Fine quantitative characterization of high-H2S gas reservoirs under the influence of liquid sulfur deposition and adsorption

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2024-04-01 DOI:10.1016/S1876-3804(24)60033-9
Tong LI , Yongsheng MA , Daqian ZENG , Qian LI , Guang ZHAO , Ning SUN
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Abstract

In order to clarify the influence of liquid sulfur deposition and adsorption to high-H2S gas reservoirs, three types of natural cores with typical carbonate pore structures were selected for high-temperature and high-pressure core displacement experiments. Fine quantitative characterization of the cores in three steady states (original, after sulfur injection, and after gas flooding) was carried out using the nuclear magnetic resonance (NMR) transverse relaxation time spectrum and imaging, X-ray computer tomography (CT) of full-diameter cores, basic physical property testing, and field emission scanning electron microscopy imaging. The loss of pore volume caused by sulfur deposition and adsorption mainly comes from the medium and large pores with sizes bigger than 1 000 μm. Liquid sulfur has a stronger adsorption and deposition ability in smaller pore spaces, and causes greater damage to reservoirs with poor original pore structures. The pore structure of the three types of carbonate reservoirs shows multiple fractal characteristics. The worse the pore structure, the greater the change of internal pore distribution caused by liquid sulfur deposition and adsorption, and the stronger the heterogeneity. Liquid sulfur deposition and adsorption change the pore size distribution, pore connectivity, and heterogeneity of the rock, which further changes the physical properties of the reservoir. After sulfur injection and gas flooding, the permeability of Type I reservoirs with good physical properties decreased by 16%, and that of Types II and III reservoirs with poor physical properties decreased by 90% or more, suggesting an extremely high damage. This indicates that the worse the initial physical properties, the greater the damage of liquid sulfur deposition and adsorption. Liquid sulfur is adsorbed and deposited in different types of pore space in the forms of flocculence, cobweb, or retinitis, causing different changes in the pore structure and physical property of the reservoir.

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液态硫沉积和吸附作用下高 H2S 气藏的精细定量表征
为了阐明液态硫沉积和吸附对高H2S气藏的影响,选择了三种具有典型碳酸盐孔隙结构的天然岩心进行高温高压岩心置换实验。利用核磁共振(NMR)横向弛豫时间谱和成像、全直径岩心的 X 射线计算机断层扫描(CT)、基本物理性质测试和场发射扫描电子显微镜成像,对三种稳定状态(原始状态、注硫后状态和充气后状态)下的岩心进行了精细的定量表征。硫沉积和吸附造成的孔隙体积损失主要来自尺寸大于 1 000 μm 的中孔和大孔。液态硫在较小孔隙中的吸附和沉积能力较强,对原始孔隙结构较差的储层造成的破坏较大。三种碳酸盐岩储层的孔隙结构呈现多种分形特征。孔隙结构越差,液硫沉积和吸附引起的内部孔隙分布变化越大,异质性越强。液硫沉积和吸附改变了岩石的孔隙大小分布、孔隙连通性和异质性,从而进一步改变了储层的物理性质。注硫和气淹后,物性好的Ⅰ型储层渗透率下降了 16%,物性差的Ⅱ型和Ⅲ型储层渗透率下降了 90% 或更多,表明损害程度极高。这表明,初始物理性质越差,液态硫沉积和吸附的破坏就越大。液态硫以絮凝、蛛网或网膜炎等形式吸附和沉积在不同类型的孔隙空间中,导致储层孔隙结构和物理性质发生不同的变化。
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来源期刊
CiteScore
11.50
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0.00%
发文量
473
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