As shown in Fig. 2, the hydraulic pump suctioned oil from a large oil tank, the flow rate q = 150L/min, Kinematic viscosity of oil v=34×10-6 m²/s, density of oil p =900kg/m³, the diameter of suction pipe d =60mm. and assuming the minor resistance coefficient of elbow of oil suction pipe 5= 0.2, the pressure loss of the filter at suction port Ap = 0.0178MP.. if the vacuum degree at the inlet of pump is not bigger than 0.04Mpa, calculate the Oil absorption height H (without considering the pressure losses along straight line between the surface and filter)
As shown in Fig. 2, the hydraulic pump suctioned oil from a large oil tank, the flow rate q = 150L/min, Kinematic viscosity of oil v=34×10-6 m²/s, density of oil p =900kg/m³, the diameter of suction pipe d =60mm. and assuming the minor resistance coefficient of elbow of oil suction pipe 5= 0.2, the pressure loss of the filter at suction port Ap = 0.0178MP.. if the vacuum degree at the inlet of pump is not bigger than 0.04Mpa, calculate the Oil absorption height H (without considering the pressure losses along straight line between the surface and filter)
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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Transcribed Image Text:2. As shown in Fig. 2, the hydraulic pump suctioned oil from a large oil tank, the
flow rate q =150L/min, Kinematic viscosity of oil v=34x106 m/s, density of oil
p=900kg/m³, the diameter of suction pipe d=60mm. and assuming the minor
resistance coefficient of elbow of oil suction pipe =0.2, the pressure loss of the
filter at suction port Ap = 0.0178MP.. if the vacuum degree at the inlet of pump is
not bigger than 0.04Mpa, calculate the Oil absorption height H (without considering
the pressure losses along straight line between the surface and filter)
Figure 2
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