Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity

Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity

The low viscosity of pure liquid CO<sub>2</sub> hindered the development of CO<sub>2</sub> fracturing technology. A modified silicone polymer was prepared as a CO<sub>2</sub> thickener to investigate the effect of temperature, pressure, shear rate and thickener co...

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Main Authors: Qiang Li, Yanling Wang, Fuling Wang, Qingchao Li, Forson Kobina, Hao Bai, Lin Yuan
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Polymers
Subjects:
polydimethylsiloxane
CO<sub>2</sub> thickener
CO<sub>2</sub> fracturing technology
oil and gas development engineering
Online Access:https://www.mdpi.com/2073-4360/11/3/540
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spelling doaj-26292801488147d984b8d5e739abc3422020-11-25T00:52:34ZengMDPI AGPolymers2073-43602019-03-0111354010.3390/polym11030540polym11030540Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing CapacityQiang Li0Yanling Wang1Fuling Wang2Qingchao Li3Forson Kobina4Hao Bai5Lin Yuan6College of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaCollege of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaCollege of Science, China University of Petroleum (East China), Qingdao 266580, ChinaCollege of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaCollege of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaCollege of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaCollege of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaThe low viscosity of pure liquid CO<sub>2</sub> hindered the development of CO<sub>2</sub> fracturing technology. A modified silicone polymer was prepared as a CO<sub>2</sub> thickener to investigate the effect of temperature, pressure, shear rate and thickener content (wt.%) on the apparent viscosity and rheology of thickened liquid CO<sub>2</sub>. In addition, CO<sub>2</sub> fracturing capacity was evaluated with the numerical simulation of extended finite element. The results displayed that an apparent viscosity of up to 1.3 mPa&#183;s at 303 K and 18 MPa was attained over liquid CO<sub>2</sub> using the thickener of 3 wt.% and Toluene of 9 wt.% as additives. Compared to the commercial linear polydimethylsiloxane, a better apparent viscosity was obtained from the mixture of this prepared thickener, Toluene and CO<sub>2</sub>. The apparent viscosity decreases with increasing temperature and shear rate. By contrast, an improving apparent viscosity was revealed with an increase in the pressure from 8 to 14 MPa and thickener content from 1 to 3 wt.%. The rheological index decreased with increasing thickener content with pressure but the rise in temperature led to an increasing rheological index. The mesh structure theory of the thickener, CO<sub>2</sub> and Toluene molecules was in this paper gives a good explanation for the discrepancy between CO<sub>2</sub> viscosity with the thickener content, temperature, pressure, or shear rate. Compared to pure CO<sub>2</sub>, the numerical simulation of CO<sub>2</sub> fracturing demonstrated an excellent fracturing capacity by using the thickened CO<sub>2</sub> fracturing fluid in shale reservoirs. This investigation could provide the basic reference for the development of CO<sub>2</sub> fracturing technology.https://www.mdpi.com/2073-4360/11/3/540polydimethylsiloxaneCO<sub>2</sub> thickenerCO<sub>2</sub> fracturing technologyoil and gas development engineering
collection DOAJ
language English
format Article
sources DOAJ
author Qiang Li
Yanling Wang
Fuling Wang
Qingchao Li
Forson Kobina
Hao Bai
Lin Yuan
spellingShingle Qiang Li
Yanling Wang
Fuling Wang
Qingchao Li
Forson Kobina
Hao Bai
Lin Yuan
Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity
Polymers
polydimethylsiloxane
CO<sub>2</sub> thickener
CO<sub>2</sub> fracturing technology
oil and gas development engineering
author_facet Qiang Li
Yanling Wang
Fuling Wang
Qingchao Li
Forson Kobina
Hao Bai
Lin Yuan
author_sort Qiang Li
title Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity
title_short Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity
title_full Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity
title_fullStr Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity
title_full_unstemmed Effect of a Modified Silicone as a Thickener on Rheology of Liquid CO<sub>2</sub> and Its Fracturing Capacity
title_sort effect of a modified silicone as a thickener on rheology of liquid co<sub>2</sub> and its fracturing capacity
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2019-03-01
description The low viscosity of pure liquid CO<sub>2</sub> hindered the development of CO<sub>2</sub> fracturing technology. A modified silicone polymer was prepared as a CO<sub>2</sub> thickener to investigate the effect of temperature, pressure, shear rate and thickener content (wt.%) on the apparent viscosity and rheology of thickened liquid CO<sub>2</sub>. In addition, CO<sub>2</sub> fracturing capacity was evaluated with the numerical simulation of extended finite element. The results displayed that an apparent viscosity of up to 1.3 mPa&#183;s at 303 K and 18 MPa was attained over liquid CO<sub>2</sub> using the thickener of 3 wt.% and Toluene of 9 wt.% as additives. Compared to the commercial linear polydimethylsiloxane, a better apparent viscosity was obtained from the mixture of this prepared thickener, Toluene and CO<sub>2</sub>. The apparent viscosity decreases with increasing temperature and shear rate. By contrast, an improving apparent viscosity was revealed with an increase in the pressure from 8 to 14 MPa and thickener content from 1 to 3 wt.%. The rheological index decreased with increasing thickener content with pressure but the rise in temperature led to an increasing rheological index. The mesh structure theory of the thickener, CO<sub>2</sub> and Toluene molecules was in this paper gives a good explanation for the discrepancy between CO<sub>2</sub> viscosity with the thickener content, temperature, pressure, or shear rate. Compared to pure CO<sub>2</sub>, the numerical simulation of CO<sub>2</sub> fracturing demonstrated an excellent fracturing capacity by using the thickened CO<sub>2</sub> fracturing fluid in shale reservoirs. This investigation could provide the basic reference for the development of CO<sub>2</sub> fracturing technology.
topic polydimethylsiloxane
CO<sub>2</sub> thickener
CO<sub>2</sub> fracturing technology
oil and gas development engineering
url https://www.mdpi.com/2073-4360/11/3/540
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