Oilflow in a journal bearing can be treated as parallel flow between two large isothermal plates with one plate moving at a constant velocity of 12 m/s and the other stationary. Consider such a flow with a uniform spacing of 0.7 mm between the plates. The temperature of the upper and lower plates are 47°C and 17°C, respectively. By simplifying and solving the continuity, momentum, and energy equations, determine: (a) thevelocity andtemperature distributionsin the oil. (b ) the maximum temperature and where it occurs.(The location ofmaximum temperature is determined by setting dT/dy=0). (c) the heat flux from the oil to each plate
Oilflow in a journal bearing can be treated as parallel flow between two large isothermal plates with one plate moving at a constant velocity of 12 m/s and the other stationary. Consider such a flow with a uniform spacing of 0.7 mm between the plates. The temperature of the upper and lower plates are 47°C and 17°C, respectively. By simplifying and solving the continuity, momentum, and energy equations, determine: (a) thevelocity andtemperature distributionsin the oil. (b ) the maximum temperature and where it occurs.(The location ofmaximum temperature is determined by setting dT/dy=0). (c) the heat flux from the oil to each plate
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Oilflow in a journal bearing can be treated as parallel flow between
two large isothermal plates with one plate moving at a constant velocity
of 12 m/s and the other stationary. Consider such a flow with a uniform
spacing of 0.7 mm between the plates. The temperature of the upper
and lower plates are 47°C and 17°C, respectively. By simplifying and
solving the continuity, momentum, and energy equations, determine:
(a) thevelocity andtemperature distributionsin the oil.
(b ) the maximum temperature and where it
occurs.(The location ofmaximum temperature is determined by
setting dT/dy=0).
(c) the heat flux from the oil to each plate
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