Exercise#3: The figure shows a system. The system is conservative energy between the two valves CV, and CV2. The differential pressure element at point 1 shows a reading for flow rate. This flow rate is equivalent to AP = 3 mmH20 with k factor of orifice equals 20 m2 (used as dimension geometry for the pipe). Another turbine flow meter at point 4 shows a reading for flow rate equals 2.7. Based on the reading of the first flow meter, is the turbine flow meter give the correct reading or not? You can utilize the following given information: diameters at point1&2 are D, = D2 = 0.2 m, D3 = D, = 2 D2, Q1= 3Q2, P, = P3 – 200000 Pa ,p = 750 Total heads(or energy)of Bernoulli equation at point 1=Total heads(or energy)of Bernoulli equation at point 2+4m, and Total heads(or energy) of Bernoulli equation at point 3=Total heads(or energy) of Bernoulli equation at point 4+1Om.
Exercise#3: The figure shows a system. The system is conservative energy between the two valves CV, and CV2. The differential pressure element at point 1 shows a reading for flow rate. This flow rate is equivalent to AP = 3 mmH20 with k factor of orifice equals 20 m2 (used as dimension geometry for the pipe). Another turbine flow meter at point 4 shows a reading for flow rate equals 2.7. Based on the reading of the first flow meter, is the turbine flow meter give the correct reading or not? You can utilize the following given information: diameters at point1&2 are D, = D2 = 0.2 m, D3 = D, = 2 D2, Q1= 3Q2, P, = P3 – 200000 Pa ,p = 750 Total heads(or energy)of Bernoulli equation at point 1=Total heads(or energy)of Bernoulli equation at point 2+4m, and Total heads(or energy) of Bernoulli equation at point 3=Total heads(or energy) of Bernoulli equation at point 4+1Om.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
Related questions
Question
![Exercise#3:
The figure shows a system. The system is conservative energy between the two
valves CV, and CV2. The differential pressure element at point 1 shows a reading for
flow rate. This flow rate is equivalent to AP = 3 mmH20 with k factor of orifice equals
20 m² (used as dimension geometry for the pipe). Another turbine flow meter at point
4 shows a reading for flow rate equals 2.7. Based on the reading of the first flow
meter, is the turbine flow meter give the correct reading or not? You can utilize the
following given information:
diameters at point1&2 are D, = D2 = 0.2 m, Dz = D4 = 2 D2, Q1= 3Q2, P4 = P3 –
200000 Pa ,p = 750
Total heads(or energy)of Bernoulli equation at point 1=Total heads(or energy)of
Bernoulli equation at point 2+4m, and
point2
point1
Total heads(or energy) of Bernoulli equation at point 3=Total heads(or energy) of
Bernoulli equation at point 4+10m.
CV, 8
Closed
DP
· Flow meter
h
tank
Turbine
Flowmeter
CV2
voint4
point3](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4c0605e2-6eaa-4b80-a30d-cf67450a88cf%2Fdda720b5-ebbf-4554-9809-c5ca9544b681%2Fbq82o0o_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Exercise#3:
The figure shows a system. The system is conservative energy between the two
valves CV, and CV2. The differential pressure element at point 1 shows a reading for
flow rate. This flow rate is equivalent to AP = 3 mmH20 with k factor of orifice equals
20 m² (used as dimension geometry for the pipe). Another turbine flow meter at point
4 shows a reading for flow rate equals 2.7. Based on the reading of the first flow
meter, is the turbine flow meter give the correct reading or not? You can utilize the
following given information:
diameters at point1&2 are D, = D2 = 0.2 m, Dz = D4 = 2 D2, Q1= 3Q2, P4 = P3 –
200000 Pa ,p = 750
Total heads(or energy)of Bernoulli equation at point 1=Total heads(or energy)of
Bernoulli equation at point 2+4m, and
point2
point1
Total heads(or energy) of Bernoulli equation at point 3=Total heads(or energy) of
Bernoulli equation at point 4+10m.
CV, 8
Closed
DP
· Flow meter
h
tank
Turbine
Flowmeter
CV2
voint4
point3
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