Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... ·...

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1 Chemical Engineering 374 Fluid Mechanics Lecture 2 Fluid Properties

Transcript of Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... ·...

Page 1: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

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Chemical Engineering 374

Fluid Mechanics

Lecture 2

Fluid Properties

Page 2: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Spiritual Thought

• D&C 42:2

“If thou shalt ask, thou shalt receive

revelation upon revelation, knowledge upon

knowledge, that thou mayest know the mysteries

and peacable things – that which bringeth joy, that

which bringeth life eternal”

• D&C 46:18

“ To another is given the word of knowledge,

that all may be taught to be wise and to have

knowledge.”

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Page 3: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Fluids Roadmap3

Page 4: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Key Points

• Fluid Definition

– Sheer Stress

• Fluid Properties

1. Density

• Density variation with P,T

2. Viscosity (molecular interpretation, equation)

• Temperature/pressure effect on viscosity

• Newtonian fluids

• Non-Newtonian fluids

3. Kinematic Viscosity

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Page 5: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

What is a Fluid?

– Liquid or Gas

– “deforms continuously under applied shear

stress”

– Liquid: form a free surface

– Gases: fill volume, no free surface, mixing

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Fluid?6

Page 7: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Continuum vs. Particles7

Mass

Length (nm scale)

Distinct Particles

Length (m scale)

Mass

Continuum

Page 8: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Density

• mass/volume

– metric vs. British?» 1000 kg/m3, 1.2 kg/m3

» 62.3 lbm/ft3, 0.0752 lbm/ft3

• Specific Gravity

• Specific Weight

• Industry Specific

– Degrees API, Brix Gravity, Degrees Baume, etc.

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Page 9: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Density9

0

2000

4000

6000

8000

10000

12000

14000

16000

Mercury Water Seawater SAE 30 oil Gasoline

De

nsit

y (k

g/m

3)

0

200

400

600

800

1000

1200

Water Seawater SAE 30 oil Gasoline

De

nsit

y (

kg

/m3)

Page 10: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Density Changes

• Gas: Ideal Gas

• Liquid: nearly constant

– 4% variation in T 0 ˚C to 100 ˚C

– 1% variation in P 1 atm to 200 atm

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Page 11: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Density of water versus temperature

Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore Okiishi

Copyright © 2005 by John Wiley & Sons, Inc. All rights reserved.

4%

variation

Page 12: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Density changes w/ Pressure12

• Coefficient of Compressibility

Page 13: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Density changes w/ Temperature13

• Coefficient of Volume Expansion

Page 14: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Examples14

Harry potter, when transmuting a tank of water (3m3 at 1 atm) accidentally

shrinks the walls of the tank (while not changing the mass of water inside) to 2

m3. How much additional pressure is exerted on the walls of the tank as a

result? (κ = 21,000 atm)

On his next attempt he uses less water (only 1 m3) in the same tank, but he

increases the temperature by 300 ˚C. How much volume does the water now

take up? (β = 2.61x10-4/K)

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Viscosity15

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Viscosity I16

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Viscosity II17

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Viscosity Changes with T & P18

• Liquids: molecules are everywhere,

constantly getting in way of motion

– T up, molecules move faster…

• μ decreases

• gases: molecules are sparce, rarely hit

each other

– T up, molecules move faster…

• more frequent collisions, μ increases

• Pressure:

– Small effect for both

Page 19: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Kinematic Viscosity19

• ν (units of m2/s)

• Μ steam vs. water is factor 100 different

• Ρ sream vs. water is Factor 1000 different

Page 20: Chemical Engineering 374 - Educating Global Leadersmjm82/che374/Fall2016/LectureNotes/Lecture... · Fundamentals of Fluid Mechanics, 5/E by Bruce Munson, Donald Young, and Theodore

Non-Newtonian Fluids20

m

dv/dy

m

dv/dy

m

dv/dy

m

dv/dy

t

dv/dy

t

dv/dy

t

dv/dy

t

dv/dy

Newtonian Bingham Plastic Pseudoplastic Dilitant

t=m*dv/dy t=m*dv/dy + ty t=k*|dv/dy|n