Abstract
Shale oil is an unconventional kind of oil and gas resource with great potential. China has huge reserves of shale oil, and shale oil resources are abundant in the third submember of the Triassic Chang 7 member in the southern Ordos Basin. At present, this area is in the initial stage of shale oil exploration and development. The reservoir pore is one of the key factors affecting oil accumulation, drilling safety, and oil production. It is also an important reservoir parameter that must be defined in the exploration stage. In general, the clay content in the shale section is high, and is prone to hydration. In order to study the effect of fluid on the pore type, structure, and distribution of shale oil reservoirs, experiments using X-ray diffraction, a porosity–permeability test, mercury porosimetry, rock casting thin section, and scanning electron microscopy were carried out. The experimental results show that the content of clay and quartz is very high in the studied formation. The pore porosity and permeability of the rock is highly heterogeneous because of the obvious stratigraphic bedding and interbeds. Microstructural observation of rocks shows that the main pore types are intergranular pores, intragranular pores, intercrystalline pores, and organic pores. Crack types are dissolution cracks, contraction cracks of organic matter, and abnormal pressure structural cracks. After hydration, the porosity of rock will increase in varying degrees, and pore size, pore content in different sizes, and pore structure will also change. The results show that the pores of tuff mainly changes at the initial stage of hydration, and the pore change of tuff is the most obvious within 6 hours of soaking in clear water. The influence of hydration on the pore of shale is greater than that of tuff, but the main change stage is later than tuff, and the pore change of shale is the most obvious within 12 to 24 hours of soaking in clear water. The soaking experiment of water-based drilling fluid (WBM-SL) shows that it can plug a certain size of holes and cracks and form a protective layer on the rock surface, thus effectively reducing hydration. In actual construction, multisized solid particles should be allocated in drilling fluid according to the formation pore’s characteristics, and the stability of the protective layer should be guaranteed. This can reduce the accident of well leakage and collapse and is conducive to the efficient and safe development of shale oil.
Highlights
Shale oil is a kind of unconventional oil and gas resource with great potential
Small core columns were prepared for porosity and permeability testing, slices of rock were prepared for optical microscopic observation, microscale square cores were prepared for scanning electron microscopy (SEM), and rock cuttings were prepared for a mercury porosimetry test
This study provides support for the design of water-based drilling fluid in shale oil reservoir drilling process from the characteristics of pore hydration
Summary
Shale oil is a kind of unconventional oil and gas resource with great potential. Its large potential reserves and wide distribution have attracted increasing attention. China is rich in shale oil resources and has the third largest recoverable shale oil resources in the world. A few shale oil reservoirs have successfully produced shale oil, but there are still some problems that lead to the inability of large-scale and effective development of shale oil in China [1,2]. The goal of shale oil exploration is to locate the reservoir “sweet spot” and achieve high production in the initial stage and stable production in subsequent stages. Shale oil in China is mostly located in continental basins with complex geological environments
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