Maximum drag reduction and scale up of surfactant solution

Ning Ma; Na Xu; Jin Jia Wei; Yan Long; Chong Hai Huang

Maximum drag reduction and scale up of surfactant solution

Ning Ma
, Na Xu
, Jin Jia Wei
, Yan Long
, Chong Hai Huang

School of Chemical Engineering and Technology

Xi'an Jiaotong University

Research output: Contribution to journal › Article › peer-review

Abstract

Turbulent drag reducing characteristics of CTAC/NaSal aqueous solution (CTAC had same mass concentration with NaSal.) were investigated in a two-dimensional channel of 30 mm height and 375 mm width, which was made of transparent acrylic resin. The measured drag reduction data were scaled up by using Hoyt's scaling method and were compared with other reported drag reduction data for different channel sizes. It could be concluded that both the critical temperature and critical Reynolds number at which turbulent drag reduction of surfactant solution occurred increased with concentration. There was a maximum drag-reduction about 60% for the measured CTAC/NaSal solutions. The Hoyt's scale-up method correlated well the experimental data for different channel heights when the SIS (shearing induced structure) was established very well in surfactant solutions.

Original language	English
Pages (from-to)	1675-1678
Number of pages	4
Journal	Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Volume	34
Issue number	9
State	Published - 2013

Keywords

Hoyt's scale-up method
Maximum dragreduction
Surfactant solution
Turbulent drag reduction

Cite this

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title = "Maximum drag reduction and scale up of surfactant solution",

abstract = "Turbulent drag reducing characteristics of CTAC/NaSal aqueous solution (CTAC had same mass concentration with NaSal.) were investigated in a two-dimensional channel of 30 mm height and 375 mm width, which was made of transparent acrylic resin. The measured drag reduction data were scaled up by using Hoyt's scaling method and were compared with other reported drag reduction data for different channel sizes. It could be concluded that both the critical temperature and critical Reynolds number at which turbulent drag reduction of surfactant solution occurred increased with concentration. There was a maximum drag-reduction about 60\% for the measured CTAC/NaSal solutions. The Hoyt's scale-up method correlated well the experimental data for different channel heights when the SIS (shearing induced structure) was established very well in surfactant solutions.",

keywords = "Hoyt's scale-up method, Maximum dragreduction, Surfactant solution, Turbulent drag reduction",

author = "Ning Ma and Na Xu and Wei, \{Jin Jia\} and Yan Long and Huang, \{Chong Hai\}",

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volume = "34",

pages = "1675--1678",

journal = "Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics",

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TY - JOUR

T1 - Maximum drag reduction and scale up of surfactant solution

AU - Ma, Ning

AU - Xu, Na

AU - Wei, Jin Jia

AU - Long, Yan

AU - Huang, Chong Hai

PY - 2013

Y1 - 2013

N2 - Turbulent drag reducing characteristics of CTAC/NaSal aqueous solution (CTAC had same mass concentration with NaSal.) were investigated in a two-dimensional channel of 30 mm height and 375 mm width, which was made of transparent acrylic resin. The measured drag reduction data were scaled up by using Hoyt's scaling method and were compared with other reported drag reduction data for different channel sizes. It could be concluded that both the critical temperature and critical Reynolds number at which turbulent drag reduction of surfactant solution occurred increased with concentration. There was a maximum drag-reduction about 60% for the measured CTAC/NaSal solutions. The Hoyt's scale-up method correlated well the experimental data for different channel heights when the SIS (shearing induced structure) was established very well in surfactant solutions.

AB - Turbulent drag reducing characteristics of CTAC/NaSal aqueous solution (CTAC had same mass concentration with NaSal.) were investigated in a two-dimensional channel of 30 mm height and 375 mm width, which was made of transparent acrylic resin. The measured drag reduction data were scaled up by using Hoyt's scaling method and were compared with other reported drag reduction data for different channel sizes. It could be concluded that both the critical temperature and critical Reynolds number at which turbulent drag reduction of surfactant solution occurred increased with concentration. There was a maximum drag-reduction about 60% for the measured CTAC/NaSal solutions. The Hoyt's scale-up method correlated well the experimental data for different channel heights when the SIS (shearing induced structure) was established very well in surfactant solutions.

KW - Hoyt's scale-up method

KW - Maximum dragreduction

KW - Surfactant solution

KW - Turbulent drag reduction

UR - https://www.scopus.com/pages/publications/84886260920

M3 - 文章

AN - SCOPUS:84886260920

SN - 0253-231X

VL - 34

SP - 1675

EP - 1678

JO - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

JF - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

IS - 9

ER -

Maximum drag reduction and scale up of surfactant solution

Abstract

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