南海北部神狐海域天然气水合物沉积模式研究

IF 1.6 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Su Zheng, C. Yun-Cheng, Y. Rui, Wu Nengyou, Chen Duo-fu, Yang Sheng-xiong, Wang Hong-bin
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引用次数: 8

摘要

位于南海北部陆坡的神狐海域被认为是天然气水合物勘探开发的有利区域。其特殊的水合物赋存状态使得目前很难用沉积速率和流体流动条件来解释和定量描述其形成机理。其形成、演化模式及控制因素尚不清楚。本文建立了以沉降速率和流体水流速率为控制参数的水合物成藏动态模型。利用该模型模拟了神狐地区的水合物成藏过程,并用盐度反演的饱和度数据进行了验证。最后,通过对申狐地区构造活动和水合物成藏动态的调查,建立了申狐地区水合物形成模式。该模式表明,神虎水合物是由晚上新世—早更新世晚期构造活动形成的水合物发育而成。神狐地区天然气水合物形成具有典型的二元模式。在第一阶段,水合物在构造活动形成的裂缝性沉积物中生长。5 Ma。水流量高达50 m/ka,大量的甲烷气体被带入水合物稳定带,导致水合物快速形成。40 ka时水合物饱和度达到20%。在接下来的第二阶段1。5 Mas,由于粘土粉砂的沉积,沉积物的渗透性急剧降低。流体通量为0。7 m/ka,甲烷供应不足。因此,水合物不能在浅层沉积物中形成,只能在水合物稳定带的基础上缓慢生长,形成了目前神狐地区观测到的水合物赋存特征。水合物资源量也在不断减少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on the formation model of gas hydrate deposits in the Shenhu Area,northern South China Sea
The Shenhu area on the northern continental slope of the South China Sea is considered as a promising target for gas hydrate exploration and exploitation. Its special hydrate occurrence makes it difficult to explain and quantitatively describe its formation mechanism by using the deposition rates and fluid flow conditions at present. Its formation evolution mode and controlling factors are unclear yet. In this paper a dynamic model for the hydrate accumulation is constructed with two controlling parameters, i.e. the sedimentation rate and fluid water flow rate. The model is used to simulate the hydrate accumulation in the Shenhu area and testified with saturation data derived from salinity. Finally, a hydrate formation pattern in the Shenhu area is built based on the investigation of tectonic activities and the dynamics of hydrate accumulation in the area. The model indicates that Shenhu hydrates were developed from the hydrates formed in late tectonic activities during the late Pliocene Epoch-early Pleistocene Epoch. The gas hydrate formation in the Shenhu area has a typical dual pattern. In the first stage the hydrate grew in fractured sediments formed by tectonic activities 1. 5 Ma. The water flow rate was up to 50 m/ka, and abundant methane gas was carried into the hydrate stability zone and led to a rapid hydrate formation. The hydrate saturation went up to 20% in the duration of 40 ka. In the second stage of the following 1. 5 Mas, permeability of the sediment reduced sharply due to the sedimentation of clay silts. Fluid flux was 0. 7 m/ka and methane supply was inadequate. Thus hydrates could not form in shallow sediments and only grew slowly on the base of the hydrate stability zone, and then formed the feature of hydrate occurrence observed currently in the Shenhu area. And also the resource amount of hydrate continued reducing.
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来源期刊
地球物理学报
地球物理学报 地学-地球化学与地球物理
CiteScore
3.40
自引率
28.60%
发文量
9449
审稿时长
7.5 months
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