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1.1 What will be the (a) the gauge pressure and (b) the absolute pressure of water at depth 12m below the surface? ρwater = 1000 kg/m3, and Patmosphere = 101kN/m2. Solution:
Rearranging the equation 1.1-4
pb?pa??gh
Set the pressure of atmosphere to be zero, then the gauge pressure at depth 12m below the surface is
pb?pa??gh?0?1000?9.81?12?117.72kPa
Absolute pressure of water at depth 12m
pb?pa??gh?101000?1000?9.81?12?218720Pa?218.72kPa
1.3 A differential manometer as shown in Fig. is sometimes used to measure small pressure difference. When the reading is zero, the levels in two reservoirs are equal. Assume that fluid B is methane(甲烷), that liquid C in the reservoirs is kerosene (specific gravity = 0.815), and that liquid A in the U tube is water. The inside diameters of the reservoirs and U tube are 51mm and 6.5mm , respectively. If the reading of the manometer is145mm., what is the pressure difference over the instrument In meters of water, (a) when the change in the level in the reservoirs is neglected, (b) when the change in the levels in the reservoirs is taken into account? What is the percent error in the answer to the part (a)? Solution:
pa=1000kg/m3 pc=815kg/m3 pb=0.77kg/m3 D/d=8 R=0.145m
When the pressure difference between two reservoirs is increased, the volumetric changes in the reservoirs and U tubes
?4so
D2x??42d2R (1)
?d?x???R (2)
?D?and hydrostatic equilibrium gives following relationship
p1?R?cg?p2?x?cg?R?Ag (3)
so
p1?p2?x?cg?R(?A??c)g (4)
substituting the equation (2) for x into equation (4) gives
?d?p1?p2???R?cg?R(?A??c)g (5)
?D?(a)when the change in the level in the reservoirs is neglected,
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2?d?p1?p2???R?cg?R(?A??c)g?R(?A??c)g?0.145?1000?815??9.81?263Pa?D?
(b)when the change in the levels in the reservoirs is taken into account
?d?p1?p2???R?cg?R(?A??c)g?D??d????R?cg?R(?A??c)g?D??6.5?????0.145?815?9.81?0.145?1000?815??9.81?281.8Pa?51?error=
222
281.8?263=6.7%
281.81.4 There are two U-tube manometers fixed on the fluid bed reactor, as shown in the figure. The readings of two U-tube manometers are R1=400mm,R2=50mm, respectively. The indicating liquid is mercury. The top of the manometer is filled with the water to prevent from the mercury vapor diffusing into the air, and the height R3=50mm. Try to calculate the pressure at point A and B.
Figure for problem 1.4
Solution: There is a gaseous mixture in the U-tube manometer meter. The densities of fluids are denoted by ?g,?H2O,?Hg, respectively. The pressure at point A is given by hydrostatic equilibrium
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pA??H2OR3g??HgR2g??g(R2?R3)g
?gis small and negligible in comparison with?Hgand ρH2O , equation above can be simplified
pA?pc=?H2OgR3??HggR2
=1000×9.81×0.05+13600×9.81×0.05
=7161N/m2
pB?pD?pA??HggR1=7161+13600×9.81×0.4=60527N/m
1.5 Water discharges from the reservoir through the drainpipe, which the throat diameter is d. The ratio of D to d equals 1.25. The vertical distance h between the tank A and axis of the drainpipe is 2m. What height H from the centerline of the drainpipe to the water level in reservoir is required for drawing the water from the tank A to the throat of the pipe? Assume that fluid flow is a potential flow. The reservoir,
pa tank A and the exit of drainpipe are all open to air. H d D
h
pa Figure for problem 1.5
A
Solution:
Bernoulli equation is written between stations 1-1 and 2-2, with station 2-2 being reference plane:
p12u12p2u2?gz1???gz2? ?2?2Where p1=0, p2=0, and u1=0, simplification of the equation 2Hg?精品文档
u22
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