References

Ali, Q.M.A. and T.A. Al-Ausi, 2008. Drag force reduction of flowing crude oil by polymers addition. Iraqi J. Mech. Mater. Eng., 8: 149-161.
Direct Link  |  

Cengel, Y.A. and A.J. Ghajar, 2011. Heat and Mass Transfer. 4th Edn., McGraw-Hill Education, New York, USA., ISBN:9780073398129, Pages: 924.

Dang, G., F. Zhong, L. Chen and X. Chang, 2013. Numerical investigation on flow and convective heat transfer of aviation kerosene at supercritical conditions. Sci. China Technol., 56: 416-422.
Direct Link  |  

Dang, G., F. Zhong, Y. Zhang and X. Zhang, 2015. Numerical study of heat transfer deterioration of turbulent supercritical kerosene flow in heated circular tube. Intl. J. Heat Mass Transfer, 85: 1003-1011.
Direct Link  |  

Groysman, A., 2014. Corrosion in Systems for Storage and Transportation of Petroleum Products and Biofuels: Identification, Monitoring and Solutions. Springer, Berlin, Germany, ISBN:978-94-007-7883-2, Pages: 157.

Huang, D. and W. Li, 2017. Heat transfer deterioration of aviation kerosene flowing in mini tubes at supercritical pressures. Intl. J. Heat Mass Transfer, 111: 266-278.
CrossRef  |  Direct Link  |  

Lee, D.H., 2010. Skin-friction drag reduction by dilute polymer solutions in turbulent channel flow. Ph.D Thesis, Department of Mechanical Engineering, University of Michigan, Ann Arbor, Michigan.

Lee, K.H., K. Zhang and H.J. Choi, 2010. Time dependence of turbulent drag reduction efficiency of polyisobutylene in kerosene. J. Ind. Eng. Chem., 16: 499-502.
CrossRef  |  

Li, W., D. Huang, G.Q. Xu, Z. Tao and Z. Wu et al., 2015. Heat transfer to aviation kerosene flowing upward in smooth tubes at supercritical pressures. Intl. J. Heat Mass Transfer, 85: 1084-1094.
CrossRef  |  Direct Link  |  

Usui, H. and T. Saeki, 1993. Drag reduction and heat transfer reduction by cationic surfactants. J. Chem. Eng. Japan, 26: 103-106.
Direct Link  |