CEE 490  /  ENVH 461    "Air Pollution Control"                                    Autumn 2008

Class Time:  10:30-12:20  Tuesday and Thursday      Credits:  4            More 221

Course Web Site:  http://courses.washington.edu/cee490  

 

Description: Fundamental concepts of air pollution control.  Emission sources, atmospheric dispersion, ambient

concentration, adverse effects, governmental regulations, emission standards, air quality standards, processes

and equipment for controlling emissions.

 

Instructor:   Dr. Michael J. Pilat                                        Office:   261 Wilcox

                      Professor of Civil Engineering                       Phone:  206 543-4789

                      Adjunct Professor of Chemical Engineering  Email:   mpilat@u.washington.edu

 

Optional Text: 

"Air Pollution: Its Origin and Control" ( 2nd Edition 1981),  (ISBN: 070022534X)

by Kenneth Wark & Cecil Warner.

 

"Air Pollution: Its Origin and Control" (3rd Edition 1997), (ISBN: 0673994163)

by Kenneth Wark; Cecil Warner, & Wayne Davis.

   Used available at Amazon.com & Abebooks:   http://www.abebooks.com/  

 

Course Grade:     Approximately:  Homework 20%, Midterm 40%, Final 40%.

 

Homework will be due at class time (usually at beginning of the class) and written on paper.

 

Tentative 2008 Lecture Schedule                                               Pages in 3rd Edition Wark, Warner, & Davis

 

  1. Sept 25    Air pollutants, effects, emissions, sources            Quiz 1                                           1- 54

  2. Sept 30    Government regulations, air quality stds, emission stds                                          61-104

  3. Oct   2     Global issues, meteorology, dispersion of air pollution                                           109-142

  4. Oct   7     Dispersion of air pollution in the atmosphere                                                          143-187

  5. Oct   9     EPA dispersion models, SCREEN3 and TSCREEN

  6. Oct 14     Application of SCREEN3; Photochemical smog                                                      471-480

  7. Oct 16     EKMA model for reducing HC & NOx to meet ozone air quality standards       480-488

  8. Oct 21     Motor vehicle emissions of air pollutants                                                                 489-524

  9. Oct 23     Auto emission controls, catalytic auto emission control

10. Oct 28     Midterm Exam

11. Oct 30     Auto emission controls, new technology (fuel cells, hybrids)

12. Nov  4     Control of particulate air pollutant emissions                                                         188-218

13. Nov  6     Particle emission control equipment                                                                         218-293

14. Nov 13    Particle emission control equipment and processes

15. Nov 18    Control of emissions of gases & vapors: Adsorption & absorption                       294-339

16. Nov 20    Control of nitrogen oxides from stationary sources                                                430-470

17. Nov 25    Case studies of air pollution control issues

18. Dec   2    Case studies of air pollution control issues

19. Dec   4    Case studies of air pollution control issues

20. Dec   8    Final Exam:  10:30-12:20 (Monday)

 

Case studies may include:

Acid rain, control of particulate and sulfur dioxide emissions from Centralia Coal-Fired Power Plant

(electrostatic precipitator for particle control, limestone slurry scrubber for sulfur dioxide control),

Spokane municipal incinerator (ammonia injection to reduce NOx, wet-dry acid gas absorption with

lime slurry, and filter baghouse to collect particulates), thermal desorption of hazardous organics from

soil ("dirt burning"), diesel engine emission controls (oxidation catalytic converter to reduce CO &

hydrocarbons, diesel particulate filter, and urea injection + selective catalytic reduction to reduce NOx),

wastewater treatment plant odor control (Brightwater), air pollutant emission reduction by using

electricity co-generation.