Comparison of heat transfer characteristics of axisymmetric and two dimensional reattachment jet nozzles to conventional jet impingement nozzles /

'Slot Jet Reattachment' (SJR) nozzle was designed and built

Bibliographic Details
Main Author: Narayanan, Vinod, 1973-
Format: Thesis eBook
Language:English
Published: [Place of publication not identified] : [publisher not identified] ; 1997.
Subjects:
Online Access:Link to OAKTrust copy
Description
Summary:'Slot Jet Reattachment' (SJR) nozzle was designed and built
Air was used as the working fluid. The RJR nozzles with exit
almost the same as the ILJ nozzle. The local surface
and RJR nozzles under constant fluid flow power and under
angles of O[] and +45[] were found to enhance the heat transfer
characteristics of the ILJ nozzle. This research compares
comparison of the two nozzles under matching peak surface
condition was an order of magnitude lower than the ILJ
considerably, while the -10[] exit angle heat transfer was
developed for the maximum local Nusselt number along the
exit angle SJR nozzle heat transfer was lower than the slot
exit openings, and exit angles. The SJR was found to provide
good heat transfer, while providing an effective control over
impingement pressures showed that the SJR nozzle provided
industries, based on the RJR concept. The local heat
is a modification of the slot jet nozzle commonly used in
jet nozzle, but resulted in a net negative force and much
lower local surface pressures on the impingement surface. A
matched peak pressure exerted on the impingement surface.
minor axis, as a function of Reynolds number and exit
nozzle in order to enhance the heat and mass transfer
nozzle. A new two-dimensional reattachment nozzle, entitled
nozzles performed better than the slot jet nozzle. The -10[]
of the slot jet and the SJR nozzles under constant fluid flow
opening. A comparison of the heat transfer characteristics
power showed that the +45[]+20[]and 0[] exit angle SJR
pressure exerted by the O[] RJR nozzle under same flow power
superior heat transfer to the slot jet.
the heat transfer characteristics of turbulent, submerged ILJ
the local and net surface pressures. A correlation has been
the past decade as a modification of the In-Line Jet (ILJ)
The Radial Jet Reattachment (RJR) nozzle was developed over
transfer and surface pressure distributions were measured
under various Reynolds numbers, nozzle to surface spacings,
with four exit angles of -10[], O[], +20[] and +45. This nozzle
Item Description:"Major subject: Mechanical Engineering".
Vita.
Physical Description:xvii, 146 leaves : illustrations ; 28 cm.
Also available online.
Issued also on microfiche from Lange Micrographics.
Bibliography:Includes bibliographical references: pages 122-132.