(a) Interpretation: For each of the given reading, the pressure drop, Δ P ( m m H g ) acorss the orifice should be calculated. Concept introduction: The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal. The manometer has a differential formula: Δ P = ( ρ f − ρ a c ) g h Where, ρ a c = 0.791 g / c m 3 is acetone density and ρ f = 1.10 g / c m 3 is fluid density. The g = 9.807 m / s 2 is acceleration due to gravity and h is manometer reading.

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Chemical Engineering Question

Answer 1

Question

Chapter 3, Problem 3.62P

Interpretation Introduction

(a)

Interpretation:

For each of the given reading, the pressure drop, ΔP(mmHg) acorss the orifice should be calculated.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Interpretation Introduction

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK

Interpretation Introduction

(c)

Interpretation:

If the orifice meter has h=23mm, then determine volumetric, mass and molar flow rates of the acetone in the line.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

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Answer 2

Question

Chapter 3, Problem 3.62P

Interpretation Introduction

(a)

Interpretation:

For each of the given reading, the pressure drop, ΔP(mmHg) acorss the orifice should be calculated.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Interpretation Introduction

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK

Interpretation Introduction

(c)

Interpretation:

If the orifice meter has h=23mm, then determine volumetric, mass and molar flow rates of the acetone in the line.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

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Answer 3

Question

Chapter 3, Problem 3.62P

Interpretation Introduction

(a)

Interpretation:

For each of the given reading, the pressure drop, ΔP(mmHg) acorss the orifice should be calculated.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Interpretation Introduction

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK

Interpretation Introduction

(c)

Interpretation:

If the orifice meter has h=23mm, then determine volumetric, mass and molar flow rates of the acetone in the line.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

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Answer 4

Question

Chapter 3, Problem 3.62P

Interpretation Introduction

(a)

Interpretation:

For each of the given reading, the pressure drop, ΔP(mmHg) acorss the orifice should be calculated.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Interpretation Introduction

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK

Interpretation Introduction

(c)

Interpretation:

If the orifice meter has h=23mm, then determine volumetric, mass and molar flow rates of the acetone in the line.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

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Answer 5

Chapter 3, Problem 3.62P

Interpretation Introduction

(a)

Interpretation:

For each of the given reading, the pressure drop, ΔP(mmHg) acorss the orifice should be calculated.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Interpretation Introduction

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK

Interpretation Introduction

(c)

Interpretation:

If the orifice meter has h=23mm, then determine volumetric, mass and molar flow rates of the acetone in the line.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Answer 6

Chapter 3, Problem 3.62P

Interpretation Introduction

(a)

Interpretation:

For each of the given reading, the pressure drop, ΔP(mmHg) acorss the orifice should be calculated.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Answer 7

Chapter 3, Problem 3.62P

Interpretation Introduction

(a)

Interpretation:

For each of the given reading, the pressure drop, ΔP(mmHg) acorss the orifice should be calculated.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Answer 8

Interpretation Introduction

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK

Answer 9

Interpretation Introduction

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK

Answer 10

Interpretation Introduction

(c)

Interpretation:

If the orifice meter has h=23mm, then determine volumetric, mass and molar flow rates of the acetone in the line.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Answer 11

Interpretation Introduction

(c)

Interpretation:

If the orifice meter has h=23mm, then determine volumetric, mass and molar flow rates of the acetone in the line.

Concept introduction:

The pressure of the Hg in manometer has a basic concept that the pressure of any two same height points must be equal.

The manometer has a differential formula:

ΔP=(ρf−ρac)gh

Where, ρac=0.791g/cm3 is acetone density and ρf=1.10g/cm3 is fluid density.

The g=9.807m/s2 is acceleration due to gravity and h is manometer reading.

Answer 12

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Ch. 3 - Perform the following estimations without using a...Ch. 3 - Prob. 3.2P Ch. 3 - Prob. 3.3P Ch. 3 - Prob. 3.4P Ch. 3 - Prob. 3.5P Ch. 3 - Prob. 3.6P Ch. 3 - Prob. 3.7P Ch. 3 - Prob. 3.8P Ch. 3 - Prob. 3.9P Ch. 3 - A rectangular block of solid carbon (graphite)...

(b) Interpretation: For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data. Concept introduction: The graph has to be plotted taking log as: lnV.=nln(ΔP)+lnK

Chapter 3 Solutions

(b)

Interpretation:

For, V.=K(ΔP)n verify graphically that the given orifice calibration data are correlated by this relationship and determine the value of K and n that best fit the data.

Concept introduction:

The graph has to be plotted taking log as:

lnV.=nln(ΔP)+lnK