Investigating the Drag Reduction Performance and Stability of Organic Polymer, Surfactant and Their Complexes

Polymers-Surfactant complex efficacy in reducing the drag is of an interest subject in drag reduction research. Turbulent drag reduction (DR) efficiency of Sodium Polystyrene Sulfonate (NaPSS) sodium Alkylbenzene sulfonate complex was studied in a rotating disk apparatus. The solution complex was prepared by varying the concentration of the polymer between 100 to 1200 ppm and the surfactant between 100 to 700ppm. Measurement of torque values were recorded for each sample. The NaPSS (Sodium Polystyrene Sulfante) was found to have an ability to reduce the drag in the turbulent flow. A significant improvement was recorded for the addition of tiny amount of surfactant to the polymer system compare to the pure polymer drag reduction. At high surfactant concentration, it was found that the polymer drag ability decrease. The polymer was degraded when it is subjected to a high shear stress. The degredation resistance was increased by the addation of the surfactant to the polymer solution at concentration range of 100ppm to 400ppm of surfactant.

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The influence of polymer–surfactant aggregates on drag reduction

Thin Solid Films ◽

10.1016/j.tsf.2007.11.057 ◽

2008 ◽

Vol 516 (24) ◽

pp. 8848-8851 ◽

Cited By ~ 27

Author(s):

Zbigniew Matras ◽

Tadeusz Malcher ◽

Barbara Gzyl-Malcher

Keyword(s):

Drag Reduction ◽

Surfactant Aggregates ◽

Polymer Surfactant

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Study the Characterization of Adding Polymer-Surfactant Agent on the Drag Reduction Phenomena in Pipeline Flow System

Al-Khwarizmi Engineering Journal ◽

10.22153/kej.2017.12.004 ◽

2017 ◽

Vol 13 (2) ◽

Author(s):

Sahar A. Dawood

Keyword(s):

Aqueous Solution ◽

Reynolds Number ◽

Drag Reduction ◽

Friction Factor ◽

Methyl Cellulose ◽

Fluid Properties ◽

Maximum Drag Reduction ◽

Polymer Surfactant ◽

Good Agreement

Abstract In this study, the effect of carboxylic methyl cellulose (CMC), and sodium dodcyl benzene sulfonate (SDBS) as an aqueous solution on the drag reduction was investigated. Different concentrations of (CMC) and (SDBS) such as (50, 100, 150, 200, 250, 300, 350, 400, 450, and 500 ppm) were used to analyze the aqueous solution properties, including surface tension, conductivity, and shear viscosity. The optimum four concentrations (i.e., 50, 100, 200, and 300 ppm) of fluid properties were utilized to find their effect on the drag reduction. Two different PVC pipe diameters (i.e., 1" and 3/4") were used in this work. The results showed that blending CMC with SDBS gives a good drag reduction percent about (58%) more than using them individually, friction factor decreasing with increasing Reynolds number and gives good agreement with von Karamn equation and maximum drag reduction (MDR) asymptote. Reynolds number, pipe diameter, and polymer-surfactant concentrations were considered as influencing factors. In addition, critical micelle concentration, the onset of drag reduction, and the interactions between the mixed additives were discussed. Keyword: CMC, SDBS, drag reduction, friction factor, blending of additives.

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Drag Reduction Using Additives in Smooth Circular Pipes Based on Experimental Approach

Processes ◽

10.3390/pr9091596 ◽

2021 ◽

Vol 9 (9) ◽

pp. 1596

Author(s):

Allessandro Utomo ◽

Achmad Riadi ◽

Gunawan ◽

Yanuar

Keyword(s):

Drag Reduction ◽

Experimental Approach ◽

Reduction Process ◽

Reducing Agents ◽

Flow State ◽

Fluid Resistance ◽

Theoretical Approaches ◽

Circular Pipes ◽

New Research ◽

Polymer Surfactant

Reduction of fluid resistance using the rheological characteristics of a polymer-surfactant solvent is research that contains many aspects, such as the theory of the drag reduction process, historical journey, and ongoing current research development. Many studies have been conducted, but it is challenging to know all existing and new research threads. The present investigation was conducted using literature studies regarding drag reducing agents. This research will also discuss the characteristics of flowing fluids and their effects on the velocity profile with friction factor of flowing fluids in smooth circular straight pipe geometries based on experimental, theoretical approaches. It concludes with aspects of research conducted around reducing drag using drag reducing agents, ideas about innovations, structuring overlook in testing, and modification of the fluid flow state.

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