Modeling on Gas Hydrate Formation Conditions in the Qinghai-Tibet Plateau Permafrost
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Based on the field-investigated gas geochemistry, the modeling of gas hydrate formation conditions in the Qinghai-Tibet plateau permafrost (QTPP) was conducted in this article.Abstract:
Based on the field-investigated gas geochemistry, the modeling of gas hydrate formation conditions is conducted in the Qinghai-Tibet plateau permafrost (QTPP) in combination with predecessors' data such as the permafrost ground temperature (T0), the thermal gradient within the frozen layer (G1) and the thermal gradient below the frozen layer (G2). The modeled results show that the permafrost characteristics generally meet the requirements for gas hydrate formation conditions in the study area. Gas composition, temperaturerelated permafrost parameters (e.g. T0,G1,G2) are the most important factors affecting gas hydrate formation conditions in the study area, whose spatial variations may cause the heterogeneity of gas hydrate occurrences. The most probable gas composition to form gas hydrate is the hybrid of methane and weight hydrocarbon gases (ethane and propane). In the predicted gas hydrate locations, the minimal upper depth of gas hydrate occurrence is less than one hundred meters and the maximum lower depth can reach one thousand meters with the thickness up to several hundred meters. Compared with Canadian Mallik gas hydrate field, the QTPP is favorable for gas hydrate formation in aspects of G1, G2 and gas composition, except for relatively thin permafrost, still suggesting great gas hydrate potentials.read more
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Application of fracturing technology to increase gas production in low-permeability hydrate reservoir: A numerical study
TL;DR: In this article, a new combination of fracturing technology and depressurization method was proposed to evaluate the gas production potential at the site DK-2 in Qinghai-Tibet Plateau Permafrost.
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Abundance and Diversity of Ammonia-Oxidizing Bacteria and Archaea in Cold Springs on the Qinghai-Tibet Plateau
Chao Peng,Hongchen Jiang,L Iuqin Huang,Weiguo Hou,J Ian Yang,Shang Wang,Qiuyuan Huang,Shicai Deng,Hailiang Dong +8 more
TL;DR: The terrestrial origin and high level of dissolved oxygen of the cold springs may be the main factors accounting for the observed differences in AOB and AOA populations between the QTP cold springs and marine cold seeps.
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Research prospect and suggestions of gas hydrates in permafrost regions on the qinghai tibet plateau
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Numerical Investigation into the Gas Production from Hydrate Deposit under Various Thermal Stimulation Modes in a Multi-Well System in Qilian Mountain.
TL;DR: In this paper, the energy recovery performance of the permafrost hydrate deposit in the Qilian Mountain at site DK-2 using depressurization combined with thermal injection by the approach of numerical simulation was investigated.
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Numerical Simulation of the Change of Gas Hydrate Layer of Qinghai-Tibet Plateau in Global Warming Situation
TL;DR: In this article, the authors used finite element method to solve the heat conduction equation and used 0.02 and 0.052 °C/year as temperature rising rate (Gt) to get the change of gas hydrate layer of Qinghai-Tibet Plateau (QTP) in global warming situation.
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