W/O emulsions generated by heavy oil in porous medium and its effect on re-emulsification

•The W/O emulsion generation and its influence on re-emulsification was analyzed.•Generation of W/O emulsion during entrapment and water flooding were simulated.•Influencing factors on W/O emulsions emulsification state were analyzed.•Re-emulsification process of W/O emulsion and surfactant solution...

Full description

Saved in:
Bibliographic Details
Published in:Fuel (Guildford) 2022-02, Vol.310, p.122344, Article 122344
Main Authors: Liu, Jianbin, Zhong, Liguo, Lyu, Chaohui, Liu, Yigang, Zhang, Shoujun
Format: Article
Language:English
Subjects:
Dehydration
Droplets
Emulsification
Emulsions
Entrapment
Flooding
Fluidity
Heavy oil
Moisture content
Oil
Oil and gas fields
Oil fields
Oil recovery
Oil reservoirs
Permeability
Porous media
Porous medium
R&D
Re-emulsification
Research & development
Shearing
Size distribution
Steam
Surfactants
Viscosity
W/O emulsion
W/O/W emulsion
Water content
Water flooding
Water flow
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•The W/O emulsion generation and its influence on re-emulsification was analyzed.•Generation of W/O emulsion during entrapment and water flooding were simulated.•Influencing factors on W/O emulsions emulsification state were analyzed.•Re-emulsification process of W/O emulsion and surfactant solution was simulated. Water/hot water flooding and steam stimulation are usually used for heavy oil recovery. However, W/O emulsions are generated when heavy oil and water flow in porous medium of formations, which can seriously restrict the recovery effect in the middle or late stage. First, the influence of the W/O emulsion on efficient heavy oil recovery is analyzed by the production dynamics and produced fluid emulsified states of oilfields. Then, the W/O emulsion generation process during heavy oil entrapment and water flooding recovery was simulated. The effects of permeability, porous medium shearing distance and heavy oil viscosity on the emulsified state of W/O emulsions were studied. The properties of W/O emulsions were tested. Before reaching the final emulsified state, the lower the permeability and the longer the porous medium shearing distance, the more fully emulsified of the W/O emulsion. In the final emulsified state, the droplet sizes of the W/O emulsions generated by different viscosities of heavy oil are basically the same at the same water content. As the water content increases, the W/O emulsion droplet size grows first, then tends to stabilize, and finally stabilizes at between 2 and 3 μm. The viscosity of the W/O emulsion increases as water content increases and its viscosity increases significantly at high water contents. The lower the viscosity of dehydrated heavy oil is, the greater the increase of the viscosity of W/O emulsion increase. The viscosity of 70% the water content W/O emulsion is more than 15 times that of the dehydrated heavy oil. Finally, the effects of the water content, surfactant concentration, oil–water ratio on the emulsified state, droplet size distribution and its fluidity in porous medium were studied by simulating the re-emulsification process of W/O emulsion and surfactant solution. A W/O/W emulsion would formed by re-emulsification of the W/O emulsion and surfactant solution. As the water content of W/O emulsion increases, the droplet size of the W/O/W emulsion formed by re-emulsification increases, and its fluidity in porous medium decreases. The average emulsion droplet size (50% water content) after re-emulsificat
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2021.122344