This is a resubmission question. I need assistance in solving this experiment. fluid flowing in the pipe is AIR at 15degrees celsius. @ 0...600mBARDiameter 34 mmVelocity cinm/s11,926,240,555,066,8Experiment ResultsPressure lossΔΡ in mbar2,17,415,9Diameter 34 mmMass flow m Pressure lossin kg/sΔΡ in mbarCalculations●2727Conclusion●Diameter 24 mmVelocity c inm/s11.712029.64049.2● Calculate mass flow rate.Draw graph of mass flow rate vs AP for all three diametersDA=(P₁ - P₂) ×—×X XIDiameter 24 mmMass flow min kg/sTm = average temperatureT₁ inlet temperatureC = velocityP1 = densityI = 1mmd1 pipe diameterAP pressure lossPressure lossΔΡ in mbar2,04,99,516,323,4Evaluate the experiment and draw your conclusions2Τ1X xC² XP₁ TmPressure lossΔΡ in mbarAdditional informationThe pipe friction factor can be determined using the following equation:Diameter 16 mmVelocity c inm/sPressure lossΔΡ in mbarDiameter 16 mmMass flow min kg/sPressure lossAP in mbar Experiment 1Pipe frictionAim of experimentDetermine pressure losses in tubes depending on the mass flowPreparing the experimentExperiment set-up● Attach the pipe section with desired diameter to the measuring nozzle and intakeconnection using union nuts. Note: the longer end is the abatement section for the inlet andmust be connected to the measuring nozzle.Connect the pressure measuring points to the differential pressure manometer as shown.34mm: Measuring range 0...25mbar -0 24mm, 0 16mm: Measuring range 0...600mbarConnect pressure measuring points to the measuring nozzle to the negative connection ofthe velocity display.Procedure●●Experiment Data@0...25mBARSwitch on the fan and set the desired flow via the speed.Record the velocity c from the measuring nozzle and the pressure loss AP.Set new flow rate via speed and repeat the measurement.Repeat the series of measurement for other pipe diameters.@ 0...600mBAR55.0Ø34mm Velocity inm/s66,8Diameter 34 mmVelocity cinm/s11,926,240,511,926,240,555.066,8Pressure lossΔΡ in mbar2,17,415,92727Experiment ResultsDiameter 34 mmMass flow min kg/sPressure lossAP in mbarDiameter 24 mmVelocity c inm/s11.72029.64049.2Differential pressure AP in barPressure lossΔΡ in mbar2,04,919.516,323,4PRACTICAL EXPERIMENT2,17,415,92727Diameter 24 mmMass flow min kg/sPressure lossAP in mbarPRACTICAL EXPERIMENTDiameter 16 mmVelocity cinm/sPressure lossAP in mbarDiameter 16 mmMass flow min kg/sPressure lossAP in mbar

Given: To find: Graph mass flow vs ∆P

Answered: Calculations • • Calculate mass flow…

Engineering

Mechanical Engineering

Calculations • • Calculate mass flow rate. Draw graph of mass flow rate vs AP for all three diameters

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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Question

This is a resubmission question. I need assistance in solving this experiment. fluid flowing in the pipe is AIR at 15degrees celsius.

@ 0...600mBAR
Diameter 34 mm
Velocity cin
m/s
11,9
26,2
40,5
55,0
66,8
Experiment Results
Pressure loss
ΔΡ in mbar
2,1
7,4
15,9
Diameter 34 mm
Mass flow m Pressure loss
in kg/s
ΔΡ in mbar
Calculations
●
27
27
Conclusion
●
Diameter 24 mm
Velocity c in
m/s
11.7
120
29.6
40
49.2
● Calculate mass flow rate.
Draw graph of mass flow rate vs AP for all three diameters
D
A=(P₁ - P₂) ×—×
X X
I
Diameter 24 mm
Mass flow m
in kg/s
Tm = average temperature
T₁ inlet temperature
C = velocity
P1 = density
I = 1mm
d1 pipe diameter
AP pressure loss
Pressure loss
ΔΡ in mbar
2,0
4,9
9,5
16,3
23,4
Evaluate the experiment and draw your conclusions
2
Τ1
X x
C² XP₁ Tm
Pressure loss
ΔΡ in mbar
Additional information
The pipe friction factor can be determined using the following equation:
Diameter 16 mm
Velocity c in
m/s
Pressure loss
ΔΡ in mbar
Diameter 16 mm
Mass flow m
in kg/s
Pressure loss
AP in mbar

Experiment 1
Pipe friction
Aim of experiment
Determine pressure losses in tubes depending on the mass flow
Preparing the experiment
Experiment set-up
● Attach the pipe section with desired diameter to the measuring nozzle and intake
connection using union nuts. Note: the longer end is the abatement section for the inlet and
must be connected to the measuring nozzle.
Connect the pressure measuring points to the differential pressure manometer as shown.
34mm: Measuring range 0...25mbar -0 24mm, 0 16mm: Measuring range 0...600mbar
Connect pressure measuring points to the measuring nozzle to the negative connection of
the velocity display.
Procedure
●
●
Experiment Data
@0...25mBAR
Switch on the fan and set the desired flow via the speed.
Record the velocity c from the measuring nozzle and the pressure loss AP.
Set new flow rate via speed and repeat the measurement.
Repeat the series of measurement for other pipe diameters.
@ 0...600mBAR
55.0
Ø34mm Velocity in
m/s
66,8
Diameter 34 mm
Velocity cin
m/s
11,9
26,2
40,5
11,9
26,2
40,5
55.0
66,8
Pressure loss
ΔΡ in mbar
2,1
7,4
15,9
27
27
Experiment Results
Diameter 34 mm
Mass flow m
in kg/s
Pressure loss
AP in mbar
Diameter 24 mm
Velocity c in
m/s
11.7
20
29.6
40
49.2
Differential pressure AP in bar
Pressure loss
ΔΡ in mbar
2,0
4,9
19.5
16,3
23,4
PRACTICAL EXPERIMENT
2,1
7,4
15,9
27
27
Diameter 24 mm
Mass flow m
in kg/s
Pressure loss
AP in mbar
PRACTICAL EXPERIMENT
Diameter 16 mm
Velocity cin
m/s
Pressure loss
AP in mbar
Diameter 16 mm
Mass flow m
in kg/s
Pressure loss
AP in mbar

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