Conductive Heat Transfer Apparatus
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Transcript of Conductive Heat Transfer Apparatus
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CONDUCTIVE HEAT TRANSFER
APPARATUS P13624
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John Durfee, Ryan Murphy, Fielding Confer Dan Unger, Katie Higgins, Robin Basalla
Group Members
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Agenda • General Review 3:00pm• Concept Generation Review3:05• Collaboration of Ideas3:10• Refining the Concept3:20• Finalizing the Design3:30• Bill of Materials3:45• Final Drawing3:55• Calculations4:05• Risk Assessment4:15• Testing Procedures4:25• Production Timeline4:30
Questions?
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General Review
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PurposeTo design a heat conduction apparatus that can illustrate fundamental concepts of heat transfer to students new to hands-on engineering
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KeywordsTo quickly outline the primary goals, follow SAMPLE
Safety- minimal risk of student injury Accuracy- correct measurements of
conductivity Mobility- can be maneuvered in and out of
lab Precision- measurements are easily
repeated Longevity- robust materials and long life
span Ease of use- simple assembly,
disassembly, & cleaning
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Top Level Function
Uninformed Student
Partial Assembly
Energy
Unknown k
Informed StudentHands-on
ExperienceThermal Energy
Known k
Demonstrate Principle of
Thermal Conductivity
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Functional DecompositionDemonstrateThermalConductivity
Creates1-DimensionalHeat Transfer
Minimal heat loss from boundariesGenerates heat fluxProvides proper temperature variationAccepts multiple geometriesAccepts multiple materials/phasesMinimizes resistance at heat exchanges
GeneratesMeasurableData
AccuratePreciseManual collectionDigital collection (Labview)Displays rate of heat fluxDisplays temperature distribution
EnhanceStudent Lab Skills
Requires manual assembly and disassemblyCan be used within given time periodsFits on the chemical engineering cartsHas replaceable components Low maintenanceDurable
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Specifications
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Specifications
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Concept Generation Review
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Fundamental Concept
Hot ColdHeat
Conduction
Energy In Energy Out
A temperature gradient will be produced between a Hot and Cold regions
This gradient will be set across a span of Heat Conduction The flow of energy will be allowed to reach steady state The Energy In will be equivalent to the Energy Out The temperature gradient will be measured with a transmission system
Temperature Transmission
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Refined Subsystems
Subsystems
Hot
Cold
Specimen
Temp Trans.
Insulation
Liquid flow jacket
Liquid flow jacket
Rectangular prism (bar)
ThermocouplesForm-
fitted Solid
Steam flow jacket
Cold air gun (vortex tube)
Cylinder (rod)
Resistance Thermometer
Form-fitting malleable
Steam flow jacket
Liquid N2
Thermistors
Wrapped
Electric heater
Thermoelectric Device
Coloring Material
Packed
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Previous Design Model•Electric cartridge heater placed in a drilled out hole on one end of the specimenHot•Controlled water temperature connected to the other specimen end with a flow jacket fittingCold•Cylindrical rodSpecimen•Probe ThermocouplesTemperature
Transmission•Fiberglass insulation contained within a round plastic casingInsulation•HorizontalOrientation
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Concept Comparison
Subsystems
HotCold
Specimen
Temp. Trans.
Insulation
Orientation
Assembly
Previous Design
DATUM
Box- Blocks
000+
0/+0+
Box Clamp
00+++++
Hinged
000++++
Vertical Hinged
Pipe
00
0/++++0
N2 Bath
0-0+++0/-
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Box-Blocks Concept•Open for considerationHot•Open for considerationCold•Oriented more towards a rectangular prismSpecimen•A separate thermocouple housing that can be slid in and out of the device on top the specimen
Temperature Transmission
•Solid blocked insulation that can be build around the specimen and fitted togetherInsulation•HorizontalOrientation
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Box-Blocks Concept
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Box Clamp Concept•Open for considerationHot•Open for considerationCold•Can be fitted for either a bar or a rodSpecimen•Thermocouples travel through a lid region and connect to the specimen
Temperature Transmission
•Solid formed or solid malleable insulation that holds the specimen on the bottom and is covered by an insulated lidInsulation•HorizontalOrientation
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Box Clamp Concept
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Hinged Concept•Open for considerationHot•Open for considerationCold•Orientated more towards a rodSpecimen•Thermocouples lay in small troughs on one half of the insulation housing and are covered upon closing the device
Temperature Transmission
•Solid formed insulation that holds the specimen between two hinged piecesInsulation•HorizontalOrientation
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Hinged Concept
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Collaboration of Ideas
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Benefits of Each System Box-blocks
Modular pieces that are easily constructed Box Clamp
Simple, rugged assembly Broad range of Insulation can be used Open for any type of specimen
Hinged Minimal disturbance to transmitters
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Putting It Together Begin with a sturdy
platform Seat a solid block of bulk
insulation Include a second block
formed to the specimen Cover it with a malleable
slab of insulation Close everything with a
second connected platform
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Exploded View Begin with a sturdy
platform Seat a solid block of bulk
insulation Include a second block
formed to the specimen Cover it with a malleable
slab of insulation Close everything with a
second connected platform
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Moving Forward Considering previous
decisions, i.e. The Hot Side will use
a cartridge heater The Cold Side will use
a liquid refrigeration unit
The Temperature Transmission will use thermocouples
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Moving Forward New subsystems
needed to be identified Heating Connection Cooling Connection Transmitter
Connection
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Moving Forward The cartridge heater
can be placed inside the specimen
The refrigerated fluid can cool the specimen with an external jacket
The thermocouples can be tacked to the specimen
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Summarizing Previous subsystems
can be used to help categorize new elements
A new list of subsystems has to be generated
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Categorized Subsystems Hot Side
Heat Source Heating Connection
Cold Side Cold Source Cooling Connection
Housing Top Bottom Connection
Transmission Transmitter Type Transmitter
Connection Insulation
Upper Middle Lower Sections
Specimen Geometry
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Refining the Concept
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Current Benefits Modular design Simple assembly Rugged, easily
replaceable components
Minimal stress on transmitter connections
Well insulated energy exchange
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Current Issues Need an appropriate
method to tack thermocouples
No feasible material was found for the upper insulation (soft forming)
Unshielded insulation can be damaged
Housing connections need to be addressed
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Thermocouple Connections Options
High Temp Solder Adhesive Patches Thermal Epoxy Drilled Holes
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Thermocouple Connections Pros
Solder Accurate Solid Connection
Adhesive Patches Simple Modular
Thermal Epoxy Accurate
Drilled Holes Accuracy Modular
Cons Solder
Dangerous Messy
Adhesive Patches Inaccurate
Thermal Epoxy Time Intensive Trades cost for accuracy Messy
Drilled Holes Permanent Added Processing
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Upper Insulation Options
Rigid Formed (like middle)
Soft Fiberglass or alternative
Combined Structure
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Upper Insulation Pros
Rigid Simple Durable
Fiberglass Cheap Modular
Combination Works best with
ideas Partially modular
Cons Rigid
Needs processing Less modular
Fiberglass Less durable Messy
Combination More complicated Needs processing
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Housing Insulation can be
contained within a boxed housing
Did not require much decision making
Slots can be made for the thermocouple wires (as opposed to a long section)
Openings will also be needed on both the Hot and Cold Ends
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Housing Connection Options
Hand screws Buckles Structural Offset
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Housing Connection Pros
Hand Screws Rugged Solid Closure
Buckles Simple Use Solid Closure
Structural Offset Simple No Processing
Needed Less Expensive
Cons Hand Screws
Needs processing Can be over worked
Buckles Needs processing Less durable
Structural Offset Less Solid Closure
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Selections Thermocouple Connections
Drilled Holes Upper Insulation
Rigid and Formed Housing
Box Enclosure Housing Connection
Structural Offset
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Finalizing the Design
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Still Need to Include Hot Side
Energy Measurement (power source) Cold Side
Coolant Carrier (tubing) Cooling Fluid
Temperature Transmission Data Collection Hardware Data Collection Software
Housing Construction (screws)
Used Specimen Container
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Used Specimen Container Holds each
specimen after they have been heated and measured
Isolates heated material from students
Can be moved away from testing area
Uses the same material as the housing device
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Final List of Subsystems Hot Side
Energy Management Heat Source Heating Connection
Cold Side Cold Source Cooling Connection Coolant Tubing
Transmission Transmitters Connection Data Collection Hardware Data Collection Software
Specimen Geometry
Insulation Upper Middle Lower
Housing Material Connection Fasteners
Used Container Material Insulation Fasteners
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Bill of Materials
Handout
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Final Drawings
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Full Draft
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Characteristic Dimensions Housing
(21x8x8)in box 1in thick
Insulation 6x(19x6x1)in 2 milled sections
Specimen 18in long 1in diameter
Heater 3/8in diameter 1¼in length
Cooling Jacket 1in diameter 1.24in depth
Thermocouples 5 total Begin 3¼in down
spec. 3in apart
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Cross SectionsHot Side Cold Side
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Calculations
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Needed Values Proper length for rod
Manageable specimen Reasonable time for Steady State
Thermal Conductivity “Bread and Butter” of experiment Derived from Fourier’s Law
Estimated Temperature Ranges Use k-values for plausible samples Stay within a reasonable range
Heat into the system (using potential materials) Heat loss (for safety and efficency)
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Rod Length vs. Steady State Time
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Approximations
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Fourier’s Law
q=Heat Flux (W/m^2)Ti=Initial Temperature (K)Tf=Initial Temperature (K)R= Thermal Resistivity (K*m^2/W)A=Surface Area (m^2)Q=Heat (Watts)r=Radius of Rod (m)x=location (m)
k=Thermal Conductivity (W/m*K)
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Estimated Temperature Ranges
∆x=10” r=1” Q=110 W
∆T(Al)=82.5K ∆T(Cu)=35.5K ∆T(Br)=119.9K
k(Al)=167 W/m*K k(Cu)=388 W/m*K k(Brass)=115 W/m*K
10”
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Lab View HMI Example
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Temperature Data Example
0 50 100 150 200 250 300 350 400 4500
2
4
6
8
10
12
Temperature vs. Time
Series1Series2Series3Series4Series5
Time
Tem
pera
ture
140.321123.12898.78975.45156.266
T1T2T3T4T5
Current Temperature
2 4 6 8 10 12 14 160
20
40
60
80
100
120
140
160
Temperature vs. Distance
T1T2T3T4Linear (T4)T5
Distance
Tem
pera
ture
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Heat Source
Q= V*I = 110W
I=Current (amps)R=Resistance of heater (Ω)V=Volts (Volt)P=Power (Watts)Q=Heat (Watts)
For Potential Power Source and HeaterV=23Volts (variable)I=5amps (constant)*Assuming all electrical power is transfer to heat
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Heat Loss
l=length (m)w=width (m)t=thickness (m)k=Thermal Conductivity (W/(mK))Tin= Temperature on the inside surface of the insulation (K)Tsur=Temperature of the outside surface of the insulation (K)*Assuming whole inner surface is at one temperature, and the entire outer surface is at room temperature (293 K)
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Inner surface temperature of 400KOuter surface temperature of 293KDimensions (19”x6”x2.5”)Material: Calcium Silicate k=.073W/(m*K)
Heat Lost (Q)= 9.04 W This calculation is <2% of the max energy
mentioned in the PRP (500W)
Estimated Heat Loss
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Risk AssessmentTesting ProceduresProduction Timeline
Remaining Handouts