Theory of hydraulic resistance in turbulent flow in direct round tubes with smoothed (addressed) flow turbulators

Authors

  • Igor Evgenevich Lobanov FGBOU «Moskovskiy aviacionnyy institut (nacionalnyy issledovatelskiy universitet)»

Keywords:

hydraulic resistance; modeling; flow; channel; intensification; turbulent; turbulence; turbulizer; addressed.

Abstract

The mathematical modeling of isothermal hydraulic resistance in turbulent flow in canals under conditions of intensification of heat exchange for conditions of smoothly outlined turbulators was carried out. It showed that an increase in the Reynolds number can favorably affect the intensification of heat transfer, and the best effects of heat exchange intensification are achieved if the laws differ substantially from self-similar ones. In the article it was revealed that the hydraulic resistance, theoretically calculated for this model, referred to the hydraulic resistance for a smooth pipe, calculated by the Blasius formula, decreases with increasing Reynolds number. The results can be used to intensify heat transfer in heat exchangers used in aviation and rocket and space technology.

Author Biography

Igor Evgenevich Lobanov, FGBOU «Moskovskiy aviacionnyy institut (nacionalnyy issledovatelskiy universitet)»

d-r tehn. nauk, veduschiy nauch. sotrudnik PNIL—204. Dipl. inzh.-mehanik (MVTU im N. E. Baumana, 1994). D-r tehn. nauk po teoreticheskoy teplotehnike (MAI, 2006). Issl. v obl. teorii radiacionno-konvektivnogo teploobmena i intensificirovannogo teploobmena v kanalah.

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Published

2018-25-12

Issue

Vol. 22 No. 4 (82) (2018): Вестник УГАТУ

Section

AIRCRAFT AND ROCKET AND SPACE TECHNOLOGY