Advanced Heat Recovery, Inc.
an AQUA Innovations Company
Powered by American Ingenuity!
How it works
Energy costs typically reduced 25%!
Picture a closed pipe with no moving
parts
and filled with a working fluid
(based on your application) that uses a
heat pump process (evaporator and
condenser sections) to
recover waste
heat considered unrecoverable
.
99% RECOVERED HEAT OUT
WASTE HEAT IN
Zero cross-contamination.
Anti-fouling, fail-safe design.
Handles high-particulate,
high-temperature,
highly-corrosive environments.
(Gas or Liquid)
(Gas or Liquid)
The Waste Heat and the Recovered
Heat sections are separated.  They can
be used to transfer heat from gas to
gas, gas to liquid (or vice versa) or
liquid to liquid.  Now you understand the
basics of a heat recovery advancement
that is
1000 times more efficient at
transferring heat than copper.
sealed thick wall pipe
energy flow
wick structure
working fluid
  • Each superconducting pipe in the bundle works independently and with
    no moving parts.  
  • Only heat flows through the pipe.
  • If one or more of these pipes were to fail, it would not require an
    immediate shut-down and would not cross-contaminate.
  • The overall efficiency drop would be hard to measure.
1000 TIMES MORE EFFICIENT AT HEAT TRANSFER
THAN COPPER,  BUT HOW DOES IT WORK?
Advantages
©2009 AQUA Innovations, Inc., All Rights Reserved.
Recover heat at each source or combine
multiple sources into one larger system.
  1. When one end of the pipe is heated the liquid turns to vapor absorbing
    the latent heat of vaporization.
  2. The hot vapor flows to the colder end of the tube where it condenses
    and gives out the latent heat.
  3. The recondensed liquid then flows back to the hot end of the tube.
  4. Since the latent heat of evaporation is usually very large, considerable
    quantities of heat can be transported with a very small temperature
    differential from one end of the tube to the other.