方法基本上都是以平行光滑壁面裂隙模型为基础的,没有考虑裂隙的壁面局部接触对水流、水-岩热交换以及岩体传热的影响。针对粗糙壁面裂隙水流过程,阐述了基于Stokes方程的Reynolds润滑方程及Hele-Shaw裂隙模型,采用MATLAB软件中的PDE工具求解,并与Walsh的等效水力开度公式进行对比;分析壁面局部接触裂隙水流-传热与填充裂隙水流-传热的相似性,提出了瞬时局部热平衡假设的适用条件,并在裂隙局部接触体传热满足Biot数条件的前提下,计算分析裂隙局部接触体与水流之间的局部热平衡时间及其影响因素;在裂隙局部接触体与水流之间满足瞬时热平衡假设的前提下,利用填充裂隙水流-传热的解析解,计算了壁面局部接触裂隙水及两侧岩石的温度分布,并分析了裂隙局部接触面积率、裂隙开度、裂隙水平均流速对岩石温度和裂隙水温度的影响特征,结果表明:(1)在设定条件下,由于裂隙局部接触体与裂隙水流之间的热交换,裂隙水流对其两侧岩石温度的影响范围随接触面积率的增大而减小,裂隙两侧岩石对裂隙水流温度的影响程度随接触面积率的增大而增大;(2)裂隙开度和裂隙水流速对岩石温度和裂隙水温度的影响方式的影响是一致的,即由于裂隙水流量随裂隙开度和裂隙水流速的增大而增大,裂隙水流对其两侧岩石温度的影响范围随裂隙开度和裂隙水流速的增大而增大,裂隙两侧岩石对裂隙水流温度的影响程度随裂隙开度和裂隙水流速的增大而减小。 相似文献
18.
高强防寒保温泡沫混凝土研制与工程应用 总被引:1,自引:1,他引:0
复杂地层寒区隧道填充材料需兼具防寒保温、抗震和优化支护等性能,为解决常规泡沫混凝土在复杂地层寒区隧道应用中存在的不足,通过正交试验得到了自制泡沫混凝土的最佳配合比,研制了一种高强防寒保温泡沫混凝土.通过室内试验,研究了所制泡沫混凝土的保温性能和冻融劣化特征,并采用数值分析方法探讨了西藏嘎隆拉隧道初衬和二衬之间加设泡沫混凝土垫层后的温度场变化规律.结果表明:该泡沫混凝土具有较好的保温性能和抗冻融损伤性能,同时强度、延性较普通泡沫混凝土都有明显改善.数值计算结果显示,当在初衬和二衬之间增设泡沫混凝土垫层时,其相应位置的温度变幅由不设置时的4.5℃变为2℃,最低温度由1℃提高到了3℃,表明加设所研制泡沫混凝土垫层对于阻止围岩受到隧道内冷空气的侵害具有非常显著的效果. 相似文献
19.
放射性生热率是岩石热物性参数之一,也是研究岩石圈热结构和构造热演化的重要参数。针对南海海盆区缺少岩石生热率资料的实际情况,本文通过整理和分析IODP349航次中的测井资料,测试钻井岩心样品的主要放射性生热元素,通过计算得出:玄武岩样品的生热率平均值为0.28±0.07μW/m~3,沉积碎屑岩样品的生热率为1.21±0.34μW/m~3,以及3个钻井的地热流值。获得以下认识:(1)本次研究的沉积碎屑岩样品生热率与中国东南沿海的同类岩石样品的生热率值相近,而洋壳中的基性火山岩生热率明显低于大陆碱性玄武岩。(2)用新资料计算南海西南次海盆段的岩石圈热结构得出其热岩石圈厚度约为39~42 km,平均壳幔热流比值为2.4%,说明西南次海盆岩石圈薄,海底热流主要受深部的地幔热源控制。(3)U1431D和U1433A钻井的热流密度值与附近探针热流密度值相近;而U1431C的热流密度值明显偏小,属于受地下水热循环影响所致。 相似文献
20.
青藏高原冬春积雪和季节冻土年际变化差异的成因分析 总被引:22,自引:13,他引:9
利用青藏高原上72个常规气象观测站的逐日积雪厚度、冻结深度、气温、降水和地表温度资料,分析了高原积雪和季节冻土年际变化差异的原因.结果表明:气温和地表温度对高原积雪和季节冻土都有重要的影响,而降水对积雪的影响很重要,但是对季节冻土的影响则比较小.高原积雪对季节冻土有较大的影响,在积雪达到一定厚度以后,积雪的保温作用会影响冻结深度的变化,积雪越厚,保温作用越强;积雪越浅,保温作用越弱,当积雪小于某一厚度时其主要起降温作用.积雪的保温作用可能是积雪与季节冻土年际变化差异的原因之一. 相似文献