Characterization of a Polyacrylamide Solution Used for Remediation of Petroleum Contaminated Soils

Jung, Jongwon; Jang, Jungyeon; Ahn, Jaehun

doi:10.3390/ma9010016

Cited by 37 publications

(21 citation statements)

References 44 publications

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“…Compared with other biopolymers in the literature review, the viscosity in this study (1.523 × 10 −3~1 .867 × 10 −3 Pa·s) is higher, at the same concentration (2 g/L) and shear rates (1~10 s −1 ), than chitosan (7.76 × 10 −4~2 .415 × 10 −3 Pa·s) but is lower than the viscosities of Xanthan gum (0.0665~0.168 Pa·s) and polyacrylic acid (PAA) (0.126~0.408 Pa·s) [8]; (2) the viscosity increases with an increase in the biopolymer solution concentration, within the range of 0-10 g/L ( Figure 7); (3) the viscosity decreases with increased shear rates, from 1 s −1 to 10 s −1 (Figure 8), which is consistent with the previous study [7]. presented that the viscosities of the biopolymer solutions decrease with an increase in the shear rate between 3.4 s −1 and 17 s −1 [7]. At a given biopolymer concentration (0-10 g/L) and shear rate (1-10 s −1 ), the viscosity change of PEO and SA by the increased concentration of PEO (or SA) is more prominent than the viscosity change of PEO and SA by the decreased shear rate.…”

Section: Resultssupporting

confidence: 80%

“…Thus they do not influence geo-environments after their use. Recently the characteristics of water-soluble polymers, including contact angle, interfacial tension, and viscosity, have been explored for the better utilisation of biopolymers in soil remediation and EOR [7,8]. Cao et al (2016) presented the characteristics of biopolymers, such as chitosan, PEO, xanthan gum, SA, and polyacrylic acid, in order to use them for soil remediation [8].…”

Section: Introductionmentioning

confidence: 99%

“…To improve the soil properties, organic agents such as polymers, biopolymers and surfactants have been developed, which indicate their capability of improving the shear strength and stiffness of soil [1][2][3][4][5][6][7][8]. Biopolymers, such as polyacrylamide (PAM), have demonstrated their effect on irrigation by increased water infiltration and decreased erosion due to their water-absorbing capacity [9][10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

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Characterization of Polyethylene Oxide and Sodium Alginate for Oil Contaminated-Sand Remediation

Jung

2017

Sustainability

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Abstract:Biopolymers have been employed in many soil applications, such as oil-contaminated soil remediation, due to their environmentally friendly characteristics. This study focused on changes in the wettability and viscosity of polyethylene oxide (PEO) and sodium alginate (SA), according to the variation in concentration and their impact on oil-contaminated soil remediation using biopolymer-decane displacement tests. The contact angle and interfacial tension vary with concentration by adding biopolymer to water; however both parameters yield relatively constant values within the range of 2-10 g/L for the concentration of PEO and SA. In this study, their influence on fluid invasion patterns is insignificant compared to viscosity and flow rate. Viscosity increases with the concentration of PEO and SA, within the range of 0-10 g/L, which causes the biopolymer-decane displacement ratio to increase with concentration. Biopolymer-decane displacement increases with injected fluid velocity. At low flow rates, the effect of the biopolymer concentration on the displacement ratio is prominent. However the effect decreases with an increase in flow rate. Thus both biopolymer concentration and injection velocity should be considered to achieve the economic efficiency of soil remediation. The experimental results for the distribution of soils with different grain sizes indicate that the displacement ratio increases with the uniformity of the coefficient of soils.

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Section: Resultssupporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Characterization of Polyethylene Oxide and Sodium Alginate for Oil Contaminated-Sand Remediation

Jung

2017

Sustainability

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“…Photoshoots of micromodels where PAM solution was displaced against air and decane were taken. The still images and videos captured were analysed using Image J software for computation of biopolymer saturation and PAM-Decane displacement ratios, Jung et al (2016). It was observed that the flow rate effect is more prominent for decane.…”

Section: Characterization Of Polyacrylamide (Pam) Solution By Jung Etmentioning

confidence: 99%

Review on microfluidic studies for EOR application

Gogoi

2019

J Petrol Explor Prod Technol

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All the time the flow of fluids happens below the surface of the earth. These flow processes can only be imagined, but not be fully visualised on how fluid flow behaviour occurs though the porous medium of the rocks. Hence comes the play of microfluidic micromodels. These are a transparent version of slices (2 dimensional) porous structure of rocks such as sandstone duplicated onto materials such as glass, polymers and silicon wafers. Fluids such as crude oil, surfactant and polymer solutions and gases such as carbon dioxide (CO 2) are injected through special pumps into these transparent micromodels. The flow patterns and behaviours hence developed inside the micromodels are studied and analysed. Micromodels have helped in different branches of science such as medicine, genetics, liquid channelling and enhanced oil recovery (EOR). The concern of this paper is to study the flow behaviour and EOR in micromodels. Micromodels can be made to represent a micro version of a partially saturated rock with crude oil. The various chemical EOR processes such as surfactant flooding, polymer flooding, gas flooding injected into crude oil filled micromodels with water saturation is studied. The advancement of front developed between displacing and displaced fluids, the fingering effect, the presence of high permeability streaks is observed. Also the breakthrough of the flood front is analysed from the various experiments reviewed. This review paper is undertaken so as to help researchers find a consolidated and concise literature of the trends and developments in microfluidics especially in EOR.

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“…It seems proven that the physic-chemical properties in the slurry can be modified in wet grinding due to changes in physical and chemical conditions (such as size distribution, concentration of solids, temperature, shear rate, pH value, the use of grinding aids, etc.). The use of polyacrylamide (PAM) in water as a viscosity modifier has been broadly studied previously [17,18].…”

Section: Introductionmentioning

confidence: 99%

A Study of the Effect of Medium Viscosity on Breakage Parameters for Wet Grinding

et al. 2019

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The rheological behavior of mineral slurries shows the level of interaction or aggregation among particles, being a process control variable in processes such as slurry transportation, dehydration, and wet grinding systems. With the aim to analyze the effect of medium viscosity in wet grinding, a series of monosize grinding ball mill tests were performed to determine breakage parameters, according to the generally accepted kinetic approach of grinding processes. A rheological modifier (polyacrylamide, PAM) was used to modify solutions viscosity. A model was proposed by means of dimensional analysis (Buckingham’s Pi theorem) in order to determine the behavior of the specific breakage rate (Sj) for a ball grinding process in terms of the rheology of the system. In addition to this, a linear adjustment was established for the relationship between specific breakage rates with and without PAM addition, based on the reduced viscosity, μr. Furthermore, within a certain interval of viscosity, it was proved that an increment of viscosity can increase the specific breakage rate, and consequently the grinding degree.

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Characterization of a Polyacrylamide Solution Used for Remediation of Petroleum Contaminated Soils

Cited by 37 publications

References 44 publications

Characterization of Polyethylene Oxide and Sodium Alginate for Oil Contaminated-Sand Remediation

Characterization of Polyethylene Oxide and Sodium Alginate for Oil Contaminated-Sand Remediation

Review on microfluidic studies for EOR application

A Study of the Effect of Medium Viscosity on Breakage Parameters for Wet Grinding

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