Guangmeng Zhu scite author profile

With the exploitation of light oil approaching saturation, the exploitation of heavy oil is of particular importance. Thermal recovery technology is typically used in heavy oil recovery, such as steam flooding (SF), steam‐assisted gravity drainage, and cyclic steam stimulation. However, SF technology brings problems such as gravity overlap, viscous fingering, and channeling, reducing the sweep efficiency and oil recovery efficiency. Some studies have proposed that foam and steam should be injected into the reservoir together to plug, turn, and reduce viscosity. Heavy oil production occurs mostly under high‐temperature conditions, which require that the foaming agents have good foaming ability in this environment. The generated foam should have good stability. Meanwhile, the mechanism of steam foam enhancing oil recovery (EOR) also changes. Therefore, the research on the mechanism and application of steam foam technology is discussed. First, the basic theory of foam is introduced, and the research on the mechanism of steam foam EOR is discussed. Second, the application of steam foam in the laboratory and the field is summarized. Finally, the full text is summarized and some prospects are made, to provide some help for future research.

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A review on the role of hydrogen donors in upgrading heavy oil and bitumen

Zhao

Zhu

et al. 2022

Sustainable Energy Fuels

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Study on the application of a steam-foam drive profile modification technology for heavy oil reservoir development

Liu

Zhao

et al. 2021

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This paper introduces a steam-foam drive profile modification technology for heavy oil development in Block Qi40 based on an in-depth study of the characteristics of heavy oil reservoir and cross flow characteristics of injected steam in Block Qi40 of Liaohe Oilfield. The performance evaluation was carried out indoors for foaming agents. Influencing factors affecting profile modification and foam injection mode selection are studied. The results show that the CX-4 foaming agent system has excellent foaming properties and foam stability at 300°C. The plugging pressure difference of core can be increased by more than 15 times at 240°C. When a 0.5 PV foaming agent system is injected, the oil displacement efficiency can reach more than 68%. The optimal concentration of the foaming agent is 0.5% and the change of resistance factor is the largest in the range of oil saturation between 15 and 20%. Foam has better plugging ability in high permeability and large pores. Furthermore, after field application effect analysis, it confirms that the steam-foam profile modification technology has an obvious effect on enhancing oil recovery.

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Feasibility study on further enhanced oil recovery by ISC of remaining oil after polymer flooding

et al. 2022

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Guangmeng Zhu

A review on upgrading and viscosity reduction of heavy oil and bitumen by underground catalytic cracking

A Review of High‐Temperature Foam for Improving Steam Flooding Effect: Mechanism and Application of Foam

A review on the role of hydrogen donors in upgrading heavy oil and bitumen

Study on the application of a steam-foam drive profile modification technology for heavy oil reservoir development

Feasibility study on further enhanced oil recovery by ISC of remaining oil after polymer flooding

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