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THE BERNOULLI EQUATION: FURTHER APPLICATION

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1 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex1 ] GIVEN: We know the water flows from the 1st floor with a velocity of 20 fps. REQD: Given the velocity and geometry in the figure, use Bernoulli equation to solve for the maximum water velocity in the basement and on the 2nd floor. Fluid Mechanics and Hydraulics

2 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex1 (cont’d) ] SOLU: 1. Let’s write the BE between (1) and (2) - (1) 2. Let’s plug in some numbers and solve for V2 thus Fluid Mechanics and Hydraulics

3 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex1 (cont’d) ] SOLU: 3. Now write the BE between (1) and (3) - (2) 4. Let’s plug in some numbers and solve for V3 - (3) thus WHAT? this is impossible, so we know that no flow comes out on second floor at current supply pressure Fluid Mechanics and Hydraulics

4 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex2 ] GIVEN: This firehose with the illustrated geometry must be able to deliver 250 GPM REQD: What upstream pressure must we supply to provide the required flow rate? SOLU: 1. Let’s write the BE between (1) and (2) - (E1) 2. Convert Q in GPM to Q in fps Fluid Mechanics and Hydraulics

5 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex2 (cont’d) ] SOLU: 3. And we know we can get V2 and V1 from continuity - (E2) - (E3) 4. Now we sub (E2) and (E3) into (E1) to get - (E4) Fluid Mechanics and Hydraulics

6 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex2 (cont’d) ] SOLU: or - (ans) Fluid Mechanics and Hydraulics

7 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex3 ] GIVEN: REQD: In this inviscid flow, determine the diameter of the outlet at the free jet required to establish an exit velocity of 20 fps SOLU: 1. Let’s write the BE between (1) and (2) - (E1) 2. Drop-in what we know - (E2) Fluid Mechanics and Hydraulics

8 THE BERNOULLI EQUATION: FURTHER APPLICATION
[ additional examples: ex3 (cont’d) ] SOLU: 3. Solving we find - (E3) 4. Then, enforcing continuity we arrive at - (E4) - (E5) Fluid Mechanics and Hydraulics

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