Fluid Mechanics: Fundamentals and Applications
Fluid Mechanics: Fundamentals and Applications
4th Edition
ISBN: 9781259696534
Author: Yunus A. Cengel Dr., John M. Cimbala
Publisher: McGraw-Hill Education
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Textbook Question
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Chapter 6, Problem 57P

Repeat Prob. 6-56 for a water flow rate of 60 L/s.

Expert Solution
Check Mark
To determine

(a)

The rotational speed of the sprinkler.

Answer to Problem 57P

The rotational speed of the sprinkler is 65.15rpm.

Explanation of Solution

Given information:

The volume flow rate of the water is 60L/s, the discharge area for the smaller jet is 3cm2, the distance of the smaller jet from the axis of rotation is 50cm, the discharge area for the larger jet is 5cm2, the distance of the larger jet from the axis of rotation is 35cm.

Write the expression for the velocity at the smaller section of the sprinkler.

  Vs=QsAs   ....... (I)

Here, the cross sectional area at the smaller section of the sprinkler is As and the flow rate is Qs.

Write the expression for the velocity at the larger section of the sprinkler.

  VL=QLAL   ....... (II)

Here, the cross sectional area at the larger section of the sprinkler is AL and the flow rate is QL.

Write the expression for the velocity of the jet with respect to smaller jet.

  V1=r1ω   ....... (III)

Here, the distance of the smaller jet from the axis of rotation is r1.

Write the expression for the velocity of the jet with respect to larger jet.

  V2=r2ω   ....... (IV)

Here, the distance of the larger jet from the axis of rotation is r2.

Write the expression for the absolute velocity of the water with respect to larger section of sprinkler.

  Vj2=VLV2   ....... (V)

Write the expression for the absolute velocity of the water with respect to smaller section of sprinkler.

  Vj1=VsV1   ....... (VI)

Write the expression for the mass flow rate of the water at larger section of sprinkler.

  m˙L=ρALVL   ....... (VII)

Here, the density of the water is ρ, the cross sectional area at the larger section is AL and the velocity at the larger section is VL.

Write the expression for the mass flow rate of the water at smaller section of sprinkler.

  m˙s=ρAsVs   ....... (VIII)

Here, the cross sectional area at the smaller section is AL and the velocity at the smaller section is VL.

Write the expression for the mass flow rate of the water.

  m˙=ρQ   ....... (IX)

Here, the volume flow rate of the water is Q.

Write the expression for the total mass flow rate.

  m˙=m˙s+m˙L   ....... (X)

Write the expression for the discharge for the smaller section.

  Qs=Q2   ....... (XI)

Write the expression for the discharge for the larger section.

  QL=Q2   ....... (XII)

Write the expression for the angular speed using the angular momentum equation.

  r2m˙L(Vj2)r1m˙s(Vj1)=0   ....... (XIII)

Write the expression for the rotation speed of the sprinkler.

  n=ω×602π   ....... (XIV)

Calculation:

Substitute 3cm2 for As in Equation (I).

  Vs=Qs3 cm2=Qs3 cm2( 1 m 2 10 4 cm 2 )=3333.33m2Qs

Substitute 5cm2 for As in Equation (II).

  VL=QL5 cm2=QL5 cm2( 1 m 2 10 4 cm 2 )=2000m2QL

Substitute 50cm for r1 in Equation (III).

  V1=(50cm)ω=(50cm( 1m 100cm ))ω=(0.50m)ω

Substitute 35cm for r2 in Equation (IV).

  V2=(35cm)ω=(35cm( 1m 100cm ))ω=(0.35m)ω

Substitute (0.35m)ω for V2 and 2000m2QL for VL in Equation (V).

  Vj2=(2000m2QL)((0.35m)ω)   ....... (XV)

Substitute (0.5m)ω for V1 and 3333.33m2Qs for Vs in Equation (VI).

  Vj1=(3333.33m2Qs)((0.5m)ω)   ....... (XVI)

Substitute 1000kg/m3 for ρ, 5cm2 for AL and 2000m2QL for VL in Equation (VII).

  m˙L=(1000kg/ m 3)(5 cm2)(2000m 2QL)=(1000kg/ m 3)(5 cm2( 1 m 2 10 4 cm 2 ))(2000m 2QL)=(1000kg/ m 3)(0.0005m2)(2000m 2QL)=1000kg/m3 QL

Substitute 1000kg/m3 for ρ, 3cm2 for As and 3333.33m2Qs for Vs in Equation (VIII).

  m˙s=(1000kg/ m 3)(3 cm2)(3333.33m 2Qs)=(1000kg/ m 3)(3 cm2( 1 m 2 10 4 cm 2 ))(3333.33m 2Qs)=(1000kg/ m 3)(0.0003m2)(3333.33m 2Qs)1000kg/m3 Qs

Substitute 60L/s for Q and 1000kg/m3 for ρ in Equation (IX).

  m˙=(60L/s)(1000kg/ m 3)=(60L/s)( 10 3 m 3 /s 1L/s )(1000kg/ m 3)=60kg/s

Substitute 50kg/s for m˙, 1000kg/Qs for m˙s and 1000kg/QL for m˙L in Equation (X).

  50kg/s=1000kg/Qs+1000kg/QL

Substitute 60L/s for Q in Equation (XI).

  Qs=60L/s2=60L/s2( 10 3 m 3 /s 1L/s )=30×103m3/s

Substitute 60L/s for Q in Equation (XII).

  QL=60L/s2=60L/s2( 10 3 m 3 /s 1L/s )=30×103m3/s

Substitute 30×103m3/s for Qs, 30×103m3/s for QL, 35cm for r2, 1000kg/Qs for m˙s and 1000kg/QL for m˙L, 50cm for r1, (2000QL0.35ω) for Vj2 and (3333.33QL0.5ω) for Vj1 in Equation (XIII).

  [( 35cm)( 1000 kg/ )( 30× 10 3 m 3 /s )( ( 2000( 30× 10 3 m 3 /s )0.35ω ))( 50cm)( 1000 kg/ ( 25× 10 3 m 3 /s ))( 3333.33( 30× 10 3 m 3 /s )0.5ω)]=0[250ω166666500 kgcm/ ( 1m 100cm ) ( 30× 10 3 m 3 /s ) 2122.5ω+70000000 kgcm/ ( 1m 100cm ) ( 30× 10 3 m 3 /s ) 2]=0127.5ω=1666665(30× 10 3 m 3 /s)2700000(30× 10 3 m 3 /s)2ω=6.82rad/s

Substitute 6.82rad/s for ω in Equation (XIV).

  n=( 6.82 rad/s )×602π=409.41rad/s2π=65.15rpm

Conclusion:

The rotational speed of the sprinkler is 65.15rpm.

Expert Solution
Check Mark
To determine

(b)

The total torque required to prevent the sprinkler.

Answer to Problem 57P

The total torque required to prevent the sprinkler is 2053.63Nm.

Explanation of Solution

Write the expression for the torque on the sprinkler due to the larger jet.

  T2=r2m˙L(Vj2)   ....... (XVII)

Write the expression for the torque on the sprinkler due to the smaller jet.

  T1=r1m˙s(Vj1)   ....... (XVIII)

Write the expression for the total torque.

  T=T1+T2   ....... (XIX)

Write the expression for the mass flow rate for the smaller section.

  m˙s=1000kg/m3 Qs   ....... (XX)

Write the expression for the mass flow rate for the larger section.

  m˙L=1000kg/m3 QL   ....... (XXI)

Calculation:

Substitute 6.82rad/s for ω and 30×103m3/s for QL in Equation (XV).

  Vj2=(2000m2( 30× 10 3 m 3 /s ))(( 0.35m)( 6.82 rad/s ))=(60m2( m 3 /s ))(( m)( 2.387 rad/s ))=57.613m/s

Substitute 6.82rad/s for ω and 30×103m3/s for Qs in Equation (XVI).

  Vj1=(3333.33m2( 30× 10 3 m 3 /s ))(( 0.5m)( 6.82 rad/s ))=(99.99m2( m 3 /s ))(( 3.41 rad/s ))=96.58m/s

Substitute 30×103m3/s for Qs in Equation (XX).

  m˙s=1000kg/m3 (30× 10 3 m 3/s)=30kg/s

Substitute 30×103m3/s for Qs in Equation (XXI).

  m˙L=1000kg/m3 (30× 10 3 m 3/s)=30kg/s

Substitute 35cm for r2, 30kg/s for m˙L and 57.613m/s for Vj2 in Equation (XVII).

  T2=(35cm)(30kg/s)(57.613m/s)=(35cm( 1m 100cm ))(30kg/s)(57.613m/s)=604.93kgm2/s2( 1Nm 1 kg m 2 / s 2 )=604.93Nm

Substitute 50cm for r1, 30kg/s for m˙s and 96.58m/s for Vj1 in Equation (XVIII).

  T1=(50cm)(30kg/s)(96.58m/s)=(50cm( 1m 100cm ))(30kg/s)(96.58m/s)=1448.7kgm2/s2( 1Nm 1 kg m 2 / s 2 )=1448.7Nm

Substitute 1448.7Nm for T1 and 604.93Nm for T2 in Equation (XIX).

  T=1448.7Nm+604.93Nm=2053.63Nm

Conclusion:

The total torque required to prevent the sprinkler is 2053.63Nm.

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Chapter 6 Solutions

Fluid Mechanics: Fundamentals and Applications

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