High-Performance Heat Tracing

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Understanding Installation of

Steam Tracing for Long-Term

Application Success

- Thomas Perry - QMax

- Carson Hannah - QMax

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High-Performance Heat Tracing

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Best Overall Solutions for Pipe Tracing

2

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Most Options for Equipment Jacketing

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Most Effective Systems for Tank Heating

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High-Performance Heat Tracing

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Steam Heating Systems for Piping

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High Heat Medium Heat Freeze Protection(Isolation Tracer)

Long Run Hot Oil

Special Case Heating

QMax Jacketed Pipe

High-Performance Heat Tracing

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Is this a good

Steam Tracing

System

installation?

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High-Performance Heat Tracing

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Is this a good

Steam Tracing

System

installation?

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High-Performance Heat Tracing

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Is this a good

Steam Tracing

System

installation?

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Air Gap

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Today we’ll look at:

- Conduction Heat Transfer

- What is Heat Transfer Compound (HTC)

- Test Results – Melting Sulfur w/ Steam Tracing using HTC

- Steam Tracing Designs Tested

- Simulating Varying HTC Thicknesses

- Melt-Out Test Results

- Lessons Learned

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High-Performance Heat Tracing

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Heat Transfer 101

• Conduction

• Convection

• Radiation

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Conductive Heat Transfer

• Q = UAdT , U = k / l

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Conductive Heat Transfer

• Q = UAdT , U = k / l

Poor “k” = Poor Heat Transfer

Large “l”

Poor “k” = Excellent Heat Transfer

Very Small “l”

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High-Performance Heat Tracing

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What is Heat Transfer Compound

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Heat Transfer Compound

(HTC) is used to bridge the

thermal gap between two parts

(in this case, pipe and

conductive tracing).

HTC contains graphite and

one or more binder

components which are

formulated for different

applications.

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Heat Transfer Boundaries of Conductive Steam Tracing

1) Film Coefficient of Steam2) Conduction thru Tubing3) Conduction thru very thin HTC4) Conduction thru Aluminum 5) Conduction thru very thin HTC6) Conduction thru Pipe Wall7) Film Coefficient of Process

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3

4

56

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Purpose of Heat Transfer Compound

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Hea

t Tr

ansf

er C

oef

fici

ent

BT

U/

hr

ft2

F

500

3400

300

1920

96 67 37.5

2880

12 10

5001000150020002500300035004000

** HTC = Heat Transfer Compound (k = 0.5 BTU/hr ft F)

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Heat Transfer Compound has a poor “k” so it MUST be used in very thin layers to achieve good heat transfer.

The HTC must also stay in place for long-term success.

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Bottom Line

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How does this

affect the

thermal

performance?

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Melt-Out Testing Using Steam Tracing and HTC

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CST (Carbon Steel Tracing)

Maximize the heat transfer from a contoured, carbon steel tube to the pipe wall /process

Minimize the HTC layer between tracing and pipe

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Steam Tracing Designs Tested

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FTS (Fluid Tracing System)

Maximize the heat transfer from a single tube into pipe wall /process using highly conductive aluminum

Minimize the HTC layer between tracing and pipe

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Steam Tracing Designs Tested

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Field Effects on Thickness- Raised Weld Crowns

- Uneven Distribution of HTC

- Air Gaps between pipe & Trace

- Imperfect Fitting/Welding of tracing

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Simulating Varying HTC Thicknesses

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(3) Different Simulated Gaps

- 1/32 inch (0.031 inch or 0.8 mm)

- 3/32 inch (0.094 inch or 2.4 mm)

- 5/32 inch (0.156 inch or 4.0 mm)

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Simulating Varying HTC Thicknesses

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Melt-Out Test Results

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Melt-Out Test Results

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Melt-Out Test Results

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Melt-Out Test Results

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Melt-Out Test Results

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Take-Aways

2) Training Installers on the purpose and use of Heat Transfer Compound

3) Use a Conductive Steam Tracing System that allows for excellent contact (small layers of HTC)

4) Avoid running Steam Tracing over weld beads

1) Follow Manufacturers’ Guidelines for Installation

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Tight Contact Leads to Long-Term Success

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Loose Contact Leads to Failure

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Thank you

Thomas Perry

Carson Hannah

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