赣中(崇仁-东乡)重力场特征及其对温泉热源的控制     

曹俊昌  龚育龄徐方 《华东地质学院学报》2004,27(2):166-169

断裂构造能够引起重力场的异常分布，温泉热源的形成和空间展布主要受深大断裂、基底构造等地质因素控制。基于这一思路，根据该区重力资料，结合地质及其它地球物理资料对深部地质结构做了一些探讨。对重力资料进行了一些处理，挖掘深部地质信息，根据所得信息推断出了一些基底断裂，有一些是本次重力结果新发现的断裂。此外，还证实了前人已圈定的断裂构造，这些构造在控热、导热作用方面起着重要作用，深大断裂、基底构造它们交汇部位附近是寻找温泉热源的有利地区。  相似文献   

青藏高原对亚洲夏季风爆发位置及强度的影响   总被引：14，自引：7，他引：14       下载免费PDF全文

梁潇云  刘屹岷  吴国雄 《气象学报》2005,63(5):799-805

通过数值模拟,研究了青藏高原位于不同经度位置时,亚洲夏季风的爆发和演变情况,从动力和热力学角度分析了青藏高原大地形对亚洲夏季风爆发位置的影响。结果表明,青藏高原的“热力滑轮”作用引起:高原东南面热带陆地上空的偏南气流加强,降水增加,凝结潜热加强;高原西南面热带陆地上空出现偏北气流,降水减弱,陆面的感热加热加强。青藏高原对于亚洲夏季风的爆发地点有锚定的作用,在热带海陆分布的背景下,使亚洲夏季风首先在高原东南面的海洋东岸—陆地西岸爆发,并使亚洲季风降水重新分布。  相似文献   

利用卫星遥感资料反演感热和潜热通量的研究综述     

王开存  周秀骥  李维亮  刘晶淼  王普才 《地球科学进展》2005,20(1):42-048

区域平均感热和潜热通量是气象、水文、生态模式中的关键物理因子，卫星遥感反演为观测区域平均感热和潜热通量提供了可能。对利用卫星遥感资料反演地气通量的方法进行了总结和评述。首先描述了现在常用的反演方法，分析了方法中的各种假定对反演结果的影响，并对不同的模式反演结果进行了比较。还指出了评价卫星反演通量的精度时需要注意的问题。最后对该领域内现存的问题与发展方向进行探讨。  相似文献   

Electrical analogy for modelling thermal regime and moisture distribution in sandy soils     

Somenath Mondal  Vikas Sharma  P. Apte 《Geomechanics and Geoengineering》2018,13(1):22-32

The soil mass is subjected to temperature variation due to several human activities (viz. tanks storing heated fluids, buried cables and pipelines, air-conditioning ducts, disposal of nuclear and thermal power plant wastes etc.), which result in heat-induced migration of the moisture in it. Though several studies have been conducted in the past to investigate the mechanism of heat migration through the soil mass, a methodology for ‘real-time measurement of the variations in temperature, flux and moving moisture front, in tandem, with respect to space' has rarely been attempted. In this context, extensive laboratory investigations were conducted to measure real-time flux and temperature variations in the sandy soils, and the validation of results has been done by employing an equivalent electrical circuit programme, LTspice. Subsequently, a mathematical model PHITMDS (i.e. Prediction of Heat-Induced Temperature and Moisture Distribution in Soil) has been developed and its utility and efficacy, for predicting the depth-wise temperature and heat-induced moisture migration, due to evaporation, in terms of position of moving moisture front in the sandy soil has been critically discussed and demonstrated.  相似文献   

The geothermal formation mechanism in the Gonghe Basin: Discussion and analysis from the geological background     

《China Geology》2018,1(3):331-345

The Gonghe Basin, a Cenozoic down-warped basin, is located in the northeastern part of the Qinghai-Xizang (Tibetan) Plateau, and spread over important nodes of the transfer of multiple blocks in the central orogenic belt in the NWW direction. It is also called “Qin Kun Fork” and “Gonghe Gap”. The basin has a high heat flow value and obvious thermal anomaly. The geothermal resources are mainly hot dry rock and underground hot water. In recent years, the mechanism of geothermal formation within the basin has been controversial. On the basis of understanding the knowledge of predecessors, this paper proposes the geothermal formation mechanism of the “heat source–heat transfer–heat reservoir and caprock–thermal system” of the Gonghe Basin from the perspective of a geological background through data integration-integrated research-expert, discussion-graph, compilation-field verification and other processes: (1) Heat source: geophysical exploration and radioisotope calculations show that the heat source of heat in the basin has both the contribution of mantle and the participation of the earth’s crust, but mainly the contribution of the deep mantle. (2) Heat transfer: The petrological properties of the basin and the exposed structure position of the surface hot springs show that one transfer mode is the material of the mantle source upwells and invades from the bottom, directly injecting heat; the other is that the deep fault conducts the deep heat of the basin to the middle and lower parts of the earth’s crust, then the secondary fracture transfers the heat to the shallow part. (3) Heat reservoir and caprock: First, the convective strip-shaped heat reservoir exposed by the hot springs on the peripheral fault zone of the basin; second, the underlying hot dry rock layered heat reservoir and the upper new generation heat reservoir and caprock in the basin revealed by drilling data. (4) Thermal system: Based on the characteristics of the “heat source-heat transfer-heat reservoir and caprock”, it is preliminarily believed that the Gonghe Basin belongs to the non-magmatic heat source hydrothermal geothermal system (type II2₁) and the dry heat geothermal system (type II2₂). Its favorable structural position and special geological evolutionary history have given birth to a unique environment for the formation of the geothermal system. There may be a cumulative effect of heat accumulation in the eastern part of the basin, which is expected to become a favorable exploration area for hot dry rocks.  相似文献   

岩浆底侵的热-流变学效应及对峨眉山大火成岩省的启示   总被引：1，自引：1，他引：0  

王振华  陈赟  陈林  宋海斌 《岩石学报》2018,34(1):91-102

岩浆底侵在大陆地壳的形成和演化过程中起着非常重要的作用。本文基于二维热传导方程模拟不同规模的地壳底侵产生的热-流变学效应,以及幔源岩浆温度和含水量对底侵厚度的影响;并以现有的岩石地球化学分析、深部地球物理探测结果为约束,模拟了峨眉山大火成岩省内带幔源岩浆底侵对应的地表热流随时间演化,探讨了形成幔源岩浆底侵的潜温和初始熔融的深度制约。结果显示:1)幔源岩浆底侵引起的热扰动的耗散时间取决于岩浆底侵的初始厚度。以幔源岩浆侵入温度为1300℃,20km厚的地壳底侵为例,热扰动完全耗散需经历约150Myr;而5km厚的地壳底侵,只需经历50Myr热扰动已基本耗散殆尽。2)在初始阶段,岩浆底侵会造成岩石圈强度的显著降低;随着热耗散的进行,岩石圈强度会逐渐恢复;在热扰动耗散殆尽之后,岩石圈强度反倒比底侵前的岩石圈强度更大。这表明岩浆底侵不但可以导致地壳增厚,还会最终导致岩石圈的强化。3)温度对地壳底侵厚度的影响比含水量的影响要大得多。将我们的模型应用于峨眉山大火成岩省,结果表明内带地壳底侵的热耗散需持续上百个百万年,岩浆潜温超过1500℃,初始熔融深度超过200km。  相似文献   

喀什市热量资源对气候变化的响应特征及对农业的影响     

郝宏蕾  谢芳  李强 《沙漠与绿洲气象(新疆气象)》2019,13(2):137-144

利用新疆喀什市气象局1971—2010年逐日气象资料,运用线性回归、P检验、Mann-Kendall突变检验等方法分析了喀什市热量资源对气候变化的响应特征及对农业的影响。结果表明：近40a喀什市年平均气温呈极显著上升趋势,并于2000年发生了增暖性突变;无霜期明显延长,于1999年从一个相对偏短期跃变为一个相对偏长期;各界限温度积温和持续日数均呈增加趋势;0℃积温在2004年发生了由少到多的突变,20℃初、终日,持续日数,活动积温均在1999年发生了突变,其它各级农业界限温度出现日期、持续日数及活动积温未出现气候突变现象。喀什市热量资源整体增加趋势对农业生产有利。  相似文献   

Annual heat balance and equilibrium temperature of Lake Aegeri,Switzerland   总被引：1，自引：0，他引：1  

David M. Livingstone  Dieter M. Imboden 《Aquatic Sciences - Research Across Boundaries》1989,51(4):351-369

The mean heat budget of Lake Aegeri, Switzerland, is 950 MJ·m^–2, comparable to that of neighbouring lakes. The annual variation in the net heat flux can be adequately described using a six-term heat balance equation based on 12 years of monthly mean meteorological and surface temperature data. Although the magnitude of the net heat flux is dominated by the radiative terms of the equation, the one-month backward shift of the net flux and total heat content extrema from the solstices and equinoxes respectively is due to the phase shift of the non-radiative with respect to the radiative terms. A linear approximation was used to express the net heat flux in terms of a heat exchange coefficient and an equilibrium temperature. The former varies from 17 to 28 W·m^–2·K^–1 in the course of a year; fluctuations in the latter are found to depend mainly on fluctuations in cloud cover and relative humidity, whilst the effect of fluctuations in air temperature and wind speed is slight.  相似文献   

西太平洋赤道海域的热量平衡   总被引：1，自引：0，他引：1  

姚兰昌  陈有虞 《高原气象》1988,(1)

本文利用1986年11月中国科学院实验3号考察船在西太平洋赤道海域(0°～5°N,130°～150°E)考察所获得的29天辐射资料和同期取得的温、压、湿、风和探空等资料,计算了这一海域11月份的热量平衡各量值和整层气柱的加热量。结果表明:该海域是一个强热源区,其上空大气也是一个强热源区。  相似文献   

Diurnal freeze–thaw depth in rockwalls: Field measurements and theoretical considerations     

Norikazu Matsuoka 《地球表面变化过程与地形》1994,19(5):423-435

Rock temperatures were monitored for a year at two alpine rockwalls in the Akaishi Range, Japan, where permafrost is absent. Diurnal frost and thaw penetration depths were evaluated from subsurface isotherms drawn on the basis of the temperature records at 0, 10 and 40 cm depths. The surface of the rockwalls experienced more than 100 diurnal freeze-thaw cycles, most of which accompanied a frost or thaw penetration shallower than 50 cm, and several long duration cycles with deeper frost or thaw penetration. Theoretical frost and thaw depths were also calculated by incorporating the surface freezing indices into the modified Berggren equation, the results from which were then compared with the actual values. The modified Berggren equation provided values that showed a strong correlation with observed depths, despite somewhat underestimating the actual values. Using the modified Berggren equation, the seasonal frost depth in the observed winter was estimated to be about 4·5 m. The frost and thaw depths are considered to give the maximum estimation of the depth to which frost-induced cracking can propagate in the bedrock.  相似文献