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CHINA'S CURRENT NATURAL GAS RESOURCES
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《China Oil & Gas》 CAS 1999年第2期84-85,共2页
关键词 gas CHINA’S CURRENT natural gas resourceS
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ACHIEVEMENTS MADE IN PROSPECTING OFCHINA'S NATURAL GAS RESOURCES IN PAST DECADE
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《China Oil & Gas》 CAS 1997年第1期12-12,共1页
关键词 gas ACHIEVEMENTS MADE IN PROSPECTING OFCHINA’S natural gas resourceS IN PAST DECADE
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Types,Concentration,Diffusion and Spatial Structure Evolution of Natural Gas Resource Flow in China
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作者 王宜强 赵媛 许昕 《Journal of Resources and Ecology》 CSCD 2016年第1期12-20,共9页
This paper analyzed the development of different types of natural gas flow zones in China, and then di- vided all provinces into four flow types: non-flow zones, output centers, input centers and exchanging centers. ... This paper analyzed the development of different types of natural gas flow zones in China, and then di- vided all provinces into four flow types: non-flow zones, output centers, input centers and exchanging centers. Next, we analyzed the concentration and diffusion characteristics, current spatial pattern and evolution of source and terminal regions of natural gas resource flows. The numbers of non-flow zones, output centers, input centers and exchanging centers all stabilized during the Eleventh Five-Year Plan period. The number of output centers is small but the quantity of flow is large. The number of input centers is large and they are widely distributed. Generally speaking, it presents a significant characteristic of centralized output and dispersed input in geographic space. The current situation for China's natural gas output source has random distribution characteristics, but the terminal re- gions of natural gas flow have strong positive spatial correlation, presenting a significant spatial agglomeration pattern. Shandong, Jiangsu, Zhejiang and Shanghai have a high-high agglomeration mode, but Yunnan, Sichuan, Tibet, Qinghai and Gansu have a low-low agglomeration output zones had three different stages: relatively stable mode. Spatial pattern changes in China' s natural gas from 2001-2003; moved northwestward, expanded in space, and widely dispersed during 2004-2006; and transferred to the east, spatially contracted and significantly concentrated during 2007-2011. Spatial pattern changes in China's natural gas input zones have two stages: ex- panded in east-west direction while contracted in north-south direction during 2001-2005; and relatively stable in spatial structure with intensification from 2006-2011. 展开更多
关键词 natural gas resources flow types concentration and diffusion China
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Evaluation of natural gas hydrate resources in the South China Sea using a new genetic analogy method 被引量:3
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作者 Xiao-Han Liu Tao Hu +5 位作者 Xiong-Qi Pang Zhi Xu Tong Wang Xing-Wen Zhang En-Ze Wang Zhuo-Ya Wu 《Petroleum Science》 SCIE CAS CSCD 2022年第1期48-57,共10页
Natural gas hydrate(NGH)has attracted much attention as a new alternative energy globally.However,evaluations of global NGH resources in the past few decades have casted a decreasing trend,where the estimate as of tod... Natural gas hydrate(NGH)has attracted much attention as a new alternative energy globally.However,evaluations of global NGH resources in the past few decades have casted a decreasing trend,where the estimate as of today is less than one ten-thousandth of the estimate forty years ago.The NGH researches in China started relatively late,but achievements have been made in the South China Sea(SCS)in the past two decades.Thirty-five studies had been carried out to evaluate NGH resource,and results showed a flat trend,ranging from 60 to 90 billion tons of oil equivalent,which was 2-3 times of the evaluation results of technical recoverable oil and gas resources in the SCS.The big difference is that the previous 35 group of NGH resource evaluations for the SCS only refers to the prospective gas resource with low grade level and high uncertainty,which cannot be used to guide exploration or researches on development strategies.Based on the analogy with the genetic mechanism of conventional oil and gas resources,this study adopts the newly proposed genetic method and geological analogy method to evaluate the NGH resource.Results show that the conventional oil and gas resources are 346.29×10^(8)t,the volume of NGH and free dynamic field are 25.19×10^(4)km^(3) and(2.05-2.48)×10^(6)km^(3),and the total amount of in-situ NGH resources in the SCS is about(4.47-6.02)×10^(12)m^(3).It is considered that the resource of hydrate should not exceed that of conventional oil and gas,so it is 30 times lower than the previous estimate.This study provides a more reliable geological basis for further NGH exploration and development. 展开更多
关键词 South China Sea natural gas hydrate natural gas hydrate resources Conventional oil and gas resources Genetic method Analogy method
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Analysis of the supply-demand status of China's natural gas to 2020 被引量:6
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作者 MA Yifei LI Yanli 《Petroleum Science》 SCIE CAS CSCD 2010年第1期132-135,共4页
The reserves, distribution, production and utilization of natural gas resources in China are introduced in this paper which leads a point of view that China's natural gas resources are relatively rich while distribut... The reserves, distribution, production and utilization of natural gas resources in China are introduced in this paper which leads a point of view that China's natural gas resources are relatively rich while distributed unevenly. The future production and consumption of China's natural gas are predicted using the Generalized Weng model and the Gray prediction model. The prediction suggests that with the increasing gas consumption China's natural gas production will not meet demand after 2010. In order to ease the supply-demand gap and realize rational development and utilization of China's natural gas resources, this paper puts forward some measures, such as using advanced technologies for natural gas development, establishing a long-distance pipeline network to rationalize the availability of natural gas across China and importing foreign natural gas and liquid natural gas (LNG). 展开更多
关键词 natural gas resources natural gas production natural gas consumption generalized Weng's Model
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Regional Economic Factors for Weighted Evaluation of Onshore Natural Gas in China
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作者 穆献中 冯孝刚 《Journal of Resources and Ecology》 CSCD 2010年第2期164-168,共5页
本文研究了中国陆上天然气经济效用的地质及相关影响因素。主要研究结论如下:天然气勘探开发成本主要与气田(藏)的深度及储盖层的岩性参数相关,开采成本主要受自然地理因素以及相应储层物性参数影响,而气田(藏)丰度、有效厚度、孔隙度... 本文研究了中国陆上天然气经济效用的地质及相关影响因素。主要研究结论如下:天然气勘探开发成本主要与气田(藏)的深度及储盖层的岩性参数相关,开采成本主要受自然地理因素以及相应储层物性参数影响,而气田(藏)丰度、有效厚度、孔隙度、渗透率和气藏类型是影响天然气产量的主要因素。基于上述研究结论,建立了针对投资成本、价格因素和气田经济价值的千米井深日产量计算公式和区域判断标准。根据判别标准,本文分析了中国不同区域且具有指标意义的天然气田(藏)的经济效用,并针对中国天然气产业经济发展提出了相应的结论和建议。 展开更多
关键词 natural gas resources onshore natural gas fields geological factor economic value weighted evaluation China
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The structure of Circum-Tibetan Plateau Basin-Range System and the large gas provinces 被引量:15
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作者 JIA ChengZao LI BenLiang +1 位作者 LEI YongLiang CHEN ZhuXin 《Science China Earth Sciences》 SCIE EI CAS 2013年第11期1853-1863,共11页
Northward subduction of the Cenozoic Tethys ocean caused the convergence and collision of Eurasia-Indian Plates, resulting in the lower crust thickening, the upper crust thrusting, and the Qinghai-Tibet uplifting, and... Northward subduction of the Cenozoic Tethys ocean caused the convergence and collision of Eurasia-Indian Plates, resulting in the lower crust thickening, the upper crust thrusting, and the Qinghai-Tibet uplifting, and forming the plateau landscape. In company with uplifting and northward extruding of the Tibetan plateau, the contractional tectonic deformations persistently spread outward, building a gigantic basin-range system around the Tibetan plateau. This system is herein termed as the Cir- cure-Tibetan Plateau Basin-Range System, in which the global largest diffuse and the most energetic intra-continental defor- mations were involved, and populations of inheritance foreland basins or thrust belts were developed along the margins of an- cient cratonic plates due to the effects of the cratonic amalgamation, crust differentiation, orogen rejuvenation, and basin sub- sidence. There are three primary tectonic units in the Circum-Tibet Plateau Basin-Range System, which are the reactivated an- cient orogens, the foreland thrust belts, and the miniature cratonic basins. The Circum-Tibetan Plateau Basin-Range System is a gigantic deformation system and particular Himalayan tectonic domain in central-western China and is comparable to the Tibetan Plateau. In this system, northward and eastward developments of thrust deformations exhibit an arc-shaped area along the Kunlun-Altyn-Qilian-Longmenshan mountain belts, and further expand outward to the Altai-Yinshan-Luliangshan- Huayingshan mountain belts during the Late Cenozoic sustained collision of Indo-Asia. Intense intra-continental deformations lead ancient orogens to rejuvenate, young foreland basins to form in-between orogens and cratons, and thrusts to propagate from orogens to cratons in successive order. Driven by the Eurasia-Indian collision and its far field effects, both deformation and basin-range couplings in the arc-shaped area decrease from south to north. When a single basin-range unit is focused on, deformations become younger and younger together with more and more simple structural styles from piedmonts to craton in- teriors. In the Circum-Tibetan Plateau Basin-Range System, it presents three segmented tectonic deformational patterns: prop- agating in the west, growth-overthrusting in the middle, and slip-uplifting in the east. For natural gas exploration, two tectonic units, both the Paleozoic cratonic basins and the Cenozoic foreland thrust belts, are important because hydrocarbon in cen- tral-western China is preserved mainly in the Paleozoic cratonic paleo-highs and the Meso-Cenozoic foreland thrust belts, to- gether with characteristics of multiphrase hydrocarbon generation but late accumulation and enrichment. 展开更多
关键词 Circum-Tibet Plateau Basin-Range System Himalayan movement intra-continental deformation tectonic domain natural gas resources
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Accumulation mechanism of mantle-derived helium resources in petroliferous basins, eastern China 被引量:2
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作者 Xiaofeng WANG Quanyou LIU +3 位作者 Wenhui LIU Dongdong ZHANG Xiaofu LI Dong ZHAO 《Science China Earth Sciences》 SCIE EI CAS CSCD 2022年第12期2322-2334,共13页
A series of marginal-sea basins and fault-depression basins were formed in eastern China under the background of subduction of the West Pacific plate.Different types of helium-rich natural gas reservoirs(He>1000 pp... A series of marginal-sea basins and fault-depression basins were formed in eastern China under the background of subduction of the West Pacific plate.Different types of helium-rich natural gas reservoirs(He>1000 ppm,1 ppm=1μmol mol^(-1))have been found in these basins:helium-rich CO_(2)gas reservoirs,helium-rich N_(2)gas reservoirs,and helium-rich hydrocarbon gas reservoirs.Based on the analysis of gas geochemical data,the source and accumulation mechanism of helium in these heliumrich natural gas reservoirs were discussed.Helium-rich natural gas has relatively high 3He/4He ratios(0.88-4.91 Ra,average 2.82 Ra).The ^(3)He/^(4)He ratio characteristics of mantle xenoliths and mantle-derived CO_(2)gas reservoirs indicate that the helium in these helium-rich natural gas reservoirs is mainly mantle-derived(>70%).The original mantle volatile is mainly CO_(2)with a low helium concentration(He<200 ppm),and the enrichment of mantle-derived helium in the gas reservoir is mainly related to the dissolution and mineralization of CO_(2).During this process,the CO_(2)/3He ratio decreases from 2×10^(9)to approximately 2×10^(6).As CO_(2)dissolves and mineralizes,the concentration of conservative gases(He and N_(2))increases in the remaining CO_(2)gas proportionally to the loss of CO_(2).Large amounts of carbonate minerals,such as dawsonite,which are relatively enriched in 13C,are found in CO_(2)reservoirs in eastern China.The relative enrichment of^(12)C in residual CO_(2)gas is important evidence of the dissolution and mineralization of CO_(2).The relative abundance of mantle-derived helium and N_(2)gas increases thousands of times during the dissolution and mineralization of CO_(2),which is the main accumulation mechanism of mantle-derived helium-rich CO_(2)gas reservoirs and helium-rich N_(2)gas reservoirs.Helium-rich gas from the mantle is mixed with alkane gas generated by organic matter in the sedimentary basin to form helium-rich hydrocarbon gas reservoirs. 展开更多
关键词 Mantle-derived helium ^(3)He/4He ratio Helium resources Helium-rich natural gas Accumulation mechanism
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Maintaining Cooperation within Competition:The Inevitable Path of China’s Energy Cooperation in the Middle East
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作者 Xuewen Qian Huanmin Li 《Asian Journal of Middle Eastern and Islamic Studies》 2009年第1期52-65,I0005,共15页
The multi-polarization of political situation creates beneficial conditions for Chinese petroleum corporations to enter foreign market of prospecting and drilling of oil and natural gas resources.Chinese petroleum cor... The multi-polarization of political situation creates beneficial conditions for Chinese petroleum corporations to enter foreign market of prospecting and drilling of oil and natural gas resources.Chinese petroleum corporations should adopt“Outward Expansion”strategy and directly participate in international gaming over the cooperative development and drilling of overseas oil and natural gas resources.On this aspect,the government should not only enhance its macro strategic guidance to Chinese petroleum corporations,but also offer more support by means of preferential policies so as to provide more encouragement to these corporations.Furthermore,the government should strengthen its toughness and intensity on its extension of energy diplomacy.In order to make some achievement in the reform and evolution of geopolitical pattern concerning energy of the world,China should maximize its national interest on energy strategy through“cooperation against the background of competition,”so as to obtain a guarantee on the stable and safe long-term supply of overseas energy for sustained development and smooth rise of China.The model of“Cooperation against the Background of Competition”not only fits for the domestic conditions of China,but also suits the trend of development on the energy market of the world. 展开更多
关键词 Middle East Oil and natural gas resources Chinese Petroleum Corporations COMPETITION COOPERATION
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