Solutions Manual for Wastewater Engineering: Treatment and Resource Recovery (5th Edition) by Metcalf & Eddy

, SOLUTIONS MANUAL

Wastewater Engineering:
Treatment and Resource Recovery Fifth
Edition




McGraw-Hill Book Company, Inc.
New York

, CONTENTS
1. Wastewater Engineering: An Overview 1-1
2. Constituents in Wastewater 2-1

3. Wastewater Flowrates and Constituent Loadings 3-1

4. Process Selection and Design Considerations 4-1

5. Physical Processes 5-1

6. Chemical Processes 6-1

7. Fundamentals of Biological Treatment 7-1

8. Suspended Growth Biological Treatment Processes 8-1

9. Attached Growth and Combined Biological Treatment Processes 9-1
10. Anaerobic Suspended and Attached Growth Biological Treatment
Processes 10-1
11. Separation Processes for Removal of Residual Constituents 11-1

12. Disinfection Processes 12-1

13. Processing and Treatment of Sludges 13-1

14. Ultimate and Reuse of Biosolids 14-1

15. Treatment of Return Flows and Nutrient Recovery 15-1

16. Treatment Plant Emissions and Their Control 16-1
17. Energy Considerations in Wastewater Management 17-1
18. Wastewater Management: Future Challenges and 18-1
Opportunities




v

,iii

, 1
INTRODUCTION TO
WASTEWATER TREATMENT
PROBLEM 1-1

Instructors Note: The first six problems are designed to illustrate the
application of the mass balance principle using examples from hydraulics with
which the students should be familiar.

Problem Statement - See text, page 53
Solution
1. Write a materials balance on the water in the tank
Accumulation = inflow – outflow + generation
dV dh
A Q –Q 0
in out
dt dt

2. Substitute given values for variable items and solve for h
dh t
A 0.2 m3 / s – 0.2 1 cos  m3 / s
dt 43,200
A = 1000 m2
t
3. dh 2 x10 4 cos dt
43,200

Integrating the above expression yields:
(43,200) (2 x10 4 ) t
h ho sin
43,200


4. Determine h as a function of time for a 24 hour cycle




1-1

,Chapter 1 Introduction to Wastewater Treatment and Process Analysis


t, hr t, s h, m t, hr t, s h, m
0 0 5.00 14 50,400 3.62
2 7200 6.38 16 57,600 2.62
4 14,400 7.38 18 64,800 2.25
6 21,600 7.75 20 72,000 2.62
8 28,800 7.38 22 79,200 3.62
10 36,000 6.38 24 84,400 5.00
12 43,200 5.00


5. Plot the water depth versus time




PROBLEM 1-2

Instructors Note: The first six problems are designed to illustrate the
application of the mass balance principle using examples from hydraulics with
which the students should be familiar.

Problem Statement - See text, page 53
Solution
1. Write a materials balance on the water in the tank
Accumulation = inflow – outflow + generation
dV dh
A Q –Q 0
in out
dt dt

2. Substitute given values for variable items and solve for h




1-2

, Chapter 1 Introduction to Wastewater Treatment and Process Analysis

dh t
A 0.33 m3 / s – 0.2 1 cos m3 / s
dt 43,200

dh t
A 0.13 m3 / s 0.2 cos m3 / s
dt 43,200

A = 1600 m2
dh t  3
(1600) 0.13 m3 / s 0.2 cos m /s
dt 43,200

3. Integrating the above expression yields:
3
h ho ( 0.13 m / s) t ( 0.2)(43,200) t
1600 1600sin 43,200 m3 / s


Determine h as a function of time for a 24 hour cycle

t, hr t, s h, m t, hr t, s h, m
0 0 5.00 14 50,400 8.24
2 7200 6.44 16 57,600 8.19
4 14,400 7.66 18 64,800 8.55
6 21,600 8.47 20 72,000 9.36
8 28,800 8.83 22 79,200 10.58
10 36,000 8.78 24 84,400 12.02
12 43,200 8.51


4. Plot the water depth versus time




1-3

,Chapter 1 Introduction to Wastewater Treatment and Process Analysis


PROBLEM 1-3

Instructors Note: The first six problems are designed to illustrate the
application of the mass balance principle using examples from hydraulics with
which the students should be familiar.

Problem Statement - See text, page 53
Solution
1. Write a materials balance on the water in the tank
Accumulation = inflow – outflow + generation
dV dh
A Q –Q 0
in out
dt dt

2. Substitute given values for variable items and solve for h
dh t
A 0.3 1 cos  m3 / s 0.3 m3 / s
dt 43,200

A = 1000 m2
t
dh 3 x10 4 cos dt
43,200
3. Integrating the above expression yields:



(43,200) (3x10 4) t
h ho sin
 
43,200

1. Determine h as a function of time for a 24 hour cycle

t, hr t, s h, m t, hr t, s h, m
0 0 5.00 14 50,400 2.94
2 7200 7.06 16 57,600 1.43
4 14,400 8.57 18 64,800 0.87
6 21,600 9.13 20 72,000 1.43
8 28,800 8.57 22 79,200 2.94
10 36,000 7.06 24 84,400 5.00
12 43,200 5.00




1-4

, Chapter 1 Introduction to Wastewater Treatment and Process Analysis


5. Plot the water depth versus time




PROBLEM 1-4

Instructors Note: The first six problems are designed to illustrate the
application of the mass balance principle using examples from hydraulics with
which the students should be familiar.

Problem Statement - See text, page 53
Solution
1. Write a materials balance on the water in the tank
Accumulation = inflow – outflow + generation
dV dh
A Q –Q 0
in out
dt dt

2. Substitute given values for variable items and solve for h
dh t
A = 0.35 1 +cos  m3 /s - 0.35 m3 /s
dt 43,200

A = 2000 m2
t
dh = 1.75 x 10-4 cos dt
43,200
3. Integrating the above expression yields:




1-5

, Chapter 1 Introduction to Wastewater Treatment and Process Analysis



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