Mapping of Environmental Specific Programs to Courses in the Curriculum i.

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calculus-based physics, general chemistry, an earth science, (e.g., geology, meteorology, soil science, relevant to the program of study), a biological science, (e.g., microbiology, aquatic biology, toxicology, relevant to the program of study), and fluid mechanics relevant to the program of study

ii.

Mapping of Environmental Specific Programs to Courses in the Curriculum

Specific Program Outcome

i.

proficiency in mathematics through differential equations, probability and statistics,

Introductory level knowledge of environmental issues associated with air, land, and water systems and associated environmental health impacts  

Course(s)

MATH 1351

MATH 1352

MATH 2350

MATH 3350

STATISTICS

CE 1305

CE 3303

PHYS 1408

CE 2301

CHEM 1307

CHEM 1308

ENVE 4315

ENTX 6445

ATMO 1300

GEOL 1303

GEOL 1101

CE 3321

CE 5363

CE 5364

CE 5395

BIOL1403

BIOL 1404

CE 3309

CE 5383

ENVE 4185

CE 5393

ENVE 4385

CE 3305

ENVE 4107

ENVE 4191

ENVE 4314

CE 3372

CE 4353

CE 5360

ENVE 1100

CE 3309

CE 5363

CE 5364

CE 5383

CE 5393

CE 5395

ENVE 4107

ENVE 4185

ENVE 4191

Topics

Calculus I

Calculus II

Calculus III

Differential equations

Either Math 3342 or IE 3341

Math

Math

Mechanics, kinematics, energy, momentum, thermodynamics

Application of physics

General chemistry I

General chemistry II

Water chemistry

Chemical sources and fates in environmental systems

Introduction to Atmospheric Science

Physical Geology

Geology laboratory

Soil characteristics and mechanics

Hydrogeology, porous media flow

Subsurface contaminant transport and fate

Geologic controls on landfill design

Cell biology, biochemistry, molecular biology

Organisms, ecology, biodiversity

Softening and bacterial growth and kinetics

Bioremediation in soil systems

Microbial processes in wastewater and nature

Microbial wastewater treatment

Water quality

Fluid mechanics

Water quality

Desalination and membrane fouling

Microbial growth, nutrient requirements

Pipe flow and open channel flow

Open channel design

Open channel flow

Review subdisciplines envir. engineering

Streeter-Phelps, air pollution, water/wastewater

Groundwater quality and quantity issues

Protection and remediation of groundwater, risk assessment

Bioremediation of soil

Treatment of wastes

Solid waste and hazardous waste generation, disposal, environmental and health impacts

Water quality parameters

Microbial and in/organic contamination soil/water

Quality-based water source & disposal selection

ENVE 4307

ENVE 4385

ENVE 4391

ENVE 4399

ENVE 4314

ENVE 4315

ENVE 5303

iii.

Conduct laboratory experiments and critically analyze and interpret data in more than one of the major environmental engineering focus areas

 

iv.

Engineering design experiences integrated throughout the professional component of the curriculum

 

CE 3105

ENVE 1100

ENVE 4107

ENVE 4191

ENVE 4185

CE 3354

CE 3372

CE 4353

CE 5360

CE 5363

CE 5364

ENVE 4307

ENVE 4391

v.

Proficiency in advanced principles and practice relevant to the program objectives

 

vi.

Understanding of concepts of

ENVE 4399

ENVE 5303

ENVE 5305

ENVE 5306

CE 3372

CE 5364

CE 5395

ENVE 4307

ENVE 4314

ENVE 4315

ENVE 4385

ENVE 4391

ENVE 4399

ENVE 5303

ENVE 5305

ENVE 5306

CE 3309

CE 3354

Water quality parameters

Microbial and in/organic contamination soil/water

Quality-based water source selection

Quality-based water source & disposal selection

Membrane fouling, Desalination

Water pollutant chemistry

Air pollution sources, environmental impacts, dispersion, control

Fluid flow, energy losses, flow control devices

Water filter design

Water quality testing

Jar tests for treatment; solid waste generation and leaching

Microbial enumeration and growth

Design of storm water runoff control systems

Pipe networks, sanitary and stormwater collection design

Design of open channels and culvert selection

Design of open channels

Design of well systems

Design of remediation systems

Sizing of units for wastewater treatment

Sizing of units for potable water treatment

Wastewater treatment with cost, hydraulic profiles

Selection and sizing of air control devices

Plant design, selection, sizing of wastewater treatment units, odor handling, solid waste generation rates, solid waste disposal

Site layout, hydraulic profile, and technical memoranda, cost

Design of storm water, sewer and potable water systems

Ground water resource, chemistry, modeling

Solid and hazardous waste focus

Chemistry, wastewater treatment

Design of membrane systems

Application of water chemistry in treatment systems

Microbial growth parameters affecting treatment performance

Chemistry, water treatment

Chemistry, wastewater treatment

Atmospheric systems and air pollution control

Wastewater management, sludge management

Wastewater management, sludge management

Regulatory requirements

Standard-of-practice

professional practice and the roles and responsibilities of public institutions and private organizations pertaining to environmental engineering

 

CE 5364

ENVE 4307

ENVE 4391

ENVE 4399

ENVE 5303

ENVE 5305

ENVE 5306

ENGR 4392

Water quantity and quality regulations, risk assessment

Regulatory requirements

Regulatory requirements

Regulatory requirements

Regulatory requirements

Comparison of alternatives on cost and O&M

Preparation of technical memoranda for bidding

Professional practice issues and ethics

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