EV401 |
PHYS & CHEM TREATMENT |
2023 |
2 |
Geography and Environmental Engineering |
3.5
(BS=0.0,
ET=3.5,
MA=0.0)
|
This course takes a process approach to environmental engineering using engineering science and design of drinking water treatment systems as the primary foci. Building upon concepts gained in environmental chemistry, cadets study physical and chemical processes used in environmental engineering. Discussion includes the theories behind these processes and the design procedures involved in their application. Cadets develop comprehensive concept design of drinking water treatment processes. While the focus of the course is drinking water treatment, the processes developed are also applicable to wastewater treatment, groundwater remediation, air pollution control, and the treatment of solid and hazardous wastes. |
23 @ 75 min (2.000 Att/wk) |
7 @ 120 min |
|
One term project, one field trip. |
EV401 |
PHYS & CHEM TREATMENT |
2019 |
2 |
Geography and Environmental Engineering |
3.5
(BS=0.0,
ET=3.5,
MA=0.0)
|
This course takes a process approach to environmental engineering using engineering science and design of drinking water treatment systems as the primary foci. Building upon concepts gained in environmental chemistry, cadets study physical and chemical processes used in environmental engineering. Discussion includes the theories behind these processes and the design procedures involved in their application. Cadets develop comprehensive concept design of drinking water treatment processes. While the focus of the course is drinking water treatment, the processes developed are also applicable to wastewater treatment, groundwater remediation, air pollution control, and the treatment of solid and hazardous wastes. |
23 @ 95 min (2.000 Att/wk) |
7 @ 120 min |
|
One term project, one field trip. |
EV401 |
PHYS & CHEM TREATMENT |
2008 |
2 |
Geography and Environmental Engineering |
3.5
(BS=0.0,
ET=3.5,
MA=0.0)
|
This course takes a process approach to environmental engineering using engineering science and design of drinking water treatment systems as the primary foci. Building upon concepts gained in environmental chemistry, cadets study physical and chemical processes used in environmental engineering. Discussion includes the theories behind these processes and the design procedures involved in their application. Cadets develop comprehensive concept design of drinking water treatment processes. While the focus of the course is drinking water treatment, the processes developed are also applicable to wastewater treatment, groundwater remediation, air pollution control, and the treatment of solid and hazardous wastes. |
30 @ 75 min (2.000 Att/wk) |
12 @ 55 min |
|
One term project, one field trip. |
EV401 |
PHYS & CHEM TREATMENT |
2007 |
2 |
Geography and Environmental Engineering |
3.5
(BS=0.0,
ET=3.5,
MA=0.0)
|
This course takes a process approach to environmental engineering using engineering science and design of drinking water treatment systems as the primary foci. Building upon concepts gained in environmental chemistry, cadets study physical and chemical processes used in environmental engineering. Discussion includes the theories behind these processes and the design procedures involved in their application. The health implications associated with drinking water and water treatment in contingency operations and applicable occupational health issues are discussed during the course. Cadets develop comprehensive concept design of drinking water treatment processes. While the focus of the course is drinking water treatment, the processes developed are also applicable to wastewater treatment, groundwater remediation, air pollution control, and the treatment of solid and hazardous wastes. |
40 @ 55 min (2.500 Att/wk) |
12 @ 55 min |
|
One term project, one field trip. |
EV401 |
PHYS & CHEM TREATMENT |
2004 |
2 |
Geography and Environmental Engineering |
3.5
(BS=0.0,
ET=3.5,
MA=0.0)
|
This course takes a process approach to environmental engineering using engineering science and design of drinking water treatment systems as the primary foci. Building upon understandings gained from environmental chemistry, cadets will study physical and chemical processes used in environmental engineering. Discussion includes the theories behind these processes and the design procedures involved in their application. The health implications associated with drinking water and water treatment in contingency operations and applicable occupational health issues are discussed during the course. Cadets, working in teams, develop a comprehensive concept design of drinking water treatment processes. While the focus of the course is drinking water treatment, the processes developed are also applicable to wastewater treatment, groundwater remediation, air pollution control, and the treatment of solid and hazardous wastes. |
40 @ 55 min (2.500 Att/wk) |
12 @ 55 min |
|
One term project, one field trip. |
EV401 |
ENVIR SYSTEMS ANAL & DESIGN |
2003 |
1 |
Geography and Environmental Engineering |
3.0
(BS=0.0,
ET=3.0,
MA=0.0)
|
This course takes a process approach to environmental engineering using the engineering science and design of drinking water treatment systems as the primary focus. The various physical, chemical and biological processes used in environmental engineering are examined in some detail, building upon the understanding gained in the introductory course. Discussion includes both the theories behind these processes and the design procedures involved. Water treatment in contingency operations is discussed. Cadets, working in teams, develop a comprehensive concept design of drinking water treatment processes. While the focus of the course is drinking water treatment, the processes developed are also applicable to wastewater treatment, groundwater remediation, air pollution control, and the treatment of solid and hazardous wastes. |
40 @ 55 min (2.500 Att/wk) |
0 @ 0 min |
|
Three in-class demonstration labs. One term project; approximately six problem sets; compensatory time provided for the design project. |
EV401 |
ENVIR SYSTEMS ANAL & DESIGN |
2002 |
1 |
Geography and Environmental Engineering |
3.0
(BS=0.0,
ET=3.0,
MA=0.0)
|
This course takes a process approach to environmental engineering using the engineering science and design of drinking water treatment systems as the primary focus. The various physical, chemical and biological processes used in environmental engineering are examined in some detail, building upon the understanding gained in the introductory course. Discussion includes both the theories behind these processes and the design procedures involved. Water treatment in contingency operations is discussed. Cadets, working in teams, develop a comprehensive concept design of a drinking water treatment facility. While the focus of the course is drinking water treatment, the processes developed are also applicable to wastewater treatment, groundwater remediation, air pollution control, and the treatment of solid and hazardous wastes. |
35 @ 55 min (2.500 Att/wk) |
5 @ 55 min |
|
Three in-class demonstration labs; one term project; approximately six problem sets; compensatory time provided for the design project. |