Leipfinger-Bader combined heat recovery with exhaust air purification

Investing heavily in energy and environmental engineering, Leipfinger-Bader, the medium-sized clay brick manufacturer based in Vatersdorf, Germany, is taking a new approach to heat recovery. Following on from the previously installed two-tower system, the company has added a three-tower system with an additional heat exchanger. It was commissioned on 29 May by Dr Marcel Huber, Bavaria’s Environment Minister.

Customized energy and environmental technology

The new energy and environ­mental technology at Leipfinger-Bader has been individually adapted to the company’s needs. The exhaust air purification also meets future requirements for environmental protection while enabling effective utilization of the thermal energy. The regenerative thermal oxidation system (RTO) consists of three heat exchanger blocks combined on top of each other to form one unit. With cyclic switching, raw and clean gas flows through these blocks alternately. The raw gas is cleaned in a combustion process after the exhaust air has been heated up. Once it has cooled down, the clean gas leaves the system. During the process in the first two chambers, the third part of the exhaust air system is flushed through to ensure consistently high efficiency.

Effective utilization of thermal energy

The real innovation of the system consists in the special combination of the heat recovery and exhaust air purification system. Thanks to an additional heat exchanger, the process heat that becomes available as a result of the cleaning process can be utilized. The clean gas flows through the heat exchanger block and gives off the thermal energy to the cold fresh air that flows through the pipes of the heat exchanger. The generated thermal energy is used in production for drying the Unipor masonry bricks. In this way, the new system guarantees a win-win situation in terms of energy gain: it no longer requires any fossil fuels for its own operation and at the same time gives off process heat that can be used for drying. With the introduction of the new system, Leipfinger-Bader expects to save over 90% fuel oil in its continuous dryer.  The total fossil fuel saving ­corresponds around 35% of the previous consumption. “With the new energy and environmental technology, we are well-equipped for the future and at the same time we are recovering energy that would otherwise go unused. With an anticipated efficiency of 90%, we therefore reckon to ­obtain around 1 200 kW/h”, explains Managing Director Thomas Bader. The ­company also expects to reduce CO2 emissions by 2 500 t/year.

Related articles:

Issue 2018-2 Hellmich GmbH & Co. KG | B5, 311/408

Focus on heat recovery

The environmental engineering specialist Hellmich is focussing on heat exchangers (heat recovery). One big cost factor in the production of ceramics are energy costs, and these are likely to rise...

more
Issue 2012-05

Hellmich GmbH & Co. KG

The environmental engineering ­specialist Hellmich is focussing on heat exchangers (read: heat recovery) at this year‘s Ceramitec. Much of the overall cost in the production of ceramics goes for...

more

Hellmich GmbH & Co. KG

Hellmich is a company specializing in environmental engineering, which supplies, for example, solutions for flue gas cleaning, dedusting, tunnel kiln car cleaning and heat recovery. Much of the...

more
Issue 2015-7

Hellmich GmbH & Co. KG – the expert for environmental engineering

Hellmich is a company specializing in environmental engineering, which supplies, for example, solutions for flue gas cleaning, dedusting, tunnel kiln car cleaning and heat recovery. Much of the...

more
Issue 2013-11

Leipfinger-Bader KG plants “energy forest” for porosity enhancement

Brick and block producer Leipfinger-Bader is now cultivating an “energy forest” for the eco-friendly obtainment of porosification agents. In cooperation with specialist consultants from...

more