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Facilities
Advanced
Design and Manufacturing Laboratory
This
laboratory
provides
research
opportunities
in
design
ethodology,computer-aided design,
analysis
and
manufacturing,
and
materials
processing
and
manufacturing.
Facilities
include
various
computers
and
software,
I-DEAS,
Pro/E,ANSYS,
MasterCAM,
Mechanical
DeskTop,
SurfCAM,
Euclid,
Strim, ABQUS,
and
more.The
machines
include
two
Sanders
Model Maker
rapid
prototyping
machines,
a
BridgePort
CNC Machining
Center,
a
BOY
220 injection
molding
machine,
an
Electra
high-temperature
furnace
for
metal sintering,
infiltration, and
other heat
treatment.
Biofluid
Mechanics
Laboratory
The
biofluid
mechanics
laboratory
conducts
computational and experimental research on the
dynamics of
flow in the cardiovascular and respiratory system, and the effects of flow
on biological processes,
particularly hemostasis and thrombosis. Lab resources
include high-performance engineering workstations, commercial computational
fluid dynamics (CFD) software, and basic experimental facilities including
Laser
Doppler Velocimetry (LDV), pressure and flow
transducers, pumps, and microscopes.
Biomechanics
Laboratory
Emphasis
in this
laboratory
is
placed
on
understanding
the
mechanical
properties
of
human
joints,
characterization
of
the
mechanical
properties
of
biological
materials,
studies
of
human
movements,
and
design
and
development
of
artificial
limbs.
Facilities
include
a
3-D
kinematic
measuring
system,
Instron
testing
machine,
and
microcomputers
for
data
acquisition
and
processing.
Additional
biomechanical
laboratory
facilities are
available
at
Moss Rehab
Hospital.
Combustion and Fuels Chemistry Laboratory
Emphasis
in this
laboratory
is placed
on developing an
understanding
of
both
the
chemical
and
physical
factors
that
control
and,
hence,
can
be
used
to
tailor
combustion
processes
for
engineering
applications.
Facilities
include
continuous
spectroscopic
reaction
monitoring
systems,
static
reactors,
combustion
bombs,
flat
flame
burner
systems,
flow
reactors,
and
complete
analytical
and monitoring instrumentation.
Combustion
and
Thermal-Science
Laboratory
Research is conducted in the areas of (1) low temperature
hydrocarbon oxidation, (2) cool flames,
(3) auto-ignition, (4) flame instabilities, (5) flame
structure, (6) flame ignition, and (7) flame extinction
(quelching). Cooperative research projects in
microgravity combustion are ongoing with NASA’s
Glenn Research Center in Cleveland, Ohio, to ascertain
the effects of natural convection on the structure and
stability of cool and premixed flames. New ways to
improve fuel efficiency in practical combustors and
recover waste energy in the transportation sector are also being explored.
Combustion
Emissions/Engine
Laboratory
In
this
laboratory
the effects
of
engine
operating
variables,
fuel
type,
ambient
conditions,
and
control
devices
on
engine
performance
and
emissions
are
studied.
The
laboratory
contains
both
diesel
and
spark
ignition
engines,
as
well
as
extensive
engine
and
emissions
monitoring
instrumentation,
including
dynamometers
and
continuous
gaseous
emission
analyzers.
The
laboratory
has
a
high-pressure
flow
reactor
for
detailed
kinetic
studies
of hydrocarbon
oxidation processes
in engines.
Composite
Mechanics
Laboratory
Emphasis
in
this
laboratory is
placed
on
the
characterization
of
performance
of
composite
materials.
Current
interest
includes
damage
mechanisms,
failure
processes,
and
time-dependent
behavior
in
resin-,
metal-,
and
ceramic-matrix
composites.
Major
equipment
includes
servo-hydraulic
and
electromechanical
Instron
testing
machines,
strain/displacement
monitoring
systems,
environmental
chambers,
microcomputers
for
data
acquisition
and
processing,
composites
fabrication
facility, interferometric
displacement gauge,
X-radiography, and
acoustic emission
systems.
Drexel Plasma Institute
The Drexel Plasma Institute (DPI) was
formed in 2002 to stimulate and coordinate
research projects related to plasma
and other modern high energy engineering
techniques. Today the DPI
is an active multidisciplinary
organization involving 23 faculty members
from 6 engineering departments working
in close collaboration with School
of Biomedical Engineering, College
of Arts and Sciences and College of
Nursing and Health Professions.
Heat
and
Mass
Transfer
Laboratory
Emphasis
in
this
laboratory is
placed
on
the
study
of
convective
heat
transfer
problems
using
short-duration
facilities,
including
a
shock
tunnel
and
a
Ludwieg
wind
tunnel.
The
topics
of
fluid
mixing,
separated
flow,
and
flow
development
are
being
studied.
A
real-time
data
acquisition
system
utilizing
an
LSI-11
minicomputer
combined
with
the
VAX
11/750
system
is
used.
A
flow visualization
technique
is available.
Heat
Transfer
Laboratory
The
heat
transfer
laboratory is
outfitted
with
an
array
of
instrumentation
and
equipment
for
conducting
single-
and
multiphase
heat
transfer
experiments
in
controlled
environments.
Facilities
include
computer-controlled
data
acquisition
(LabVIEW
and
MacAdios)
systems,
a
Newport
holographic
interferometric
system