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海底天然气水合物的饱和度预测技术 被引量:8

Methods of Predicting Saturation of Natural Gas Hydrate within Submarine Sediments
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摘要 海底天然气水合物的储量主要取决于水合物的分布面积、水合物稳定带的厚度、沉积层的孔隙度及水合物的饱和度 (或充填率 )等 ,其中水合物在沉积物孔隙中的饱和度对其储量的估计具有重要意义。目前很难通过原地直接测量来获得这种饱和度数据 ,一般根据地球化学或地球物理方法取得。水合物饱和度预测技术主要有 :利用岩心孔隙水氯离子浓度、地球物理测井、地震波速度等间接手段。每一种技术都不是完善的 ,而海底含水合物的沉积物又是一个复杂的系统 ,在预测中应根据实际情况选择比较合适的方法 。 Accurately predicting the saturation of the gas hydrate within submarine sediments is one of the critical issues for reserves calculation. At present time, the data of the saturation is hard to gain at the place by a direct measure so that they are still predicted by usual geochemical and geophysical methods, which mainly include the measuring of concentration of chlorine ion in pore water from sediment cores, the geophysical well-logging, and the seismic wave velocity. Not each of them is faultless for using to the complicated submarine sediments system so that an appropriate one of them should be applied to predict it and more than one of models should be selected to correlate according to actual conditions.
作者 甘华阳 王家生 陈建文 龚建明
机构地区 中国地质大学 青岛海洋地质研究所
出处 《海相油气地质》 2004年第1期111-115,共5页 Marine Origin Petroleum Geology
基金 中国地质调查局天然气水合物资源勘查及开发技术研究项目 (YH118) 国家海洋局海底科学重点实验室开放基金 (批准号 :2 0 0 3 -3 ) 国家自然科学基金 (批准号 :40 2 72 0 5 2 )联合资助项目
关键词 海底天然气水合物 饱和度预测 储量 地球物理测井 Natural gas hydrate, Saturation, Prediction technique, Concentration of chlorine ion, Geophysical logging, Seismic wave velocity
分类号 P618.130.27 [天文地球—矿床学]
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参考文献22

  • 1Kvenvolden K A, Lorenson T D.The globle occurrence of natural gas hydrate. In: Paull C K, Dillon W P eds Natural Gas Hydrate: Occurrence, Distribution and Detection. Washington D.C.: American Geophysical Union, 2001 :3-18
  • 2王家生,王家生,E.Suess.天然气水合物伴生的沉积物碳、氧稳定同位素示踪[J].科学通报,2002,47(15):1172-1176. 被引量:28
  • 3Hesse R. Pore water anomalies of submarine gas-hydrate zones as tool to assess hydrate abundance and distribution in the subsurface-What have we learned in the past decade?. Earth-Science Review. 2003, 61:149-179
  • 4Yuan T, Hyndman R D, Spence G D, et al. Seismic velocity increase and deep-sea gas hydrate concentration above a bottom-simulation reflector on the northern Cascadia continental slope. Journal of Geophysical Research, 1996, 101:13655-13671
  • 5Lu S, McMechan G A. Estimation of gas hydrate and free gas saturation, concentration, and distribution from seismic data,Geophysics, 2002, 67 (2): 582-593
  • 6Paull C K, Matsumoto R, Wallace P, et al. Proceeding of Ocean Drilling Program, Initial Reports. College Station, TX,2000, 164:623
  • 7Egeberg P, Dickens G R. Thermodynamic and pore water halogen constraints on gas hydrate distribution at ODP Site 997Blake ridge. Chemical Geology, 1999, 153:53-79
  • 8Erik S. Modeling of the influence of gas hydrate content on the electrical properties of porous sediments. Journal of Geophysical Research, 2001, 106(B4): 6535-6548
  • 9Collett T S, Ladd J. Detection of gas hydrate with downhole logs and assessment of gas hydrate concentrations (saturations)and gas volumes on the Blake ridge with electrical resistivity log data. In: Paull C K, Matsumoto R, Wallace P J, et al. Proceeding of Ocean Drilling Program, Scientific Results. College Station, TX, 2000, 164:199-212
  • 10Person C F, Halleck P M, McGuire P L,et al. Natural gas hydrate deposits: a review of in-situ properties. Journal of Geophysical Research , 1983, 87:4180-4185

二级参考文献6

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同被引文献170

引证文献8

二级引证文献110

海相油气地质
2004年 第1期

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