Energy and environment

Heat recovery is one of the primary focus for ATHCO Engineering, we have several years of experience handling the norms and regulations within Energy and Environment. ATHCO Engineerings solution will reduce your CO2 foot print and decrease cost for production.

Process Therm

Heat recovery from powder loaded air
Recovering energy from exhaust air


Heat recovery from
waste water
Therm-X heat exchanger


Compact pressurized
heat exchanger
Thermo plate heat exchanger


Taylor made units based
on thermo plates
ATHCO immersion chiller


Top condensers –
vacuum condensers
Industrial condenser

Flue gas condensation

In Biomass or dust
loaded environment

ATHCO-Engineering have developed heat exchangers to handle the requirements for heat recovery and processes within energy and environment.

The flue gas condenser, is a product suitable for flue gas condensation for producing distrct heating, due to the construction very close temperature approaches are possible, hence you can have high recovery rate. Due to the strength of the thermoplates, material consumption is low, hence both the foot-print and the cost is at a minimum. The free flow gives a low pressure drop on the gas side, hence no need for extra fan capacity

For hot dust filled exhaust gasses the process therm is perfect fit for heat recovery either for internal useages or for district heating networks. The construction is similar to the flue gas condenser and the same benfits apply. The process therm can also be equipped with CIP system, to reduce the down time and increase the heat recovery.

High fouling fluids is often an un-utilized source for heat recovery, due to fouling issues, ATHCO-Enginnering offers a solution with the THerm-x, which is a round heat exchanger with brushes. Even the most fouling fluids can be apply with the Therm-x.

Also if there are problems with high temperatures before the sweage treatment, then the Therm-x can also be a very efficnet heat exchanger to hel solve this issue.1

The product specifications,
useful within energy
and environment

  • Efficient designs
  • Close temperature approach
  • High design pressure
  • Low pressure drop
  • Small footprint
  • Customized design
  • CIP cleaning