|
A
$25.00
per
semester
student
computing
facility
user
fee
is
assessed
for
CSEM
engineering
courses.
This
fee
is
in
addition
to
any
lab/material
fees.
ENVE
458
(3
Credits)
Fall
Energy
and
the
Environment
(3+0)
(Stacked
with
ENVE
658
and
ME
658
and
cross-listed
with
ME
458)
Overview
of
basic
concepts
of
energy
supply,
demand,
production
of
heat
and
power
impacts
of
energy
use
on
the
environment.
Extensive
discussion
of
mitigation
technologies
and
strategies
for
meeting
energy
needs
while
preserving
environmental
quality.
(Prerequisites:
MATH
201X,
PHYS
103,
CHEM
106X
and
junior
standing.)
ENVE
641
(3
Credits)
Fall
Aquatic
Chemistry
(3+0)
Aspects
of
physical,
colloid
and
equilibrium
chemistry
applied
to
environmental
engineering
and
science
problems.
(Recommended:
At
least
2
semesters
of
undergraduate
chemistry,
at
least
2
semesters
of
calculus,
graduate
standing,
or
permission
of
instructor.)
ENVE
642
(3
Credits)
Spring
Contaminant
Hydrology
(3+0)
Theoretical
and
applied
aspects
of
the
movement
of
contaminants
through
surface
water,
saturated
and
unsaturated
soil.
(Recommended:
Graduate
standing;
CE
663
or
equivalent;
or
permission
of
instructor.)
ENVE
643
(3
Credits)
Alternate
Spring
Air
Pollution
Management
(3+0)
Air
pollution
topics
include
the
quantity
and
quality
of
atmospheric
emissions
and
their
effects
on
the
human
environment.
Identification
and
location
of
sources,
measurement
of
quality
and
conformance
with
standards.
Legal
considerations
of
Clean
Air
Act
and
Amendments
and
local
regulations.
Evaluation
of
stationary
and
moving
sources.
Meteorology
and
modeling
requirements.
Control
mechanisms
for
gases
and
particulates;
and
engineering
economics.
(Recommended:
Graduate
standing;
MATH
201X;
CHEM
106X
or
equivalent;
or
permission
of
instructor.)
ENVE
644
(3
Credits)
Alternate
Spring
Environmental
Management
and
Law
(3+0)
Topics
of
environmental
impact
statements,
environmental
law
(local,
state
and
federal),
public
involvement
and
environmental
quality.
Impact
from
projects
of
mining,
highways,
airports,
pipelines,
industrial
development,
water,
wastewater
and
solid
waste,
and
others
--
theoretical
considerations
and
case
studies.
(Recommended:
Graduate
standing
or
permission
of
instructor.)
ENVE
645
(3
Credits)
Alternate
Spring
Unit
Processes
--
Chemical
and
Physical
(3+0)
Theory
and
design
of
chemical
and
physical
unit
processes
for
water
and
wastewater.
Sedimentation,
coagulation/flocculation,
filtration,
ion
exchange,
adsorption/absorption,
gas
transfer
and
other
special
topics.
Some
unit
process
demonstrations
and
experiments.
Emphasis
on
arctic
applications,
design
and
engineering
economics.
(Recommended:
Graduate
standing;
MATH
201X;
CHEM
106X
or
equivalent;
or
permission
of
instructor.)
ENVE
646
(3
Credits)
Alternate
Fall
Unit
Processes
--
Biological
(3+0)
Theoretical
and
applied
aspects
of
biological
wastewater
treatment,
including:
waste-activated
sludge
processes,
trickling
filters,
lagoons,
sludge
digestion
and
processing,
septic
tank
analysis
and
design,
nutrient
removal,
biology
of
polluted
waters,
state
and
federal
regulations.
(Recommended:
Graduate
standing
or
permission
of
instructor.)
ENVE
647
(3
Credits)
Alternate
Fall
Biotechnology
(3+0)
Theoretical
and
applied
aspects
of
bioengineering.
Issues
studied
include:
microbiology,
metabolism,
genetics,
genetic
engineering,
enzymes
and
catalysis,
stoichiometry
and
kinetics,
biological
reactor
design
and
bioremediation.
(Recommended:
Graduate
standing
or
permission
of
instructor.)
ENVE
648
(3
Credits)
Alternate
Fall
Solid
Waste
Management
(3+0)
Characterization,
collection,
disposal
and
treatment
of
municipal
and
industrial
residuals.
Emphasis
on
regulations
that
control
waste
management,
waste
generation
rates,
waste
characterization
procedures,
the
flow
of
materials
in
society,
materials
processing
for
waste
utilization
(recycling),
and
landfill
disposal.
(Recommended:
Graduate
standing
or
permission
of
instructor.)
ENVE
649
(3
Credits)
Alternate
Fall
Hazardous
and
Toxic
Waste
Management
(3+0)
(Cross-listed
with
GE
649)
Course
provides
in-depth
coverage
of
hazardous
and
toxic
substance
management
including
legal,
economic
and
technical
issues.
Instruction
will
be
conducted
through
interdisciplinary
faculty.
Topics
will
include
characterization
of
hazardous
materials,
economics
of
toxics
minimization,
hazardous
materials
use,
storage
and
disposal,
technical
aspects
of
landfill
siting,
and
selection
and
design
of
treatment
technologies.
Includes
case
studies
of
current
waste
management
issues.
(Prerequisites:
Bachelor's
degree
in
science
or
engineering;
or
permission
of
instructor.)
ENVE
650
(1
Credit)
Spring
Advanced
Topics
(1+0)
Presentations
by
students,
faculty
and
outside
experts
on
current
issues
in
environmental
science
and
engineering.
Course
may
be
repeated
twice
for
credit
when
topic
varies.
(Prerequisites:
Admitted
to
the
Environmental
Engineering
or
Environmental
Quality
Science
graduate
program;
or
permission
of
instructor.)
ENVE
651
(3
Credits)
Alternate
Spring
Environmental
Risk
Management
(3+0)
The
characterization
of
population
exposures
and
the
evidence
used
to
identify
environmental
substances
that
may
pose
a
human
health
risk.
The
theory
and
methods
for
estimating
risk:
hazard
identification,
dose-response
assessment,
exposure
assessment,
and
risk
characterization.
(Prerequisites:
Undergraduate
degree
in
engineering
or
natural
science,
or
permission
of
instructor.)
ENVE
652
(3
Credits)
Alternate
Spring
Introduction
to
Toxicology
for
Engineers
and
Scientists
(3+0)
Introduction
to
the
science
of
toxicology
for
graduate
students
in
fields
that
use
information
about
hazardous
chemicals
for
input
into
decisions.
Topics
include
an
overview
of
the
effects
of
chemicals
on
cells,
organs,
and
organ
systems,
and
the
toxic
effects
of
classes
of
chemicals
such
as
pesticides,
metals,
and
solvents.
Use
of
data
from
animal
testing
and
common
lists,
factors,
and
extrapolation
are
reviewed.
(Prerequisites:
Undergraduate
degree
in
engineering
or
natural
science,
or
permission
of
instructor.)
ENVE
653
(1
Credit)
Spring
Environmental
Measurements
Laboratory
(0+3)
Introduction
to
analytical
methods
and
measurement
techniques
used
in
environmental
engineering
and
environmental
quality
science.
Includes
the
design,
conduct
and
reporting
on
a
laboratory
experiment.
Includes
sample
preparation
techniques
and
analytical
methods
such
as
microscopy,
atomic
adsorption
spectroscopy,
gas
chromatography,
liquid
chromatography
and
mass
spectrometry.
(Recommended:
ENVE
641.)
ENVE
658
(3
Credits)
Alternate
Fall
Energy
and
the
Environment
(3+0)
(Stacked
with
ENVE
458
and
ME
458
and
cross-listed
with
ME
658)
Basic
concepts
of
energy
supply,
demand,
production
of
heat,
and
power
impacts
of
energy
use
on
the
environment.
Extensive
discussion
of
mitigation
technologies
and
strategies
for
meeting
energy
needs
while
preserving
environmental
quality.
(Recommended:
Graduate
standing;
MATH
201X;
CHEM
106X
or
equivalent;
or
permission
of
instructor.)
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