Industry case studies explaining energy efficient air filter systems
Clean Air. Save Energy.
The modular construction of the energy efficient KMA air filtration systems permits its use for many application areas.
The following industry case studies explain how energy saving air filter system can optimise your operational costs:
Exhaust air purification in foundries – Clean Air. Save Energy.
From conventional extract air mode, to an air filter system with heat recovery and heat pump up to energy saving air recirculation mode – there are various air filtration methods for die casting machines. Which method fits best to your production facility is explained in the following case study.
The outstanding alternative to post-combustion
Up to 80% less energy consumption compared to conventional post-combustion, reduced CO2-emissions and numerous innovation awards such as the EU FoodTech Award. Learn how our award-winning system works in the following case study.
Clean air. Save Energy.
The heat recovery of our KMA filter uses the valuable heat out of the exhaust air in order to reduce the energy consumption of your stenter frame. The recuperated heat is utilized to heat up the supply air of the stenter - reducing the costs for gas or thermal oil heating. How to decrease the energy costs of your stenter frame is explained in the following case study.
Reduce your operating cost by 85% - Save energy without expensive post-combustion
The KMA AAIRMAXX filter system can strongly decrease the energy costs of your smoke house.
Save more than 80% in comparison to the conventional thermal/catalytic post-combustion method incl. heat recovery. How to save money with your smoke house is explained in the following case study.
Heat recovery and odour removal
The KMA ULTRAVENT® exhaust air filter system reduces the energy costs, the emission of CO2 and removes odours from the exhaust air. In the following case study, you can read how to contribute to environmental protection and to save money with your rubber processing plant.