Heat Pipe Heat Exchangers

Dr Amir Amini

Group Heat Transfer Solution

May 2013

Heat pipe comprises : Tube filled with a working fluid, Wick Structures : Sintered, Groove and Mesh Using the latent capacity of the fluid, we can transfer large amounts of heat very rapidly from a hot point to a cold point on the tube wall. Convective heat transfer is much faster than heat transfer due to conduction

Heat in

Heat in

Heat out

Heat out

Condenser

Evaporator

Phase change

Vacuum pipe (container)

Partition

vapour

Condensate

Working fluid

Adiabatic section

The prime purpose of the wick is to generate capillary pressure to transport the working fluid from the condenser to the evaporator

Heat Pipe Basic Theory – How It Works

Up to

1000C e.g.

120C

From

-30C

Up to

350C

Primary can be hot exhaust, air,

liquid, solid surface

Secondary can be a gas, water,

thermal oil, glycol, R245fa and various others

Pipe materials chosen according

performance requirement of

fluid types and temperatures:

carbon steel, stainless steel,

aluminium, copper, etc.

Working fluid chosen according to temperatures involved - water, ammonia, acetone, Dowtherm, etc

-300

0

300

600

900

1200

1500

1800

2100

2400

Melting point , Deg.C

Boiling point Deg.C

From Deg.C

To Deg C

Heat Pipe Basic Theory – Advantages Multiple Redundancy

Each pipe operates independently so unit is

not vulnerable to a single pipe failure

• This prevents cross contamination

each heat pipe acts as an additional

buffer between the two fluids

Low Fouling

Use of smooth pipes allows exchangers

to be used in high particulate or oily

applications

Ease of Cleaning & Maintenance

Can be maintained in situ (no uninstall)

Manual/automated cleaning systems

Isothermal Operation – no hot or cold spots

Eliminates cold corners and condensation

Allows greater energy recovery

Better longevity for thermal oil

Robust Materials and Long Life

Design allows pipes to freely expand and

contract, thus no thermal stress on

structure

Thick pipe walls resist erosion/corrosion

Intermediate Pipe Working

Temperature

Allows higher exhaust temperature

limits on some applications

Suitable for high SO2 fuels

Low Pressure Drop

Low parasitic load means less capital

and running cost on fans and greater

energy recovery possibilities

Reactivity

Fast reaction time, offers different

control options and suitable for sensitive

apparatus: does not require preheating

More efficient – can be smaller and/or

lighter than conventional exchangers

Highly Scalable, Customisable & Configurable

Modular design allows on site assembly

Can be designed for future expansion,

to meet specific application or

operational needs

Heat Pipe Basic Theory – Heat Pipe Types

6

Standard Finned Hybrid

S-shape

Pulsating

Heat Exchangers

Heat Pipes Flat Panel

Heat Pipe Heat Exchangers

General Heat Exchanger

Diagram

Heat Pipe Heat Exchangers

Gas / Liquid heat exchanger diagram

Horizontal layout – Cross flow

Heat Pipe Heat Exchangers

Gas / Liquid heat exchanger diagram

Vertical layout – Through flow

Heat Pipe Heat Exchangers

Gas / Steam heat exchanger diagram

Horizontal layout – Cross flow

Heat Pipe Heat Exchangers

Gas / Air heat exchanger diagram

Horizontal layout – Cross flow

Heat Pipe Heat Exchangers

Gas / Air heat exchanger diagram

Vertical layout - Through flow

Heat Pipe Heat Exchangers

Heat exchanger details

Heat Pipe Heat Exchangers

Competitive advantages for heat pipe systems

Superior Reliability

• Multiple Redundancy

Each heat pipe operates independently; the unit can work in the event of

damage to individual heat pipe

• Isothermal operation

A unique feature of heat pipes is their Isothermal operation. This eliminates

cold corners where condensation may occur and is often the cause of

failure in conventional heat recovery equipment.

Superior Performance

• Low pressure drop

A low pressure drop can delivered relative to conventional heat recovery

equipment and subsequent decrease in electric power consumption

• Higher Recovery

The Isothermal operation of the pipes allows more heat to be extracted from

the primary flow whilst still avoiding problematic condensation in the unit.

• Lower shut-down period

Easy to clean unit through dedicated access points, and modular replacing.

Heat Pipe Heat Exchangers System

Systems - Hot Water production

Safety system:

Temperature switch

Pressure safety valve

Differential pressure switch

Temperature transmitters

Accessories:

Temperature indicator/transmitters

Pressure gauge

Manual valve for vent/drain.

Differential pressure transmitter

Electrical Cabinet :

Junction box

Electronic control board for security

management

Heat Pipe Heat Exchangers System

Systems – Steam generation (bespoke unit)