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EV397 COURSE DETAILS


4 Version(s) of this Course

EV397 (Version: 2023 2) COURSE DETAILS


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
EV397 AIR POLLUTION ENGINEERING 2023 2 Geography and Environmental Engineering 3.0 (BS=0.0, ET=3.0, MA=0.0)
SCOPE
This course employs a design approach to air pollution control. It begins by defining air pollution problems, to include pollutant types, sources, legislation, and effects on both local and global scales. The course then examines the design of various means of controlling particulate and gaseous air pollution from both mobile and stationary sources. Finally, students study the link between meteorology and air pollution, as well as pollutant dispersion modeling in the atmosphere. A course project involves collection and analysis of indoor air quality data at selected locations on the installation.
LESSONS: 30 @ 75 min (2.000 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
Field Trip(s).

EV397 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  EV203 2003 1 1 Y
  EV203X 2021 1 2 Y

EV397 (Version 2023-2) COURSE OFFERINGS


AYT #SECT/SIZE CPBLTY ENRLD WAIT SEATS CLOSED DETAILS
2024 - 2 1 19 19 12 0 7 N Hours

2025 - 2 1 19 19 13 0 6 N Hours

2026 - 2 1 18 18 14 0 4 N Hours

2027 - 2 1 19 19 3 0 16 N Hours


EV397 (Version: 2019 2) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
EV397 AIR POLLUTION ENGINEERING 2019 2 Geography and Environmental Engineering 3.0 (BS=0.0, ET=3.0, MA=0.0)
SCOPE
This course employs a design approach to air pollution control. It begins by defining air pollution problems, to include pollutant types, sources, legislation, and effects on both local and global scales. The course then examines the design of various means of controlling particulate and gaseous air pollution from both mobile and stationary sources. Finally, students study the link between meteorology and air pollution, as well as pollutant dispersion modeling in the atmosphere. The culminating course project involves a numerical approach to dispersion modeling that incorporates modeling and solution optimization.
LESSONS: 30 @ 75 min (2.000 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
Field Trip(s).

EV397 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  EV203 2003 1 1 Y
  EV203X 2021 1 2 Y

EV397 (Version: 2008 2) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
EV397 AIR POLLUTION ENGINEERING 2008 2 Geography and Environmental Engineering 3.0 (BS=0.0, ET=3.0, MA=0.0)
SCOPE
This course employs a design approach to air pollution control. It begins by defining air pollution problems, to include pollutant types, sources, legislation, and effects on both local and global scales. The course then examines the design of various means of controlling particulate and gaseous air pollution from both mobile and stationary sources. Finally, students study the link between meteorology and air pollution, as well as pollutant dispersion modeling in the atmosphere. The culminating course project involves a numerical approach to dispersion modeling that incorporates modeling and solution optimization.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
Field Trip(s).

EV397 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  EV203 2003 1 1 Y

EV397 (Version: 2007 2) COURSE DETAILS (ARCHIVED)


COURSE TITLE EFF YEAR EFF TERM DEPARTMENT CREDIT HOURS
EV397 AIR POLLUTION ENGINEERING 2007 2 Geography and Environmental Engineering 3.0 (BS=0.0, ET=3.0, MA=0.0)
SCOPE
This course employs a design approach to air pollution control. It begins by defining air pollution problems, to include pollutant types, sources, legislation, and effects on both local and global scales. The course then examines the design of various means of controlling particulate and gaseous air pollution from both mobile and stationary sources. Finally, students study the link between meteorology and air pollution, as well as pollutant dispersion modeling in the atmosphere. The culminating course project involves a numerical approach to dispersion modeling that incorporates modeling and solution optimization.
LESSONS: 40 @ 55 min (2.500 Att/wk) LABS: 0 @ 0 min
SPECIAL REQUIREMENTS:
In-class labs/demonstrations (included).

EV397 COURSE REQUISITES


TYPE COURSE EFF YEAR EFF TERM TRACK RED BOOK FLG
PRE REQUISITE  
  EV203 2003 1 1 Y