Longhao Zhao scite author profile

Longhao Zhao

5Publications

2Citation Statements Received

38Citation Statements Given

How they've been cited

How they cite others

169

Affiliations

Qingdao University of Science and Technology, China University of Petroleum, Beijing

Publications

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Influence of Nanoemulsion Droplet Size of Removing Water Blocking Damage in Tight Gas Reservoir

Zhou

Wang

et al. 2022

Energies

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During the production process, water phase incursion into the reservoir causes water blocking damage and seriously affects the production of tight gas reservoirs. Recently, nanoemulsions have been used as highly effective water blocking removing agents in the field, but their mechanism is still unclear. In this research, a series of nanoemulsions with different droplet sizes were synthesized, and their water blocking removing performance was intensively investigated. To begin, the relationship between the droplet size and the chemical composition of the nanoemulsion was determined by dynamic light scattering. Second, the influence of the nanoemulsion droplet size on the surface tension and the contact angle experiments was studied. Finally, NMR and permeability recovery experiments were used to study the relationship between the droplet size and the water locking removing effect of the nanoemulsions. Simultaneously, the surfactant release process was investigated using the static adsorption curves of the nanoemulsions. The experimental results show that the droplet size of nanoemulsion has an exponential relationship with the oil phase content. The surface tension decreases with the increase in droplet size, but the wetting reversal effect decreases with the increase in droplet size. The nanoemulsion with an oil phase content of 5 wt.% has the best water locking removing effect, and the permeability recovery value of the core reaches 59.54%. The adsorption control of the nanoemulsion on the surfactant is the key to its water blocking removing ability. This comprehensive study shows that the nanoemulsion with an oil phase content of 5 wt.% has optimum adsorption control capability. Thus, it can be used as a promising candidate for removing water blocking in tight gas reservoirs.

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High-Temperature-Resistant, Low-Concentration Water-Controlling Composite Cross-Linked Polyacrylamide Weak Gel System Prepared from Oilfield Sewage

Yao

et al. 2022

ACS Omega

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The polyacrylamide weak gel is an effective system to block a high-permeability layer, realize water control, and enhance oil recovery. However, its application is limited by poor temperature resistance and high polymer dosage. In this paper, an inorganic–organic composite cross-linking agent was synthesized by using Cr(III) and phenolic resin. The composite cross-linking agent can cross-link low concentrations of polyacrylamide to obtain a high-temperature-resistant weak gel system in oilfield sewage. By adjusting the ratio of Cr(III), phenolic resin, and polyacrylamide, an optimum formula MF-7 can be obtained according to the gel strength. Results from evaluation experiments show that the strength of MF-7 can reach H grade even at polyacrylamide concentrations as low as 0.3%. The temperature resistance of the weak gel system is up to 100 °C, and no syneresis occurs after 330 h at 95 °C. Scanning electron microscopy (SEM) results show that MF-7 has a three-dimensional network structure with spherical nodes. The spherical node is composed of polyacrylamide, and its structure size is completely matched with the hydrodynamic radius of the used polyacrylamide. When combined with the network structure formed by Cr(III), the dense cross-linking network structure with nodes can greatly improve the strength and thermal stability of the gel system. The higher the molecular weight of the polyacrylamide used, the higher the strength of the gel obtained. Overall, the composite cross-linking agent can synergistically improve the mechanical properties of the gel, and this weak gel system formed by oilfield sewage is more economical and tolerant.

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Characteristic of Pore Structure and Flow Property in Sandstones Based on Low Field Nuclear Magnetic Resonance

Xia

Cheng²,

Zhao³

et al. 2023

J Por Media

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Surface relaxivity is the most significant parameter that converts transverse relaxation time into pore size in porous media. However, the value of surface relaxivity is difficult to obtain. This paper focuses on measuring surface relaxivity to evaluate permeability of two types of sandstones (loose sandstone and tight sandstone), combining the high-speed centrifugation with nuclear magnetic resonance test. The results reveal the surface relaxivities for loose sandstones (1.89-2.20 μm/s) are larger than that for tight sandstones (0.69-0.87 μm/s). The measured surface relaxivity is consistent with that from the method of monolayer water adsorption. During centrifugation, the variation of water content is analyzed, including the pore with different size categories. Based on the measured surface relaxivity, the Schlumberger doll research model is used to estimate the absolute permeability of sandstones.

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A hydrophilic polymer based on alkoxyl chain modified fluorene: the novel fluorescence colorimetric sensor for Fe³⁺, Fe²⁺, and Cu²⁺ in aqueous media

et al. 2023

Journal of Macromolecular Science, Part A

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Luminescent dual-network hydrogels based on terpyridine-Eu(III) supramolecular coordination: Fluorene as antenna

Liu

et al. 2023

Dyes and Pigments

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Longhao Zhao

Influence of Nanoemulsion Droplet Size of Removing Water Blocking Damage in Tight Gas Reservoir

High-Temperature-Resistant, Low-Concentration Water-Controlling Composite Cross-Linked Polyacrylamide Weak Gel System Prepared from Oilfield Sewage

Characteristic of Pore Structure and Flow Property in Sandstones Based on Low Field Nuclear Magnetic Resonance

A hydrophilic polymer based on alkoxyl chain modified fluorene: the novel fluorescence colorimetric sensor for Fe³⁺, Fe²⁺, and Cu²⁺ in aqueous media

Luminescent dual-network hydrogels based on terpyridine-Eu(III) supramolecular coordination: Fluorene as antenna

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Longhao Zhao

Influence of Nanoemulsion Droplet Size of Removing Water Blocking Damage in Tight Gas Reservoir

High-Temperature-Resistant, Low-Concentration Water-Controlling Composite Cross-Linked Polyacrylamide Weak Gel System Prepared from Oilfield Sewage

Characteristic of Pore Structure and Flow Property in Sandstones Based on Low Field Nuclear Magnetic Resonance

A hydrophilic polymer based on alkoxyl chain modified fluorene: the novel fluorescence colorimetric sensor for Fe3+, Fe2+, and Cu2+ in aqueous media

Luminescent dual-network hydrogels based on terpyridine-Eu(III) supramolecular coordination: Fluorene as antenna

Contact Info

Product

Resources

About

A hydrophilic polymer based on alkoxyl chain modified fluorene: the novel fluorescence colorimetric sensor for Fe³⁺, Fe²⁺, and Cu²⁺ in aqueous media