1. Baghouse Filters & Scrubbers
Module 3b
Baghouse Filters & Scrubbers

2. What are we doing in class today?
MCEN 4131/5131
What are we doing in class today?
How was working on the project in class?
Davis readings
Exam next week - closed book and notes

3. Module 3a Educational Objectives
MCEN 4131/5131
Review
Module 3a Educational Objectives
Estimating cyclone collection efficiency (equation 4.7, 4.8 p )
50% cut diameter dpc (equation 4.6 p. 129)
Designing a cyclone from start to finish (Example 4.5 p )
Estimating ESP collection efficiency using Deutsch equation (equation 5.7 p. 152)
Plate size and number, duct number, section number
Designing an ESP from start to finish (p )

4. Module 3b Educational Objectives
MCEN 4131/5131
Learning Objectives for Today
Module 3b Educational Objectives
Filtration mechanisms
What is the filter drag model for (p. 181)
Types of baghouses - Shaker, reverse air pulse jet (P. 184, 194)
Number of compartments (p.186)
Designing a baghouse accounting for superficial velocity, area per bag, cleaning methods
How scrubbers work (p. 209)
Venturi scrubbers (p. 212)
Designing a scrubber

5. Filtration Mechanisms
MCEN 4131/5131
Learning Objectives
Filtration Mechanisms
Diffusion
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Q: How does efficiency change with respect to dp?
a. Efficiency goes up as dp decreases
b. Efficiency goes down as dp decreases

6. Filtration Mechanisms
MCEN 4131/5131
Learning Objectives
Filtration Mechanisms
Impaction
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Q: How does efficiency change with respect to dp?
a. Efficiency goes up as dp decreases
b. Efficiency goes down as dp decreases

7. Filtration Mechanisms
MCEN 4131/5131
Learning Objectives
Filtration Mechanisms
Interception
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Fat Man’s Misery,
Mammoth Cave NP

8. Learning Objectives MCEN 4131/5131 Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design

9. FILTRATION Q: Do filters function just as a strainer,
MCEN 4131/5131
Learning Objectives
FILTRATION
Q: Do filters function just as a strainer,
collecting particles larger than the strainer spacing?
a: yes
b: no
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Fiber filter

10. Filter Drag Model Areal Dust Density Filter drag
MCEN 4131/5131
Learning Objectives
Filter Drag Model
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design Ks
Areal Dust Density Ke
Filter drag e s
Time (min)
DP, Pa
150 5
380 10
505 20
610 30
690 60
990
Ke & Ks to be determined empirically
DPf: fabric pressure drop
DPf: particle layer pressure drop
DPs: structure pressure drop
Q: What is the pressure drop after 100 minutes of operation? L = 5 g/m3 and V = 0.9 m/min.

11. MCEN 4131/5131
Learning Objectives
Types of Baghouses
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
The three common types of baghouses based on cleaning methods
Clicker question: In which type is the dusty air flow blocked from the compartment to be cleaned, and the bags are then shaken to knock off the dust?
Reverse-air
Shaker
Pulse-jet

12. MCEN 4131/5131
Learning Objectives
Note about pulse-jets
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
blast of compressed clean air flows briefly into the bags, while they are still filtering dusty air, knocking off some dust
bottom of the bag is closed and filtration can occur on this surface - need to account for in area calculations

13. Number of Compartments
MCEN 4131/5131
Learning Objectives
Number of Compartments
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Q: What is one of the parameters that affect our decision on the number of compartments to be used?
a. fabric type
b. time required to clean a compartment
c. temperature and RH

14. Parallel Flow Operation
MCEN 4131/5131
Learning Objectives
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Parallel Flow Operation
How do you determine when to clean?

15. Design procedure for baghouses
MCEN 4131/5131
Learning Objectives
Design procedure for baghouses
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Identify filter velocity (V) for dust that your are trying to treat (table 6.1)
Estimate net cloth area A = Q/V
Remember to add area at bottom of filter if you are using pulse-jet
Estimate number of compartments using table 6.3
Not needed for pulse-jet
May need to develop filter-drag model to understand relationship between pressure drop DP, filtering velocity V
For estimating how long you can run

16. Its Raining in Boulder Liken particle scrubbers to a good rain storm
MCEN 4131/5131
Learning Objectives
Its Raining in Boulder
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Liken particle scrubbers to a good rain storm
Some particles in air are removed because they are collected on or in raindrops and deposited on ground

17. Its Raining in Boulder Liken particle scrubbers to a good rain storm
MCEN 4131/5131
Learning Objectives
Its Raining in Boulder
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Liken particle scrubbers to a good rain storm
Some particles in air are removed because they are collected on or in raindrops and deposited on ground

18. Its Raining in Boulder Liken particle scrubbers to a good rain storm
MCEN 4131/5131
Learning Objectives
Its Raining in Boulder
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Liken particle scrubbers to a good rain storm
Some particles in air are removed because they are collected on or in raindrops and deposited on ground

19. Its Raining in Boulder Liken particle scrubbers to a good rain storm
MCEN 4131/5131
Learning Objectives
Its Raining in Boulder
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Liken particle scrubbers to a good rain storm
Some particles in air are removed because they are collected on or in raindrops and deposited on ground

20. MCEN 4131/5131
Learning Objectives
Question
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
The efficiency of a wet scrubber can be simply related to the energy expended in producing the actual gas-liquid contact. The (more/less) energy that is expended, the more turbulent the contacting process and the (higher/lower) the efficiency
More, higher
more, lower
less, higher
less, lower

21. MCEN 4131/5131
Learning Objectives
Venturi Scrubbers
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Q: venturi scrubbers require which of the following to work efficiently?
elevated temperatures within the scrubber
High velocities at the point of initial gas-liquid contact
Very small (what’s very small?) droplet sizes within scrubber

22. Design procedure for Scrubbers
MCEN 4131/5131
Learning Objectives
Design procedure for Scrubbers
Filtration mechanisms
Filter drag model
Types of baghouses
Number of compartments
Baghouse design
How scrubbers work
Venturi scrubber
Scrubber design
Identify type of scrubber
Counter current
Cross flow
Venturi
Calculate Kp, impaction parameter
Calculate single droplet target efficiency, hd
Calculate Penetration, Ptd
Collection efficiency is 1 - Ptd

23. MCEN 4131/5131
Baghouse Filters
Particulate control by impaction, interception, diffusion on fabric & dust layer

24. Advantages/Disadvantages
MCEN 4131/5131
Advantages/Disadvantages
Very high collection efficiencies
Pressure drop reasonably low (at beginning of operation, must be cleaned periodically to reduce)
Can’t handle high T flows or moist environments

25. Wet Particle Scrubbers
MCEN 4131/5131
Wet Particle Scrubbers
Particulate control by impaction, interception with water droplets
Can clean both gas and particle phases
High operating costs, high corrosion potential

26. Other Technologies High-temp ceramic filter
MCEN 4131/5131
Other Technologies
High-temp ceramic filter
Operates at T > 500 F (limit for baghouses)