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太行山北段山区找热方向研究
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作者 程伟 李梦雅 《中文科技期刊数据库(引文版)工程技术》 2023年第8期148-152,共5页
太行山北段山区现有地热异常(点)区7处,分布主要受断裂构造控制。本次通过对地热异常(点)区地质特征研究分析,系统论述了该区地热形成的热源、水源、热水通道等要素。针对岩浆岩特征进一步分析认为伟晶岩(伟晶岩脉、伟晶岩化带)对山区... 太行山北段山区现有地热异常(点)区7处,分布主要受断裂构造控制。本次通过对地热异常(点)区地质特征研究分析,系统论述了该区地热形成的热源、水源、热水通道等要素。针对岩浆岩特征进一步分析认为伟晶岩(伟晶岩脉、伟晶岩化带)对山区地热异常形成具有较明显控制作用,成规模伟晶岩(伟晶岩脉、伟晶岩化带)可作为后期太行山北段山区找热标志,并提出了太行山北段山区今后找热方向。 展开更多
关键词 太行山 成因 控热因素 方向
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我国陆区热状态及控热要素
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作者 王贵玲 蔺文静 《地学前缘》 EI CAS 2024年第6期1-18,共18页
区域热状态代表一个地区大地热流的主要来源,解决了区域热源的基本问题,可为区域地热资源的研究提供基础背景。本文基于我国近年来开展的区域热流测量和深孔测温工作,分析了我国陆区壳幔热流比,并将我国陆区划分为壳源生热高温地热区、... 区域热状态代表一个地区大地热流的主要来源,解决了区域热源的基本问题,可为区域地热资源的研究提供基础背景。本文基于我国近年来开展的区域热流测量和深孔测温工作,分析了我国陆区壳幔热流比,并将我国陆区划分为壳源生热高温地热区、幔源生热中低温地热区、壳幔热源平衡低温地热区和壳幔热源平衡中高温地热区4种类型区。其中,壳源生热高温地热区位于藏南、川西、滇西,幔源生热中低温地热区主要位于松辽盆地、华北盆地、长江中下游等我国东部广大地区,壳幔热源平衡中高温地热区分布于东南沿海地区、四川盆地和云贵高原,西北广大内陆地区则属于壳幔热源平衡低温地热区。在此基础上,选择青藏高原东北部、腾冲地区、东南沿海和华北盆地等典型地热区,系统分析了区域地温场特征、热流分布、地壳热结构等盆地尺度的区域热状态和主控因素。青藏高原增厚地壳中的低速体构成了以壳源热为主的高热流异常;腾冲地区深部以局部岩浆囊形式存在的岩浆,则构成了以其为代表的近代火山区地热系统的主要控热要素;东南沿海大面积分布的高产热岩体生热构成了热流中重要的热流分量,而以华北盆地为代表的盆地基底起伏和深大断裂则控制了盆地“坳中凸”地热异常区的地温分布。最后,总结了包括壳幔架构、构造热事件、地层岩性、断裂构造等影响区域热状态的深部浅部因素,建立了控制我国陆区区域热状态的多级要素体系,为不同地区地热资源勘查和热源条件分析提供了科学依据。 展开更多
关键词 大地 壳幔流比 地温场特征 控热因素
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Morphology and controlling factors of the longitudinal profile of gullies in the Yuanmou dry-hot valley 被引量:3
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作者 DING Lin QIN Fa-chao +6 位作者 FANG Hai-dong LIU Hui ZHANG Bin SHU Cheng-qiang DENG Qing-chun LIU Gang-cai YANG Qian-qian 《Journal of Mountain Science》 SCIE CSCD 2017年第4期674-693,共20页
The morphology of the gully longitudinal profile (GLP) is an important topographic index of the gully bottom associated with the evolution of the gullies. This index can be used to predict the development trend and ... The morphology of the gully longitudinal profile (GLP) is an important topographic index of the gully bottom associated with the evolution of the gullies. This index can be used to predict the development trend and evaluate the eroded volumes and soil losses by gullying. To depict the morphology of GLP and understand its controlling factors, the Global Positioning System Real-time Kinematic (GPS RTK) and the total station were used to measure the detail points along the gully bottom of 122 gullies at six sites of the Yuanmou dry-hot Valley. Then, nine parameters including length (Lt), horizontal distance (Dh), height (H), vertical erosional area (A), vertical curvature (Co), concavity (Ca), average gradient (Ga), gully length-gradient index (GL), normalized gully length-gradient index (Ngl), were calculated and mapped using CASS, Excel and SPSS. The results showed that this study area is dominated by slightly concave and medium gradient GLPs, and the lithology of most gullies is sandstone and siltstone. Although different types of GLPs appear at different sites, all parameters present a positively skewed distribution. There are relatively strong correlations between several parameters: namely Lt and H, Dh and H, Lt and A, Dh and A, H and GL. Most GLPs, except three, have a best fit of exponential functions with quasi- straight shapes. Soil properties, vegetation coverage, piping erosion and topography are important factors to affect the GLP morphology. This study provides useful insight into the knowledge of GLP morphology and its influential factors that are of critical importance to prevent and control gully erosion. 展开更多
关键词 Gully longitudinal profile Morphological characteristics Soil erosion Gully erosion Controlling factors Dry-hot valley
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Controlling factors for gas hydrate occurrence in Shenhu area on the northern slope of the South China Sea 被引量:11
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作者 WANG HongBin YANG ShengXiong +3 位作者 WU NengYou ZHANG GuangXue LIANG JinQiang CHEN DuoFu 《Science China Earth Sciences》 SCIE EI CAS 2013年第4期513-520,共8页
Temperature and pressure on seafloor of the northern slope in the South China Sea are suitable for gas hydrate formation, but bottom simulation reflector (BSR), an indication of gas hydrate occurrence, only occurred i... Temperature and pressure on seafloor of the northern slope in the South China Sea are suitable for gas hydrate formation, but bottom simulation reflector (BSR), an indication of gas hydrate occurrence, only occurred in limited areas of the slope. Drillings in the BSR-distributed area (the District S) on the northern slope of the South China Sea suggested that gas hydrate only occurred at Sites SH2, SH3, and SH7 with high saturation (up to 20%-40%), and there is no hydrate at Sites SH1 and SH5 although the distance between SH1 to SH3 is only 500m. In this paper, we investigated seafloor gradient, fault development, temperature, and pressure in the District S on the northern slope of the South China Sea to understand the possible factors con- trolling BSR distribution and gas hydrate occurrence. The District S is a structurally fractured continental slope zone and its seafloor gradient varied greatly. The BSR-occurred areas have an average gradient of 19.89×10 2 whereas the BSR-free zone has the average gradient of 10.57×10 2 . The calculated relative structural intensities from fault densities and displacements show that the BSR-distributed areas tend to occur in the areas with a moderately high structural intensity, where faults frequently developed close to the seafloor that are possibly favored for lateral migration of gases. On the basis of temperatures and pressures at drilling sites, hydrate-occurred Sites SH2, SH3, and SH7 are located within the thermodynamically stable area for methane hydrate, and hydrate-absent Sites SH1 and SH5 are out of the thermodynamically stable area for methane hydrate formation, suggesting that both BSR and the thermodynamic stability are necessary for hydrate occurrence in the subsurface. 展开更多
关键词 controlling factors BSR distribution gas hydrate occurrence seafloor gradient structural intensity T-P condition
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