Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Różański, J.
2011.
Flow of drag-reducing surfactant solutions in rough pipes.
Journal of Non-Newtonian Fluid Mechanics,
Vol. 166,
Issue. 5-6,
p.
279.
Ming, Zhou
Jian, Li
Chunxia, Wu
Xiaokang, Zhou
and
Lan, Cai
2011.
Fluid drag reduction on superhydrophobic surfaces coated with carbon nanotube forests (CNTs).
Soft Matter,
Vol. 7,
Issue. 9,
p.
4391.
Yang, Shu-Qing
Han, Yu
and
Dharmasiri, Nadeesha
2011.
Flow resistance over fixed roughness elements.
Journal of Hydraulic Research,
Vol. 49,
Issue. 2,
p.
257.
Xi, Li
and
Graham, Michael D.
2012.
Intermittent dynamics of turbulence hibernation in Newtonian and viscoelastic minimal channel flows.
Journal of Fluid Mechanics,
Vol. 693,
Issue. ,
p.
433.
Wang, Bao
Wang, JiaDao
and
Chen, DaRong
2013.
A prediction of drag reduction by entrapped gases in hydrophobic transverse grooves.
Science China Technological Sciences,
Vol. 56,
Issue. 12,
p.
2973.
Yang, Shu-Qing
and
Ding, Donghong
2013.
Drag reduction induced by polymer in turbulent pipe flows.
Chemical Engineering Science,
Vol. 102,
Issue. ,
p.
200.
Afzal, Noor
2013.
Roughness effects of commercial steel pipe in turbulent flow: universal scaling.
Canadian Journal of Civil Engineering,
Vol. 40,
Issue. 2,
p.
188.
Pouranfard, A.R.
Mowla, D.
and
Esmaeilzadeh, F.
2014.
An experimental study of drag reduction by nanofluids through horizontal pipe turbulent flow of a Newtonian liquid.
Journal of Industrial and Engineering Chemistry,
Vol. 20,
Issue. 2,
p.
633.
Yang, Shu-Qing
and
Ding, Donghong
2014.
Drag-Reducing Flows in Laminar-Turbulent Transition Region.
Journal of Fluids Engineering,
Vol. 136,
Issue. 10,
Wang, Jiadao
Wang, Bao
and
Chen, Darong
2014.
Underwater drag reduction by gas.
Friction,
Vol. 2,
Issue. 4,
p.
295.
Wang, Sung‐Ning
Graham, Michael D.
Hahn, Friedemann J.
and
Xi, Li
2014.
Time‐series and extended Karhunen–Loève analysis of turbulent drag reduction in polymer solutions.
AIChE Journal,
Vol. 60,
Issue. 4,
p.
1460.
Eskin, Dmitry
2014.
Applicability of a Taylor–Couette device to characterization of turbulent drag reduction in a pipeline.
Chemical Engineering Science,
Vol. 116,
Issue. ,
p.
275.
Pouranfard, A.R.
Mowla, D.
and
Esmaeilzadeh, F.
2015.
An experimental study of drag reduction by nanofluids in slug two-phase flow of air and water through horizontal pipes.
Chinese Journal of Chemical Engineering,
Vol. 23,
Issue. 3,
p.
471.
Abdulbari, Hayder A.
Yunus, Rosli M.
and
Charles, A.
2016.
A Turbulence-Altering Pseudo-Surface for Enhancing the Flow in Pipes.
Chemical Engineering Communications,
Vol. 203,
Issue. 2,
p.
278.
Ogata, Satoshi
Miyagi, Junya
and
Tsubone, Takafumi
2016.
Effect of Surface Roughness on Micro-channel Flow of Dilute Polymer Solutions.
Nihon Reoroji Gakkaishi,
Vol. 44,
Issue. 3,
p.
131.
Moosaie, Amin
2016.
DNS of turbulent drag reduction in a pressure-driven rod-roughened channel flow by microfiber additives.
Journal of Non-Newtonian Fluid Mechanics,
Vol. 232,
Issue. ,
p.
1.
Huang, Chonghai
and
Wei, Jinjia
2017.
EXPERIMENTAL STUDY ON THE COLLABORATIVE DRAG REDUCTION PERFORMANCE OF A SURFACTANT SOLUTION IN GROOVED CHANNELS.
Brazilian Journal of Chemical Engineering,
Vol. 34,
Issue. 1,
p.
159.
Zia, Haseeb
and
Lecampion, Brice
2017.
Propagation of a height contained hydraulic fracture in turbulent flow regimes.
International Journal of Solids and Structures,
Vol. 110-111,
Issue. ,
p.
265.
Eskin, Dmitry
2017.
Modeling an effect of pipe diameter on turbulent drag reduction.
Chemical Engineering Science,
Vol. 162,
Issue. ,
p.
66.
Wang, Bao
Wang, Jiadao
Chen, Darong
Sun, Na
and
Wang, Tao
2017.
Experimental investigation on underwater drag reduction using partial cavitation.
Chinese Physics B,
Vol. 26,
Issue. 5,
p.
054701.