In 1948 Toms discovered by experiments that the addition of a small amount of polymer into a turbulent Newtonian solvent (parts per million by weight), whichresults in a Non-Newtonian fluid solution, can reduce the skin frictional drag on a stationarysurface by up to 80% . This technology has been successfullyimplemented to reduce pumping cost for oil pipelines, to increase the flow rate infire fighting equipment and to help irrigation and drainage (Sellin & Ollis, 1980;Khalil et al., 2002). It also has potential applications in the design of ship and submarinehulls to achieve an increased speed and reduced energy cost.
Toms, B. 1948 Observation on the flow of linear polymer solutions throughstraight tubes at large Reynolds numbers. Proc. Int’l Rheological Congress 2,135–141
Sellin, R. H. J. & Ollis, M. 1980 Polymer drag reduction in large pipes andsewers: Results of recent field trials. Journal of Rheology
Khalil, M. F., Kassab, S. Z., Elmiligui, A. A. & Naoum, F. A. 2002Applications of drag-reducing polymers in sprinkler irrigation systems: Sprinklerhead performance. Journal of Irrigation and Drainage Engineering
Perlekar P, Mitra D, Pandit R. Manifestations of drag reduction by polymer additives in decaying, homogeneous, isotropic turbulence. Physical review letters. 2006. https://arxiv.org/abs/nlin/0609066
Jin S 2007 Numerical simulations of a dilute polymer solution in isotropic turbulence PhD Thesis Cornell University, Ithaca, NY
Liberzon A., Guala M., Lüthi B., Kinzelbach W. and Tsinober A. Dilute polymers in turbulence Physics of Fluids, 17, 031707, 2005 link
Liberzon A., Guala M., Kinzelbach W., and Tsinober A. On turbulent kinetic energy production and dissipation in dilute polymer solutions Physics of Fluids 18, 125101, 2006 link
Liberzon A., Guala M., Holzner M., Lüthi B., and Kinzelbach W. On turbulent entrainment and dissipation in dilute polymer solutions, Physics of Fluids, 21, 035107, 2009 link